US20140024069A1 - Biological Testing Device and Methods of Using and Testing - Google Patents
Biological Testing Device and Methods of Using and Testing Download PDFInfo
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- US20140024069A1 US20140024069A1 US13/945,380 US201313945380A US2014024069A1 US 20140024069 A1 US20140024069 A1 US 20140024069A1 US 201313945380 A US201313945380 A US 201313945380A US 2014024069 A1 US2014024069 A1 US 2014024069A1
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- sheath
- applicator
- collector
- cavity
- handle
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B10/00—Other methods or instruments for diagnosis, e.g. instruments for taking a cell sample, for biopsy, for vaccination diagnosis; Sex determination; Ovulation-period determination; Throat striking implements
- A61B10/02—Instruments for taking cell samples or for biopsy
- A61B10/0291—Instruments for taking cell samples or for biopsy for uterus
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B10/00—Other methods or instruments for diagnosis, e.g. instruments for taking a cell sample, for biopsy, for vaccination diagnosis; Sex determination; Ovulation-period determination; Throat striking implements
- A61B10/02—Instruments for taking cell samples or for biopsy
- A61B2010/0216—Sampling brushes
Definitions
- the present invention relates to devices and methods for obtaining biological samples from organisms for medical screening, such as devices and methods for obtaining biological samples from female humans for Papanicolaou Tests.
- a Papanicolaou Test (“Pap Test”) is a gynecological screening test that can be used to detect cancerous processes and other abnormalities in the endocervical canal. Procedurally, this test involves the use of a speculum by a medical professional to create a sufficiently sized opening in the vagina of a patient to provide non-interfering entry and exit access to target areas, such as the outer opening of the cervix and the endocervix. A plastic-fronded broom, or a spatula and brush combination, can then be used to frictionally contact a target area for collection of biological matter for testing.
- an object of the present invention to provide a biological testing device and related methods of using and testing.
- the present invention includes a biological sampling device for collecting biological material from within an organism, and related methods of using such a device, preparing a biological sample from such a device, and testing a biological sample prepared from such a device.
- Perceived benefits of the present invention can include any combination of the following: reduced discomfort, improved sampling accuracy, improved sampling speed, improved testing accuracy, and improved sampling and/or testing availability. However, it is expressly set forth that these benefits are not intended as exclusive. Thus, any express, implied, or apparent benefit from the disclosure herein and/or use of the present invention is expressly deemed as applicable to the present invention.
- a collector can include an abrasive outer surface area, and can be configured to transition between a secured position, in which the collector is positioned within the sheath cavity, and a sampling position, in which said collector is positioned outside of the sheath cavity.
- a handle can include a first handle end and a second handle end, and can extend through the sheath cavity with the first handle end being fixed to the collector and the second handle end extending from the second sheath end.
- the handle and the sheath when the first sheath end is inserted into an organism through an orifice of the organism, the handle and the sheath can be configured to transition the collector from the secured position to the sampling position; the handle can be configured to move the collector when in the sampling position, such that the outer surface area collects the biological material by abrasively contacting an internal portion of the organism, and the handle and the sheath can be configured to transition the collector from the sampling position to the secured position.
- a biological sampling device can optionally include an applicator having a first applicator end, a second applicator end, and an applicator cavity that extends between the first and second applicator ends, with the applicator being configured to be disposed within the sheath cavity.
- a secured position can include the collector being positioned within at least one of the sheath and applicator cavities, and a sampling position can include the collector being positioned outside of the sheath and applicator cavities.
- At least two of the handle, the sheath, and the applicator can be configured to transition the collector from the secured position to the sampling position
- the handle is configured to move the collector when in the sampling position, such that the outer surface area can collect the biological material by abrasively contacting an internal portion of the organism
- a plurality of the handle, the sheath, and the applicator can be configured to transition the collector from the sampling position to the secured position.
- a method of using any biological sampling device enabled herein can include inserting the sheath into an orifice of an organism; transitioning the collector from a secured position to a sampling position; moving the collector while in the sampling position to collect biological material; returning the collector to the secured position; and removing the collector with the collected biological material from the orifice of the organism.
- a method of preparing a biological sample from biological material collected by any biological sampling device enabled herein can include moving a material against a collector to transfer at least a portion of the collected biological matter to the material; and after the step of moving, providing the material and the at least a portion of the collected biological matter as the biological sample.
- a method of testing a biological sample obtained from any biological sampling device enabled herein can include applying at least one testing protocol to the biological sample; and deriving a testing result from the at least one protocol.
- a sheath can have a continuous exterior sheath surface; a sheath and/or an applicator can be cylindrically shaped; a sheath and/or an applicator can be provided as a combination of multiple shapes; a sheath and/or an applicator can be formed, at least in part, from a plastic; a sheath and/or an application can be provided with a smooth exterior portion; a first sheath end and/or a first applicator end can be tapered or rounded; a first sheath end and/or a first applicator end can include one or more petals; at least a portion of a sheath cavity and/or an applicator cavity can be cylindrical; a sheath cavity and/or an applicator cavity can be coaxial with a sheath; the sheath cavity and/or the applicator cavity can have a non-uniform shape; a
- FIG. 1 illustrates an exploded view of an exemplary embodiment of the present invention, in which a biological sampling device 100 can include a sheath 110 , a collector 120 , and a handle 130 .
- FIG. 2 a illustrates an assembled exemplary device with collector 120 in a secured position 123 .
- FIG. 2 b illustrates an assembled exemplary device with collector 120 in a sampling position 124 .
- FIG. 3 illustrates an exemplary device having an angled first handle end 131 and a collector 120 having at least one bristle 122 .
- FIG. 4 illustrates an exploded view of another exemplary embodiment of the present invention, in which a biological sampling device 100 can include a sheath 110 , a collector 120 , a handle 130 , and an applicator 140 .
- FIG. 5 a illustrates a general view of an exemplary device in an exemplary configuration.
- FIG. 5 b illustrates an exemplary device in an exemplary pre-use configuration in which collector 120 is in a secured position.
- FIG. 5 c illustrates an exemplary device in an in-use configuration in which collector 120 is in a sampling position.
- FIG. 5 d illustrates an exemplary device in a post-use configuration in which collector 120 is in a secured position and optionally sealed via cap 115 a.
- FIG. 6 a illustrates an exemplary device with a handle 130 configured to shorten in length.
- FIG. 6 b illustrates a detailed view of an optional and exemplary sealing structure as cap 115 a , cap threads 115 b , and inner sheath threads 114 .
- FIG. 6 c illustrates a detailed view of an exemplary sheath cavity 113 with an optional and exemplary sealing/stopping structure as inner sheath threads 117 , and an optional stopping structure as differing diameter sizes d 1 , d 2 of sheath cavity 113 .
- FIG. 6 d illustrates an exemplary applicator 140 with an optional and exemplary sealing/stopping structure as applicator threads 145 and another optional and exemplary sealing/stopping structure applicator abutments 146 .
- FIG. 7 illustrates exemplary method steps of using a biological testing device having a sheath, a collector, and a handle.
- FIG. 8 illustrates exemplary method steps of using a biological testing device having a sheath, an applicator, a collector, and a handle.
- FIG. 9 illustrates exemplary method steps of preparing a biological sample from biological material collected by a biological sampling device having a sheath, a collector with the collected biological material, and a handle fixed to the collector.
- FIG. 10 illustrates exemplary method steps of preparing a biological sample from biological material collected by a biological sampling device having a sheath, an applicator, a collector with the collected biological material, and a handle fixed to the collector.
- FIG. 11 illustrates exemplary method steps of testing a biological sample obtained from a biological sampling device having a sheath, a collector with collected biological material, and a handle fixed to the collector.
- FIG. 12 illustrates exemplary method steps of testing a biological sample obtained from a biological sampling device having a sheath, an applicator, a collector with collected biological material, and a handle fixed to the collector.
- FIG. 13 illustrates an exemplary biological testing device 100 inserted into a vaginal canal 202 of an organism with a collector 120 being in an exemplary secured position.
- FIG. 14 illustrates an exemplary biological testing device 100 inserted into a vaginal canal 202 of an organism with a collector 120 being in an exemplary sampling position.
- this disclosure includes a plurality of elements and/or aspects, and such elements and/or aspects need not be interpreted as necessarily being conjunctively required by one or more embodiments of the present invention. Rather, all combinations of the one or more elements and/or aspects are intended to potentially enable a separate embodiment of the present invention, which are free to be claimed with particularity in this or one or more future filed applications. Moreover, any particular materials, structures, and/or sizes disclosed, expressly or implicitly, herein are to be construed strictly as illustrative and enabling.
- the present invention can be embodied in a biological sampling device for collecting biological material from within an organism, and related methods of using such a device and of testing of such material collected by such a device.
- the present invention can be utilized on any organism having an orifice, and moreover, the present invention can be utilized by any type of human, such as a non-medically trained individual, a medically trained individual, a doctor, a medical specialist, a nurse, a scientist, a technician, a layperson, and/or a person undergoing biological sampling via the present invention.
- the present invention can be provided in different sizes, including overall width, height, length, and/or diameter, which can be based on the particular application of the present invention.
- the present invention can be utilized to sample biological matter through any available orifice of an organism.
- FIG. 1 illustrates an exploded view of an exemplary embodiment of the present invention, in which a biological sampling device 100 can include a sheath 110 , a collector 120 , and a handle 130 .
- sheath 110 can have a first sheath end 111 , a second sheath end 112 , and a sheath cavity 113 that can extend between the first and second sheath ends.
- collector 120 can have an abrasive outer surface area 121 that can contact and collect biological material from an internal portion of an organism.
- handle 130 can be configured to extend through sheath cavity 113 , and can have a first handle end 131 fixed to collector 120 and a second handle end 132 that can extend from second sheath end 112 when the handle is so disposed within the sheath cavity.
- FIGS. 2 a and 2 b illustrate exemplary embodiments of the present invention when assembled.
- FIG. 2 a illustrates a secured position 123 of collector 120 , in which the collector can be disposed within sheath 110 .
- FIG. 2 b illustrates a sampling position 124 of collector 120 , in which the collector can extend outside of, and from, sheath 110 .
- collector 120 can be transitioned between secured and sampling positions via handle 130 , with such transitioning being further described herein.
- a biological sampling device 100 can be inserted into an orifice of a target organism (not shown), and collector 120 can be transitioned from a secured position to a sampling position.
- Collector 120 can be moved via handle 130 so as to abrasively contact an internal portion of the organism and collect biological material therefrom and/or adjacent thereto.
- Collector 120 can then be transitioned back to a secured position, such that the collector, along with collected biological material, can then be removed from the orifice.
- sheath 110 can be cylindrically shaped.
- sheath 110 can be provided in any desired shape that is functionally compatible with the present invention.
- sheath 110 can be provided as a combination of multiple shapes, and moreover, need not be uniformly or symmetrically shaped.
- sheath 110 can be provided in any combination of the following shapes, in whole or in part: cuboid, cylinder, pyramid, cube, sphere, cone, prism, cuboid, and/or any variations thereof, including symmetrical and/or asymmetrical variations thereof.
- first sheath end 111 can optionally be provided with a rounded and/or a tapered terminal portion to facilitate an insertion of sheath 110 into an orifice of an organism. Also optionally, first sheath end 111 can be petalled so as to have at least one petal 144 (as illustratively shown in FIG. 4 with respect to first applicator end 141 ), which can assist in an insertion of sheath 110 into an orifice while allowing collector 120 to transition therethrough.
- sheath 110 (and optionally applicator 140 , see infra) can be provided in any desired material or materials that provide an overall rigidity that allows, insertion of the sheath into an orifice of an organism, and to the extent desired, deformation of a collector, as further described herein.
- sheath 110 can be provided in any one or more of the following materials: plastic, metal, ceramic, wood, paper, cardboard, any known or apparent variations thereof, or any other material that is functionally compatible with the present invention.
- sheath 110 can be provided with a smooth exterior surface to minimize friction between the exterior surface and internal portions of the organism.
- abrasive outer surface area 121 of collector 120 can be sufficiently abrasive such that its movement (e.g., linear motion, vibration, rotation, etc.) against an internal portion of an organism causes the outer surface area 121 to physically contact biological material from, on, or adjacent to the internal portion, and to collect the biological material via a static force, absorption, adhesion, and/or any other desired, foreseeable, or apparent means.
- biological matter can be near the internal portion and nonetheless collected.
- biological material can include one or more of a cell, a virus, a bacterium, a microorganism, DNA, RNA, or any other type of biological material including a remnant, portion, or byproduct of any of the aforementioned.
- collector 120 can be provided with a symmetric or asymmetric shape when in either a secured or sampling position. As illustrated in FIG. 2 a , when in secured position 123 , collector 120 can be deformed to have a height, width, and/or diameter that is smaller than that of sheath 110 (or an applicator, as described infra). And as illustrated in FIG. 2 b , when in a sampling position 124 , outer surface 121 can extend beyond the height, width, and/or diameter of sheath 110 .
- collector 120 can be formed from any suitable material or materials, which will be apparent to one of ordinary skill in the art given this disclosure. For example, any known or apparent material utilized in obtaining biological samples from within organisms, including but not limited to those suitable for obtaining biological samples for Pap Tests.
- changes in the position of outer surface 121 between states can be effectuated by any functionally compatible selection of one or more materials and/or structures of which collector 120 and/or handle 130 is formed. Accordingly, collector 120 can be biased in any mechanic and/or material manner functionally consistent with the present invention.
- collector 120 can include a plurality of bristles, a broom, a segment of material, and/or a spatula; and/or can be formed of an elastic material, such as a sponge or a foam material, with the outer portions thereof being outer surface area 121 .
- collector 120 can include a plurality of bristles 122 , the terminal portions of which can form outer surface area 121 .
- collector 120 can include a plurality of bristles 122 that can be materially biased to extend in a linear direction, and mechanically biased to extend outwardly from handle 130 via fixation to first handle end 131 .
- bristles 122 can be fixed directly to first handle end 131 , or fixed thereto via a ferrule or other type of functionally compatible bristle holder.
- collector 120 when in, or transitioned into, a secured position, collector 120 can deform in shape and/or size to fit within sheath cavity 113 (and/or within an applicator cavity, as described infra). Conjunctively or alternatively, as illustrated in FIG.
- bias of collector 120 can be achieved via a handle end that is materially and/or mechanically biased towards a non-linear angle, and materially and/or mechanically deformable towards a linear angle that is coaxial with a sheath, such that a collector can be in or transitioned to a secured state within a sheath cavity (and/or within an applicator cavity, as described infra).
- first handle end 131 can be formed of an elastic material, such as a metal or plastic, for example and not in limitation, and/or can include a spring or elastic material to effectuate such bias and deformability, for example and not in limitation.
- collector 120 need not be biased, but rather can be angled with a linear handle 130 so as to reach beyond a height, width, and/or circumference of sheath 110 by angling the handle so as not to be co-axial with the sheath (or applicator, as described infra).
- handle 130 can extend through sheath cavity 113 , with first handle end 131 being fixed to collector 120 and second handle end 132 extending from second sheath end 112 .
- handle 130 can be provided in a linear shape, such as a rod, for example and not in limitation; however, handle 130 can alternatively be provided in any other shape, whether symmetric or asymmetric, as long as the resulting handle is functionally compatible with the present invention.
- handle 130 can be formed of any suitable material or materials that provide sufficient overall rigidity and strength to allow pushing, pulling, and positional maintenance of collector 130 between or in a secured and/or sampling state, and to allow rotation or movement of a collector when in a sampling state.
- pushing and/or pulling of handle 130 can include rotating the handle, such as where the handle is configured to rotate through a threaded guide, such as threads for example and not in limitation, which can provide liner motion through rotation of the handle.
- handle 130 can include a motor adapter (not shown) configured to connect to a motor (not shown), such that motorized energy (e.g., one or more of rotation, vibration, pushing, and pulling) can be transferred from the motor to collector 120 via handle 130 .
- handle 130 can optionally be configured to disengage from collector 120 (such as, for example and not in limitation, rotational disengagement from a threaded receiver) or can be cut, broken, or otherwise shortened.
- FIG. 4 illustrates an exploded view of another exemplary embodiment of the present invention, in which a biological sampling device 100 can further include, in addition to a sheath 110 , a collector 120 , and a handle 130 , and an applicator 140 .
- applicator 140 can have a first applicator end 141 , a second applicator end 142 , and an applicator cavity 143 that can extend between the first and second applicator ends.
- applicator 140 can be configured to extend through sheath cavity 113
- handle 130 can be configured to extend through applicator cavity 143 .
- sheath 110 and applicator 140 can be complementarily configured such that the applicator can slidably fit within sheath cavity 113 , with collector 120 and handle 130 cooperatively operating as described herein, but additionally, respectively within and through applicator cavity 143 .
- applicator 140 can be cylindrically shaped. However, applicator 140 can be provided in any desired shape that is functionally compatible with the present invention. Further, applicator 140 can be provided as a combination of multiple shapes, and moreover, need not be uniformly or symmetrically shaped. For example and not in limitation, applicator 140 can be provided in any combination of the following shapes, in whole or in part: cuboid, cylinder, pyramid, cube, sphere, cone, prism, cuboid, and/or any variations thereof, including symmetrical and/or asymmetrical variations thereof.
- first applicator end 141 can optionally be provided with a rounded and/or a tapered terminal portion to facilitate an insertion of applicator 140 into an orifice of an organism. Also optionally, first applicator end 141 can be petalled so as to have at least one petal 144 .
- applicator 140 can be provided in any desired material or materials that provide an overall rigidity that allows, insertion of the applicator into an orifice of an organism, and to the extent desired, deformation of collector 120 .
- applicator 140 can be provided in any one or more of the following materials: plastic, metal, ceramic, wood, paper, cardboard, any known or apparent variations thereof, or any other material that is functionally compatible with the present invention.
- the transitioning (and returning) of collector 120 between states can be effectuated by pushing or pulling handle 130 with sheath 110 and/or applicator 140 being in either a static position or a counter motion relative to the pushing or pulling; and/or by retracting or further inserting sheath 110 and/or applicator 140 with collector 120 being in either a static position or a counter motion relative to the retracting or further inserting.
- motion of collector 120 while in the sampling position can be effectuated by one or more of the following: linear motion of the collector; motion of the collector to and from the sampling position; vibratory motion of the collector; and rotational movement of the collector.
- FIGS. 5 a - 5 d illustrate additional exemplary embodiments of the present invention when assembled.
- FIG. 5 a illustrates a preliminary configuration of sampling device 100 , in which handle 130 can be positioned within applicator cavity 143 , and applicator 140 can be positioned within sheath cavity 113 .
- FIG. 5 a additionally illustrates optional inner sheath threads 114 and cap 115 a having cap threads 115 b , which when cooperatively engaged can provide a seal before and/or after a biological sample is obtained.
- FIG. 5 b illustrates another preliminary configuration of sampling device 100 .
- collector 120 prior to deployment, collector 120 can be in a secured position 123 , in the collector can be positioned within at least one of sheath 110 and applicator 140 .
- first applicator end 141 can extend from first sheath end 111 .
- FIG. 5 c illustrates another exemplary embodiment of sample device 100 , in which collector 120 has been transitioned from a secured position 123 to a sampling position 124 , in which the collector is positioned outside of sheath 110 and applicator 140 .
- FIG. 5 d illustrates another exemplary embodiment of sample device 100 , in which collector 120 has been transitioned from a sampling position 123 to a secured position 124 , with cap 115 a engaged with sheath 110 via engagement between sheath threads 114 and cap threads 115 b .
- secured position 123 is illustratively shown as collector 120 being positioned within sheath 110 and outside applicator 140 .
- secured position 123 can include collector 120 being within at least one of sheath 110 and applicator 140 .
- FIGS. 5 a - 5 d further illustrate optional sheath handle 116 , which can assist in the movement and/or positional maintenance of sheath 110 in using sampling device 100 ; as well as second handle end 132 having a textured outer surface to facilitate manual manipulation thereof.
- a biological sampling device can optionally include one or more sealing and/or stopping structures at any end of any element of the present invention and/or between any two elements of the present invention.
- a sealing structure can provide a gas and/or liquid-tight seal for retaining and/or excluding a gas and/or liquid; whilst a stopping structure can limit and/or define relative movement between one or more elements of the present invention.
- an exemplary sealing structure can include one or more of an open or closed thread, a cap, a groove, a collar, a gasket, a shoulder, a protrusion, or any other functionally compatible structure or structures that can provide a sealing function.
- a sealing structure can be provided at one or more of a first sheath end 111 , a second sheath end 112 , a first applicator end 141 , a second applicator end 142 , and a first handle end 131 , and a second handle end 132 , and/or between any two of a sheath 110 , a collector 120 , a handle 130 , and an applicator 140 ; and thus, can assist in preserving collected biological matter, which can prevent contaminants from entering between seals and/or hold a preserving liquid between seals, for example and not in limitation.
- FIGS. 5 a and 5 d illustrate an optional sealing structure as sheath end threads 114 at first sheath end 111 and cap 115 a having cap threads 115 b , which are additionally illustrated in detailed perspective of FIG. 6 b .
- a desired seal at the first sheath end can be achieved.
- the present invention contemplates one or more threads being positioned on the inside or outside of any element.
- any end can optionally include an annular groove or collar located on the outside or inside of the end, and a cap can be complementarily configured with a respective collar or groove to sealably engage such groove or collar.
- a cap and/or an end can include one or more gaskets, such as o-rings, to facilitate a seal.
- FIGS. 5 a and 5 d further illustrate another optional sealing structure as inner sheath threads 117 and applicator threads 145 , which are additionally illustrated in detailed perspectives of FIGS. 6 c and 6 d .
- a desired seal between sheath 110 and applicator 140 can be achieved.
- a second seal such as, for example and not in limitation, via first sheath end 111 and a cap 115 a
- a sealed compartment enclosing collector 120 can be formed.
- such a sealed compartment can be formed between sheath 110 and handle 130 , where handle 130 includes handle threads (not shown).
- one or more complementary threads can be open, in which case two elements can relatively rotate through each other, or closed, in which case two elements cannot relatively rotate through each other.
- the inside of a sheath and the outside of an applicator can include a first groove or collar, and the other of the inside of a sheath and the outside of an applicator can include a complementarily configured collar or groove to sealably engage the other groove or collar.
- plural collars can be provided in conjunction with threads to enhance a seal.
- the inside of a sheath and/or the outside of an applicator can include one or more gaskets, such as o-rings, to facilitate a seal.
- the present invention can optionally include one or more stopping structures.
- a sealing structure can be strategically positioned to provide such a stopping function, such that movement of elements of the present invention can be limited or prevented in at least one direction before or after sampling.
- relative movement of two or more elements of the present invention can be strategically defined before and/or during sampling; such as, for example and not in limitation, defining a maximum and/or minimum distance a collector 120 can extend out from sheath 110 and/or applicator 140 , defining the maximum and/or minimum distance a collector can move within a sheath and/or collector; limiting how many times a collector can rotate when in a sample position; and/or defining any other limit or range of relative motion of two or more elements of the present invention.
- a sealing structure can be provided between any two elements of the present invention for sealing and/or stopping functionality.
- a sealing structure can be provided at any point between, and including, ends of any two elements of the present invention.
- the present invention is not to be construed as requiring any of the specific sealing and/or stopping structures described herein, and is to be construed as including any known or apparent structure or structures that are functionally compatible with the present invention.
- FIG. 4 illustrates an optional stopping structure as sheath end threads 114 and applicator threads 145 , which can limit relative movement between sheath 110 and applicator 140 when such threads abut each other and when engaged.
- FIGS. 6 c and 6 d illustrate a first optional stopping structure as inner sheath threads 117 and applicator threads 145 , which can limit relative movement between sheath 110 and applicator 140 as above; and a second optional stopping structure as a decreased diameter of sheath 110 from d 1 to d 2 , such that sheath 110 at d 2 can form an abutment for applicator 140 or handle 130 having an diameter dh, where d 1 >dh>d 2 .
- FIG. 6 d illustrates at least one applicator inner abutment 146 , which can limit relative movement of a complementarily sized handle 130 .
- a sealing structure can be permanent between elements of the present invention that need not move, such as between a handle and a collector.
- a sealing structure in this regard can include complementarily configured threads; a molded, glued, or clamped bond therebetween; and/or any other permanent sealing and/or fixation structure or structures.
- sealing and/or stopping functionally between elements of the present invention can be alternatively or conjunctively be effectuated via the shapes of elements or portions thereof.
- a sheath cavity 113 can be provided with a shape that includes a smaller sized diameter (or size) and a larger sized diameter (or size); and an applicator 140 or a handle 130 (or portion thereof) can be provided with a shape having a first diameter (or size) that is less than the sheath cavity's smaller size and a second diameter (or size) that is greater than the sheath cavity's smaller size.
- applicator 140 or handle 130 can move relative thereto until its larger size meets the sheath cavity's smaller size, with such meeting defining a stopping structure.
- meeting portions can be complementarily tapered, for example and not in limitation, to further provide a sealing structure.
- any two or more adjacent elements of the present invention can be provided with complementary shapes to provide a stopping and/or a sealing structure when particularly positioned.
- a stopping structure can include an annular collar, a shoulder, a ridge, and/or a protrusion configured to limit movement of elements in one or more directions, as long as the same does not render the present invention functionally unusable in all manners described herein.
- one or more gaskets can be provided between stopping structures to facilitate a sealing function.
- sheath 110 , handle 130 , and/or applicator 140 can be provided with an extension element at respective second ends thereof, so as to facilitate manual manipulation of one or more thereof.
- sheath handle 116 can act as an abutment so as to limit the depth in which sheath 110 can be inserted into an organism.
- an extension element can limit the relative motion between two or more elements of the invention, and/or provide an element handle or grip to facilitate manual manipulation of the invention, which can include any combination of pulling, pushing, rotating, moving, holding in a static position, inserting, and/or removing.
- one or more of a sheath extension, an applicator extension, and/or a handle extension can be configured to abut and/or to lock together with another of a sheath extension, an applicator extension, and a handle extension to limit relative motion thereof in at least one direction.
- an abutment and/or locking function can provide a stopping and/or sealing function.
- the present invention can also be embodied in methods of using, and of preparing a biological sample from, any biological sampling device enabled herein. Further, the present invention can be embodied in a method of testing a biological sample prepared any biological sampling device enabled herein.
- FIG. 7 illustrates an exemplary method of using a biological sampling device having a sheath, a collector, and a handle fixed to the collector to collect a biological sample.
- a biological sampling device having a sheath, a collector, and a handle fixed to the collector to collect a biological sample.
- such a method can include the following steps:
- the collector can be maintained in the secured position (i.e., within the sheath cavity) to reduce the risk of contaminants being collected by the collector.
- the collector can be inserted into the sheath after the sheath is inserted into an orifice, and/or the collector can be withdrawn from the sheath (and an orifice) while the sheath is still inserted in the orifice. Such an insertion and/or withdrawal can also reduce the risk of contaminants being collected by collector.
- FIG. 8 illustrates an exemplary method of using a biological sampling device having a sheath, a collector, a handle fixed to the collector, and an applicator to collect a biological sample.
- a biological sampling device having a sheath, a collector, a handle fixed to the collector, and an applicator to collect a biological sample.
- such a method can include the following steps:
- the collector can be maintained in the secured position to reduce the risk of contaminants being collected by the collector.
- the collector can be inserted into the sheath and/or the applicator after the sheath is inserted into an orifice, and/or the collector can be withdrawn from the sheath and/or the applicator while the sheath and/or applicator is still inserted in the orifice. Such an insertion and/or withdrawal can also reduce the risk of contaminants being collected by collector.
- a collector can be positioned inside a sheath and/or an applicator when or after the sheath and/or applicator is inserted into an orifice of an organism; a collector can be adapted to remain within a sheath and/or an applicator when the collector is withdrawn from an orifice of an organism; and a collector can be configured to be withdrawn from an orifice of an organism while a sheath and/or an applicator remains inserted in an orifice of an organism.
- FIG. 9 illustrates an exemplary method of preparing a biological sample from biological material collected by a biological sampling device having a sheath, a collector with the collected biological material, and a handle fixed to the collector. According to the present invention, such a method can include the following steps:
- FIG. 10 illustrates an exemplary method of preparing a biological sample from biological material collected by a biological sampling device having a sheath, an applicator, a collector with the collected biological material, and a handle fixed to the collector.
- a biological sampling device having a sheath, an applicator, a collector with the collected biological material, and a handle fixed to the collector.
- such a method can include the following steps:
- the material can include a liquid or a solid.
- any method of preparing a biological sample can further include a step of introducing a liquid to the material to provide a visual indication of a logical state, such as the presence or absence of one or more particular biological states or identities, for example and not in limitation.
- FIG. 11 illustrates an exemplary method of testing a biological sample obtained from a biological sampling device having a sheath, a collector with collected biological material, and a handle fixed to the collector.
- a biological sample obtained from a biological sampling device having a sheath, a collector with collected biological material, and a handle fixed to the collector can include the following steps:
- FIG. 12 illustrates an exemplary method of testing a biological sample obtained from a biological sampling device having a sheath, an applicator, a collector with collected biological material, and a handle fixed to the collector.
- a biological sampling device having a sheath, an applicator, a collector with collected biological material, and a handle fixed to the collector.
- such a method can include the following steps:
- a testing protocol can include any known or apparent medical, including future-developed, testing protocol that is functionally consistent with the present invention.
- a testing protocol can be associated with a Papanicolaou Test.
- a sampling device 100 can be inserted into an orifice of an organism to varying depths so as to strategically deploy collector 120 at an optimal position within the organism, and therefore, can be provided in varying lengths.
- a sampling device 100 can be inserted to a particular depth so as to deploy a collector to collect cells at a known area of concern. For example and not in limitation, as illustrated in FIGS.
- a sampling device 100 can be inserted through a human vaginal opening 201 and into a vaginal canal 202 until a first applicator end 141 (and/or a first sheath end 111 ) abuts the end of the vaginal canal, such that a collector 120 can be optimally deployed where a cervix 203 is located.
- the overall width, height, and/or circumference of a sampling device 100 can vary in light of the size of a target orifice.
- the overall width, height, and/or circumference of a sampling device 100 can be minimized to reduce discomfort to an organism when the device is inserted through an orifice.
- this disclosure includes a plurality of elements and/or aspects, and such elements and/or aspects need not necessarily be interpreted as being conjunctively required by one or more embodiments of the present invention. Rather, all combinations of the one or more elements and/or aspects may enable a separate embodiment of the present invention, which may be claimed with particularity in this or any other future filed patent application. Moreover, any particular material, structure, and/or size disclosed herein are to be construed strictly as illustrative and enabling, and not necessarily limiting.
Abstract
A biological sampling device for collecting biological material from within an organism can include a sheath, a collector, a handle, and optionally, an applicator. In a secured position, a collector is within the sheath and/or applicator; in a sampling position, a collector is outside the sheath and applicator. A device can be inserted into an orifice of an organism with a collector being transitioned from a secured to a sampling position, moved via a handle to collect biological material for testing, and subsequently returned to a secured position. A biological sample can be prepared from biological material collected by a biological sampling device, and a biological sample can be tested by application of a testing protocol.
Description
- This document is related to, claims the priority benefit of, and incorporates by reference in its entirety, U.S. Provisional Patent Application Ser. No. 61/741,376, entitled Biological Sampling Device and Methods of Using and Testing, and filed on Jul. 18, 2012 by Ariel Figueredo.
- Generally, the present invention relates to devices and methods for obtaining biological samples from organisms for medical screening, such as devices and methods for obtaining biological samples from female humans for Papanicolaou Tests.
- A Papanicolaou Test (“Pap Test”) is a gynecological screening test that can be used to detect cancerous processes and other abnormalities in the endocervical canal. Procedurally, this test involves the use of a speculum by a medical professional to create a sufficiently sized opening in the vagina of a patient to provide non-interfering entry and exit access to target areas, such as the outer opening of the cervix and the endocervix. A plastic-fronded broom, or a spatula and brush combination, can then be used to frictionally contact a target area for collection of biological matter for testing.
- It is, therefore, an object of the present invention to provide a biological testing device and related methods of using and testing.
- The present invention includes a biological sampling device for collecting biological material from within an organism, and related methods of using such a device, preparing a biological sample from such a device, and testing a biological sample prepared from such a device.
- Perceived benefits of the present invention can include any combination of the following: reduced discomfort, improved sampling accuracy, improved sampling speed, improved testing accuracy, and improved sampling and/or testing availability. However, it is expressly set forth that these benefits are not intended as exclusive. Thus, any express, implied, or apparent benefit from the disclosure herein and/or use of the present invention is expressly deemed as applicable to the present invention.
- In an exemplary embodiment of the present invention, a biological sampling device for collecting biological material from within an organism can include a sheath, a collector, and a handle.
- In an exemplary aspect of the present invention, a sheath can include a first sheath end, a second sheath end, and a sheath cavity that extends between the first and second sheath ends.
- In another exemplary aspect of the present invention, a collector can include an abrasive outer surface area, and can be configured to transition between a secured position, in which the collector is positioned within the sheath cavity, and a sampling position, in which said collector is positioned outside of the sheath cavity.
- In a further exemplary aspect of the present invention, a handle can include a first handle end and a second handle end, and can extend through the sheath cavity with the first handle end being fixed to the collector and the second handle end extending from the second sheath end.
- In yet another exemplary aspect of the present invention, when the first sheath end is inserted into an organism through an orifice of the organism, the handle and the sheath can be configured to transition the collector from the secured position to the sampling position; the handle can be configured to move the collector when in the sampling position, such that the outer surface area collects the biological material by abrasively contacting an internal portion of the organism, and the handle and the sheath can be configured to transition the collector from the sampling position to the secured position.
- In another exemplary embodiment of the present invention, a biological sampling device can optionally include an applicator having a first applicator end, a second applicator end, and an applicator cavity that extends between the first and second applicator ends, with the applicator being configured to be disposed within the sheath cavity.
- In this embodiment of the present invention, a secured position can include the collector being positioned within at least one of the sheath and applicator cavities, and a sampling position can include the collector being positioned outside of the sheath and applicator cavities.
- In an exemplary aspect of this embodiment of the present invention, when at least one of the first sheath end and the first applicator end is inserted into the organism through an orifice of the organism and the collector is in the secured position, at least two of the handle, the sheath, and the applicator can be configured to transition the collector from the secured position to the sampling position, the handle is configured to move the collector when in the sampling position, such that the outer surface area can collect the biological material by abrasively contacting an internal portion of the organism, and a plurality of the handle, the sheath, and the applicator can be configured to transition the collector from the sampling position to the secured position.
- In a further exemplary embodiment of the present invention, a method of using any biological sampling device enabled herein can include inserting the sheath into an orifice of an organism; transitioning the collector from a secured position to a sampling position; moving the collector while in the sampling position to collect biological material; returning the collector to the secured position; and removing the collector with the collected biological material from the orifice of the organism.
- In another exemplary embodiment of the present invention, a method of preparing a biological sample from biological material collected by any biological sampling device enabled herein can include moving a material against a collector to transfer at least a portion of the collected biological matter to the material; and after the step of moving, providing the material and the at least a portion of the collected biological matter as the biological sample.
- In still another exemplary embodiment of the present invention, a method of testing a biological sample obtained from any biological sampling device enabled herein can include applying at least one testing protocol to the biological sample; and deriving a testing result from the at least one protocol.
- The follow non-exhaustive list of optional exemplary aspects of the present invention can be applied to any embodiment enabled herein: a sheath can have a continuous exterior sheath surface; a sheath and/or an applicator can be cylindrically shaped; a sheath and/or an applicator can be provided as a combination of multiple shapes; a sheath and/or an applicator can be formed, at least in part, from a plastic; a sheath and/or an application can be provided with a smooth exterior portion; a first sheath end and/or a first applicator end can be tapered or rounded; a first sheath end and/or a first applicator end can include one or more petals; at least a portion of a sheath cavity and/or an applicator cavity can be cylindrical; a sheath cavity and/or an applicator cavity can be coaxial with a sheath; the sheath cavity and/or the applicator cavity can have a non-uniform shape; a collector can be symmetric or asymmetric around at least one axis when in a sampling position and/or a secured position; a collector can include one or more bristles; a collector can deform when in the secured position; a collector can increase in size when transitioned from a secured position to a sampling position; a handle can be adapted to disengage from a collector; a second applicator end can extend from a second sheath end; a sheath, an applicator, and/or a handle can include a respective extension at respective second ends thereof; at least one of a sheath extension, an applicator extension, and/or a handle extension can be configured to abut and/or engage with another of a sheath extension, an applicator extension, and a handle extension to limit relative motion thereof in at least one direction; a collector can be positioned inside a sheath and/or an applicator after the sheath and/or applicator is inserted into an orifice of an organism; a collector can be adapted to remain within a sheath and/or an applicator when the collector is withdrawn from an orifice of an organism; a collector can be configured to be withdrawn from an orifice of an organism while a sheath and/or an applicator remains inserted in an orifice of an organism; a biological sampling device can optionally include at least one of a sealing structure and a stopping structure; a sealing structure or a stopping structure can include at least one of a thread, a cap, an annular groove, a collar, a shoulder, a ridge, a gasket, and a protrusion; a thread can be an open thread or a closed thread; a stopping structure can be configured to limit relative motion of at least two of a sheath, an applicator, a handle, and a collector; a material can include a liquid, a solid, or a gas; and a testing protocol can be associated with a Papanicolaou Test.
- These and other exemplary aspects of the present invention are described herein.
- The present invention is illustrated by way of example, and not in limitation, in the figures of the accompanying drawings, in which:
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FIG. 1 illustrates an exploded view of an exemplary embodiment of the present invention, in which abiological sampling device 100 can include asheath 110, acollector 120, and ahandle 130. -
FIG. 2 a illustrates an assembled exemplary device withcollector 120 in a securedposition 123. -
FIG. 2 b illustrates an assembled exemplary device withcollector 120 in asampling position 124. -
FIG. 3 illustrates an exemplary device having an angledfirst handle end 131 and acollector 120 having at least onebristle 122. -
FIG. 4 illustrates an exploded view of another exemplary embodiment of the present invention, in which abiological sampling device 100 can include asheath 110, acollector 120, ahandle 130, and anapplicator 140. -
FIG. 5 a illustrates a general view of an exemplary device in an exemplary configuration. -
FIG. 5 b illustrates an exemplary device in an exemplary pre-use configuration in whichcollector 120 is in a secured position. -
FIG. 5 c illustrates an exemplary device in an in-use configuration in whichcollector 120 is in a sampling position. -
FIG. 5 d illustrates an exemplary device in a post-use configuration in whichcollector 120 is in a secured position and optionally sealed viacap 115 a. -
FIG. 6 a illustrates an exemplary device with ahandle 130 configured to shorten in length. -
FIG. 6 b illustrates a detailed view of an optional and exemplary sealing structure ascap 115 a,cap threads 115 b, andinner sheath threads 114. -
FIG. 6 c illustrates a detailed view of anexemplary sheath cavity 113 with an optional and exemplary sealing/stopping structure asinner sheath threads 117, and an optional stopping structure as differing diameter sizes d1, d2 ofsheath cavity 113. -
FIG. 6 d illustrates anexemplary applicator 140 with an optional and exemplary sealing/stopping structure asapplicator threads 145 and another optional and exemplary sealing/stoppingstructure applicator abutments 146. -
FIG. 7 illustrates exemplary method steps of using a biological testing device having a sheath, a collector, and a handle. -
FIG. 8 illustrates exemplary method steps of using a biological testing device having a sheath, an applicator, a collector, and a handle. -
FIG. 9 illustrates exemplary method steps of preparing a biological sample from biological material collected by a biological sampling device having a sheath, a collector with the collected biological material, and a handle fixed to the collector. -
FIG. 10 illustrates exemplary method steps of preparing a biological sample from biological material collected by a biological sampling device having a sheath, an applicator, a collector with the collected biological material, and a handle fixed to the collector. -
FIG. 11 illustrates exemplary method steps of testing a biological sample obtained from a biological sampling device having a sheath, a collector with collected biological material, and a handle fixed to the collector. -
FIG. 12 illustrates exemplary method steps of testing a biological sample obtained from a biological sampling device having a sheath, an applicator, a collector with collected biological material, and a handle fixed to the collector. -
FIG. 13 illustrates an exemplarybiological testing device 100 inserted into avaginal canal 202 of an organism with acollector 120 being in an exemplary secured position. -
FIG. 14 illustrates an exemplarybiological testing device 100 inserted into avaginal canal 202 of an organism with acollector 120 being in an exemplary sampling position. - The invention will now be described in more detail by way of example with reference to the embodiments shown in the accompanying figures. It should be kept in mind that the following described embodiments are only presented by way of example and should not be construed as limiting the inventive concept to any particular physical configuration, material, or order.
- Further, it is important to note that this disclosure includes a plurality of elements and/or aspects, and such elements and/or aspects need not be interpreted as necessarily being conjunctively required by one or more embodiments of the present invention. Rather, all combinations of the one or more elements and/or aspects are intended to potentially enable a separate embodiment of the present invention, which are free to be claimed with particularity in this or one or more future filed applications. Moreover, any particular materials, structures, and/or sizes disclosed, expressly or implicitly, herein are to be construed strictly as illustrative and enabling. Therefore, it is expressly set forth that such materials, structures, and/or sizes independently or in any combination of one of more thereof, are merely illustratively representative of one or more embodiments and/or aspects of the present invention and are not to be construed as necessary in a strict sense.
- Further, to the extent the same element or aspect is defined differently anywhere within this disclosure, the broader definition is to take absolute precedence, with the distinctions encompassed by the narrower definition to be strictly construed as optional.
- The present invention can be embodied in a biological sampling device for collecting biological material from within an organism, and related methods of using such a device and of testing of such material collected by such a device.
- Further, the present invention can be utilized on any organism having an orifice, and moreover, the present invention can be utilized by any type of human, such as a non-medically trained individual, a medically trained individual, a doctor, a medical specialist, a nurse, a scientist, a technician, a layperson, and/or a person undergoing biological sampling via the present invention.
- Notably, the present invention can be provided in different sizes, including overall width, height, length, and/or diameter, which can be based on the particular application of the present invention. Moreover, the present invention can be utilized to sample biological matter through any available orifice of an organism.
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FIG. 1 illustrates an exploded view of an exemplary embodiment of the present invention, in which abiological sampling device 100 can include asheath 110, acollector 120, and ahandle 130. - In an exemplary aspect of the present invention,
sheath 110 can have afirst sheath end 111, asecond sheath end 112, and asheath cavity 113 that can extend between the first and second sheath ends. In another exemplary aspect of the present invention,collector 120 can have an abrasiveouter surface area 121 that can contact and collect biological material from an internal portion of an organism. In a further exemplary aspect of the present invention, handle 130, can be configured to extend throughsheath cavity 113, and can have afirst handle end 131 fixed tocollector 120 and asecond handle end 132 that can extend fromsecond sheath end 112 when the handle is so disposed within the sheath cavity. -
FIGS. 2 a and 2 b illustrate exemplary embodiments of the present invention when assembled.FIG. 2 a illustrates asecured position 123 ofcollector 120, in which the collector can be disposed withinsheath 110.FIG. 2 b illustrates asampling position 124 ofcollector 120, in which the collector can extend outside of, and from,sheath 110. Further,collector 120 can be transitioned between secured and sampling positions viahandle 130, with such transitioning being further described herein. - In general operation of the present invention, a
biological sampling device 100 can be inserted into an orifice of a target organism (not shown), andcollector 120 can be transitioned from a secured position to a sampling position.Collector 120 can be moved viahandle 130 so as to abrasively contact an internal portion of the organism and collect biological material therefrom and/or adjacent thereto.Collector 120 can then be transitioned back to a secured position, such that the collector, along with collected biological material, can then be removed from the orifice. - As illustrated in
FIG. 1 ,sheath 110 can be cylindrically shaped. However,sheath 110 can be provided in any desired shape that is functionally compatible with the present invention. Further,sheath 110 can be provided as a combination of multiple shapes, and moreover, need not be uniformly or symmetrically shaped. For example and not in limitation,sheath 110 can be provided in any combination of the following shapes, in whole or in part: cuboid, cylinder, pyramid, cube, sphere, cone, prism, cuboid, and/or any variations thereof, including symmetrical and/or asymmetrical variations thereof. Further,first sheath end 111 can optionally be provided with a rounded and/or a tapered terminal portion to facilitate an insertion ofsheath 110 into an orifice of an organism. Also optionally,first sheath end 111 can be petalled so as to have at least one petal 144 (as illustratively shown inFIG. 4 with respect to first applicator end 141), which can assist in an insertion ofsheath 110 into an orifice while allowingcollector 120 to transition therethrough. Moreover, sheath 110 (andoptionally applicator 140, see infra) can be provided in any desired material or materials that provide an overall rigidity that allows, insertion of the sheath into an orifice of an organism, and to the extent desired, deformation of a collector, as further described herein. For example and not in limitation,sheath 110 can be provided in any one or more of the following materials: plastic, metal, ceramic, wood, paper, cardboard, any known or apparent variations thereof, or any other material that is functionally compatible with the present invention. Further, in another exemplary aspect,sheath 110 can be provided with a smooth exterior surface to minimize friction between the exterior surface and internal portions of the organism. - In another exemplary aspect of the present invention, abrasive
outer surface area 121 ofcollector 120 can be sufficiently abrasive such that its movement (e.g., linear motion, vibration, rotation, etc.) against an internal portion of an organism causes theouter surface area 121 to physically contact biological material from, on, or adjacent to the internal portion, and to collect the biological material via a static force, absorption, adhesion, and/or any other desired, foreseeable, or apparent means. Notably, biological matter can be near the internal portion and nonetheless collected. Further, according to the present invention, biological material can include one or more of a cell, a virus, a bacterium, a microorganism, DNA, RNA, or any other type of biological material including a remnant, portion, or byproduct of any of the aforementioned. - According to the present invention,
collector 120 can be provided with a symmetric or asymmetric shape when in either a secured or sampling position. As illustrated inFIG. 2 a, when insecured position 123,collector 120 can be deformed to have a height, width, and/or diameter that is smaller than that of sheath 110 (or an applicator, as described infra). And as illustrated inFIG. 2 b, when in asampling position 124,outer surface 121 can extend beyond the height, width, and/or diameter ofsheath 110. Notably,collector 120 can be formed from any suitable material or materials, which will be apparent to one of ordinary skill in the art given this disclosure. For example, any known or apparent material utilized in obtaining biological samples from within organisms, including but not limited to those suitable for obtaining biological samples for Pap Tests. - In another exemplary aspect of the present invention, changes in the position of
outer surface 121 between states can be effectuated by any functionally compatible selection of one or more materials and/or structures of whichcollector 120 and/or handle 130 is formed. Accordingly,collector 120 can be biased in any mechanic and/or material manner functionally consistent with the present invention. - For example and not in limitation,
collector 120 can include a plurality of bristles, a broom, a segment of material, and/or a spatula; and/or can be formed of an elastic material, such as a sponge or a foam material, with the outer portions thereof beingouter surface area 121. As illustrated inFIG. 3 ,collector 120 can include a plurality ofbristles 122, the terminal portions of which can formouter surface area 121. - In another exemplary aspect, as illustrated in
FIG. 3 ,collector 120 can include a plurality ofbristles 122 that can be materially biased to extend in a linear direction, and mechanically biased to extend outwardly fromhandle 130 via fixation tofirst handle end 131. In a further exemplary aspect, bristles 122 can be fixed directly tofirst handle end 131, or fixed thereto via a ferrule or other type of functionally compatible bristle holder. In another exemplary aspect, when in, or transitioned into, a secured position,collector 120 can deform in shape and/or size to fit within sheath cavity 113 (and/or within an applicator cavity, as described infra). Conjunctively or alternatively, as illustrated inFIG. 3 , bias ofcollector 120 can be achieved via a handle end that is materially and/or mechanically biased towards a non-linear angle, and materially and/or mechanically deformable towards a linear angle that is coaxial with a sheath, such that a collector can be in or transitioned to a secured state within a sheath cavity (and/or within an applicator cavity, as described infra). For example, and not in limitation,first handle end 131 can be formed of an elastic material, such as a metal or plastic, for example and not in limitation, and/or can include a spring or elastic material to effectuate such bias and deformability, for example and not in limitation. Alternatively or conjunctively,collector 120 need not be biased, but rather can be angled with alinear handle 130 so as to reach beyond a height, width, and/or circumference ofsheath 110 by angling the handle so as not to be co-axial with the sheath (or applicator, as described infra). - In another exemplary aspect, handle 130 can extend through
sheath cavity 113, withfirst handle end 131 being fixed tocollector 120 andsecond handle end 132 extending fromsecond sheath end 112. In an exemplary aspect, handle 130 can be provided in a linear shape, such as a rod, for example and not in limitation; however, handle 130 can alternatively be provided in any other shape, whether symmetric or asymmetric, as long as the resulting handle is functionally compatible with the present invention. In an additional exemplary aspect, handle 130 can be formed of any suitable material or materials that provide sufficient overall rigidity and strength to allow pushing, pulling, and positional maintenance ofcollector 130 between or in a secured and/or sampling state, and to allow rotation or movement of a collector when in a sampling state. Notably, in any embodiment of the present invention, pushing and/or pulling ofhandle 130 can include rotating the handle, such as where the handle is configured to rotate through a threaded guide, such as threads for example and not in limitation, which can provide liner motion through rotation of the handle. In yet a further exemplary aspect, handle 130 can include a motor adapter (not shown) configured to connect to a motor (not shown), such that motorized energy (e.g., one or more of rotation, vibration, pushing, and pulling) can be transferred from the motor tocollector 120 viahandle 130. - Notably, handle 130 can optionally be configured to disengage from collector 120 (such as, for example and not in limitation, rotational disengagement from a threaded receiver) or can be cut, broken, or otherwise shortened.
-
FIG. 4 illustrates an exploded view of another exemplary embodiment of the present invention, in which abiological sampling device 100 can further include, in addition to asheath 110, acollector 120, and ahandle 130, and anapplicator 140. In an exemplary aspect of the present invention,applicator 140 can have afirst applicator end 141, asecond applicator end 142, and anapplicator cavity 143 that can extend between the first and second applicator ends. As illustrated,applicator 140 can be configured to extend throughsheath cavity 113, and handle 130 can be configured to extend throughapplicator cavity 143. In an exemplary aspect of the present invention,sheath 110 andapplicator 140 can be complementarily configured such that the applicator can slidably fit withinsheath cavity 113, withcollector 120 and handle 130 cooperatively operating as described herein, but additionally, respectively within and throughapplicator cavity 143. - As illustrated in
FIG. 4 ,applicator 140 can be cylindrically shaped. However,applicator 140 can be provided in any desired shape that is functionally compatible with the present invention. Further,applicator 140 can be provided as a combination of multiple shapes, and moreover, need not be uniformly or symmetrically shaped. For example and not in limitation,applicator 140 can be provided in any combination of the following shapes, in whole or in part: cuboid, cylinder, pyramid, cube, sphere, cone, prism, cuboid, and/or any variations thereof, including symmetrical and/or asymmetrical variations thereof. Further,first applicator end 141 can optionally be provided with a rounded and/or a tapered terminal portion to facilitate an insertion ofapplicator 140 into an orifice of an organism. Also optionally,first applicator end 141 can be petalled so as to have at least onepetal 144. Moreover,applicator 140 can be provided in any desired material or materials that provide an overall rigidity that allows, insertion of the applicator into an orifice of an organism, and to the extent desired, deformation ofcollector 120. For example and not in limitation,applicator 140 can be provided in any one or more of the following materials: plastic, metal, ceramic, wood, paper, cardboard, any known or apparent variations thereof, or any other material that is functionally compatible with the present invention. - In an exemplary aspect of the present invention, the transitioning (and returning) of
collector 120 between states can be effectuated by pushing or pullinghandle 130 withsheath 110 and/orapplicator 140 being in either a static position or a counter motion relative to the pushing or pulling; and/or by retracting or further insertingsheath 110 and/orapplicator 140 withcollector 120 being in either a static position or a counter motion relative to the retracting or further inserting. Further, motion ofcollector 120 while in the sampling position can be effectuated by one or more of the following: linear motion of the collector; motion of the collector to and from the sampling position; vibratory motion of the collector; and rotational movement of the collector. -
FIGS. 5 a-5 d illustrate additional exemplary embodiments of the present invention when assembled. -
FIG. 5 a illustrates a preliminary configuration ofsampling device 100, in which handle 130 can be positioned withinapplicator cavity 143, andapplicator 140 can be positioned withinsheath cavity 113. Notably, as further discussed infra,FIG. 5 a additionally illustrates optionalinner sheath threads 114 and cap 115 a havingcap threads 115 b, which when cooperatively engaged can provide a seal before and/or after a biological sample is obtained. -
FIG. 5 b illustrates another preliminary configuration ofsampling device 100. As illustrated, prior to deployment,collector 120 can be in asecured position 123, in the collector can be positioned within at least one ofsheath 110 andapplicator 140. As further illustrated, optionally,first applicator end 141 can extend fromfirst sheath end 111. -
FIG. 5 c illustrates another exemplary embodiment ofsample device 100, in whichcollector 120 has been transitioned from asecured position 123 to asampling position 124, in which the collector is positioned outside ofsheath 110 andapplicator 140. -
FIG. 5 d illustrates another exemplary embodiment ofsample device 100, in whichcollector 120 has been transitioned from asampling position 123 to asecured position 124, withcap 115 a engaged withsheath 110 via engagement betweensheath threads 114 andcap threads 115 b. Notably,secured position 123 is illustratively shown ascollector 120 being positioned withinsheath 110 andoutside applicator 140. However, it is expressly contemplated thatsecured position 123 can includecollector 120 being within at least one ofsheath 110 andapplicator 140. -
FIGS. 5 a-5 d further illustrateoptional sheath handle 116, which can assist in the movement and/or positional maintenance ofsheath 110 in usingsampling device 100; as well assecond handle end 132 having a textured outer surface to facilitate manual manipulation thereof. - In additional exemplary embodiments of the present invention, a biological sampling device can optionally include one or more sealing and/or stopping structures at any end of any element of the present invention and/or between any two elements of the present invention. In exemplary aspects of the present invention, a sealing structure can provide a gas and/or liquid-tight seal for retaining and/or excluding a gas and/or liquid; whilst a stopping structure can limit and/or define relative movement between one or more elements of the present invention.
- According to the present invention, an exemplary sealing structure can include one or more of an open or closed thread, a cap, a groove, a collar, a gasket, a shoulder, a protrusion, or any other functionally compatible structure or structures that can provide a sealing function. Further, a sealing structure can be provided at one or more of a
first sheath end 111, asecond sheath end 112, afirst applicator end 141, asecond applicator end 142, and afirst handle end 131, and asecond handle end 132, and/or between any two of asheath 110, acollector 120, ahandle 130, and anapplicator 140; and thus, can assist in preserving collected biological matter, which can prevent contaminants from entering between seals and/or hold a preserving liquid between seals, for example and not in limitation. -
FIGS. 5 a and 5 d illustrate an optional sealing structure assheath end threads 114 atfirst sheath end 111 and cap 115 a havingcap threads 115 b, which are additionally illustrated in detailed perspective ofFIG. 6 b. When such threads are engaged together, a desired seal at the first sheath end can be achieved. It should be noted that the present invention contemplates one or more threads being positioned on the inside or outside of any element. Also notably, any end can optionally include an annular groove or collar located on the outside or inside of the end, and a cap can be complementarily configured with a respective collar or groove to sealably engage such groove or collar. Further, a cap and/or an end can include one or more gaskets, such as o-rings, to facilitate a seal. - In another exemplary aspect of the invention, one or more sealing structures can be provided between any two elements of the present invention.
FIGS. 5 a and 5 d further illustrate another optional sealing structure asinner sheath threads 117 andapplicator threads 145, which are additionally illustrated in detailed perspectives ofFIGS. 6 c and 6 d. When such threads are engaged together, a desired seal betweensheath 110 andapplicator 140 can be achieved. Notably, when such a seal is effectuated in conjunction with a second seal, such as, for example and not in limitation, viafirst sheath end 111 and acap 115 a, a sealedcompartment enclosing collector 120 can be formed. Also notably, such a sealed compartment can be formed betweensheath 110 and handle 130, wherehandle 130 includes handle threads (not shown). - In another exemplary aspect of the present invention, one or more complementary threads can be open, in which case two elements can relatively rotate through each other, or closed, in which case two elements cannot relatively rotate through each other.
- In a further exemplary aspect, the inside of a sheath and the outside of an applicator can include a first groove or collar, and the other of the inside of a sheath and the outside of an applicator can include a complementarily configured collar or groove to sealably engage the other groove or collar. Notably, plural collars can be provided in conjunction with threads to enhance a seal. Also optionally, the inside of a sheath and/or the outside of an applicator can include one or more gaskets, such as o-rings, to facilitate a seal.
- In another exemplary aspect, the present invention can optionally include one or more stopping structures. Notably, a sealing structure can be strategically positioned to provide such a stopping function, such that movement of elements of the present invention can be limited or prevented in at least one direction before or after sampling. Accordingly, relative movement of two or more elements of the present invention can be strategically defined before and/or during sampling; such as, for example and not in limitation, defining a maximum and/or minimum distance a
collector 120 can extend out fromsheath 110 and/orapplicator 140, defining the maximum and/or minimum distance a collector can move within a sheath and/or collector; limiting how many times a collector can rotate when in a sample position; and/or defining any other limit or range of relative motion of two or more elements of the present invention. Thus, a sealing structure can be provided between any two elements of the present invention for sealing and/or stopping functionality. Moreover, a sealing structure can be provided at any point between, and including, ends of any two elements of the present invention. Further, the present invention is not to be construed as requiring any of the specific sealing and/or stopping structures described herein, and is to be construed as including any known or apparent structure or structures that are functionally compatible with the present invention. - For example and not in limitation,
FIG. 4 illustrates an optional stopping structure assheath end threads 114 andapplicator threads 145, which can limit relative movement betweensheath 110 andapplicator 140 when such threads abut each other and when engaged.FIGS. 6 c and 6 d illustrate a first optional stopping structure asinner sheath threads 117 andapplicator threads 145, which can limit relative movement betweensheath 110 andapplicator 140 as above; and a second optional stopping structure as a decreased diameter ofsheath 110 from d1 to d2, such thatsheath 110 at d2 can form an abutment forapplicator 140 or handle 130 having an diameter dh, where d1>dh>d2. Further,FIG. 6 d illustrates at least one applicatorinner abutment 146, which can limit relative movement of a complementarilysized handle 130. - Also notably, a sealing structure can be permanent between elements of the present invention that need not move, such as between a handle and a collector. Thus, for example, a sealing structure in this regard can include complementarily configured threads; a molded, glued, or clamped bond therebetween; and/or any other permanent sealing and/or fixation structure or structures.
- In another exemplary aspect, sealing and/or stopping functionally between elements of the present invention can be alternatively or conjunctively be effectuated via the shapes of elements or portions thereof. For example and not in limitation, a
sheath cavity 113 can be provided with a shape that includes a smaller sized diameter (or size) and a larger sized diameter (or size); and anapplicator 140 or a handle 130 (or portion thereof) can be provided with a shape having a first diameter (or size) that is less than the sheath cavity's smaller size and a second diameter (or size) that is greater than the sheath cavity's smaller size. Accordingly, when disposed withinsheath cavity 113,applicator 140 or handle 130 can move relative thereto until its larger size meets the sheath cavity's smaller size, with such meeting defining a stopping structure. Further, such meeting portions can be complementarily tapered, for example and not in limitation, to further provide a sealing structure. Accordingly, any two or more adjacent elements of the present invention can be provided with complementary shapes to provide a stopping and/or a sealing structure when particularly positioned. Notably, the present invention contemplates that a stopping structure can include an annular collar, a shoulder, a ridge, and/or a protrusion configured to limit movement of elements in one or more directions, as long as the same does not render the present invention functionally unusable in all manners described herein. In a further exemplary aspect, one or more gaskets can be provided between stopping structures to facilitate a sealing function. - In yet another exemplary aspect of the present invention,
sheath 110, handle 130, and/orapplicator 140 can be provided with an extension element at respective second ends thereof, so as to facilitate manual manipulation of one or more thereof. For example, as illustrated inFIG. 4 , sheath handle 116 can act as an abutment so as to limit the depth in whichsheath 110 can be inserted into an organism. Further, an extension element can limit the relative motion between two or more elements of the invention, and/or provide an element handle or grip to facilitate manual manipulation of the invention, which can include any combination of pulling, pushing, rotating, moving, holding in a static position, inserting, and/or removing. In a further exemplary aspect, one or more of a sheath extension, an applicator extension, and/or a handle extension can be configured to abut and/or to lock together with another of a sheath extension, an applicator extension, and a handle extension to limit relative motion thereof in at least one direction. For example and not in limitation, such an abutment and/or locking function can provide a stopping and/or sealing function. - The present invention can also be embodied in methods of using, and of preparing a biological sample from, any biological sampling device enabled herein. Further, the present invention can be embodied in a method of testing a biological sample prepared any biological sampling device enabled herein.
-
FIG. 7 illustrates an exemplary method of using a biological sampling device having a sheath, a collector, and a handle fixed to the collector to collect a biological sample. According to the present invention, such a method can include the following steps: -
- inserting the sheath into an orifice of an organism (block 701);
- transitioning the collector from a secured position to a sampling position, such that the collector is positioned outside of the sheath (block 702);
- via the handle, moving the collector while in the sampling position, such that an outer surface of the collector abrasively moves against an internal portion of the organism to physically contact and collect biological material (block 703); returning the collector from the sampling position to the secured position (block 704); and
- removing the collector from the orifice of the organism (block 705).
- In an exemplary aspect of the invention, optionally, during the insertion step (block 701) and/or the removal step (block 705), the collector can be maintained in the secured position (i.e., within the sheath cavity) to reduce the risk of contaminants being collected by the collector.
- In additional exemplary aspects, the collector can be inserted into the sheath after the sheath is inserted into an orifice, and/or the collector can be withdrawn from the sheath (and an orifice) while the sheath is still inserted in the orifice. Such an insertion and/or withdrawal can also reduce the risk of contaminants being collected by collector.
-
FIG. 8 illustrates an exemplary method of using a biological sampling device having a sheath, a collector, a handle fixed to the collector, and an applicator to collect a biological sample. According to the present invention, such a method can include the following steps: -
- inserting the sheath into an orifice of an organism (block 801);
- transitioning the collector from a secured position to a sampling position, such that the collector is positioned outside of the sheath and the applicator (block 802);
- via the handle, moving the collector while in the sampling position, such that an outer surface of the collector abrasively moves against an internal portion of the organism to physically contact and collect biological material (block 803);
- returning the collector from the sampling position to the secured position such that the collector is positioned within at least one of the sheath and the applicator (block 804); and
- removing the collector with the collected biological material from the orifice of the organism (block 805).
- In an exemplary aspect of the invention, optionally, during the insertion step (block 801) and/or the removal step (block 805), the collector can be maintained in the secured position to reduce the risk of contaminants being collected by the collector.
- In additional exemplary aspects, the collector can be inserted into the sheath and/or the applicator after the sheath is inserted into an orifice, and/or the collector can be withdrawn from the sheath and/or the applicator while the sheath and/or applicator is still inserted in the orifice. Such an insertion and/or withdrawal can also reduce the risk of contaminants being collected by collector.
- Notably, for clarity, with any embodiment of a
device 100 enabled herein, a collector can be positioned inside a sheath and/or an applicator when or after the sheath and/or applicator is inserted into an orifice of an organism; a collector can be adapted to remain within a sheath and/or an applicator when the collector is withdrawn from an orifice of an organism; and a collector can be configured to be withdrawn from an orifice of an organism while a sheath and/or an applicator remains inserted in an orifice of an organism. -
FIG. 9 illustrates an exemplary method of preparing a biological sample from biological material collected by a biological sampling device having a sheath, a collector with the collected biological material, and a handle fixed to the collector. According to the present invention, such a method can include the following steps: -
- moving a material against the collector to transfer at least a portion of the collected biological matter to the material (block 901); and
- after the step of moving, providing the material as the biological sample (block 902).
-
FIG. 10 illustrates an exemplary method of preparing a biological sample from biological material collected by a biological sampling device having a sheath, an applicator, a collector with the collected biological material, and a handle fixed to the collector. According to the present invention, such a method can include the following steps: -
- moving a material against the collector to transfer at least a portion of the collected biological matter to the material (block 1001); and
- after the step of moving, providing the material as the biological sample (block 1002).
- In an exemplary aspect of the present invention, with any method of preparing a biological sample, the material can include a liquid or a solid. In another exemplary aspect of the present invention, optionally, any method of preparing a biological sample can further include a step of introducing a liquid to the material to provide a visual indication of a logical state, such as the presence or absence of one or more particular biological states or identities, for example and not in limitation.
-
FIG. 11 illustrates an exemplary method of testing a biological sample obtained from a biological sampling device having a sheath, a collector with collected biological material, and a handle fixed to the collector. According to the present invention, such a method can include the following steps: -
- applying at least one testing protocol to the biological sample (block 1101); and
- deriving a testing result from the at least one protocol (block 1102).
-
FIG. 12 illustrates an exemplary method of testing a biological sample obtained from a biological sampling device having a sheath, an applicator, a collector with collected biological material, and a handle fixed to the collector. According to the present invention, such a method can include the following steps: -
- applying at least one testing protocol to the biological sample (block 1101); and
- deriving a testing result from the at least one protocol (block 1102).
- In an exemplary aspect of the present invention, a testing protocol can include any known or apparent medical, including future-developed, testing protocol that is functionally consistent with the present invention. For example and not in limitation, such a testing protocol can be associated with a Papanicolaou Test.
- It should also be noted that with any embodiment of the present invention, a
sampling device 100 can be inserted into an orifice of an organism to varying depths so as to strategically deploycollector 120 at an optimal position within the organism, and therefore, can be provided in varying lengths. For example, and not in limitation, asampling device 100 can be inserted to a particular depth so as to deploy a collector to collect cells at a known area of concern. For example and not in limitation, as illustrated inFIGS. 13 and 14 , asampling device 100 can be inserted through a humanvaginal opening 201 and into avaginal canal 202 until a first applicator end 141 (and/or a first sheath end 111) abuts the end of the vaginal canal, such that acollector 120 can be optimally deployed where acervix 203 is located. - Also notably, in any embodiment of the present invention, the overall width, height, and/or circumference of a
sampling device 100 can vary in light of the size of a target orifice. In another exemplary aspect, the overall width, height, and/or circumference of asampling device 100 can be minimized to reduce discomfort to an organism when the device is inserted through an orifice. - It should be noted that this disclosure includes a plurality of elements and/or aspects, and such elements and/or aspects need not necessarily be interpreted as being conjunctively required by one or more embodiments of the present invention. Rather, all combinations of the one or more elements and/or aspects may enable a separate embodiment of the present invention, which may be claimed with particularity in this or any other future filed patent application. Moreover, any particular material, structure, and/or size disclosed herein are to be construed strictly as illustrative and enabling, and not necessarily limiting. Therefore, it is expressly set forth that such materials, structures, and/or sizes independently, or in any combination of one of more thereof, are merely illustratively representative of one or more embodiments of the present invention and are not to be construed as necessary in a strict sense.
- Further, to the extent the same aspect, element, or limitation is defined differently anywhere within this disclosure, the broader definition is to attach, with the distinctions encompassed by the narrower definition to be strictly construed as optional.
- It will be apparent to one of ordinary skill in the art that the manner of making and using the present invention has been adequately disclosed in the above-written description of the exemplary embodiments, elements, and aspects, independently and in combination with the illustrative drawings attached hereto.
- It should be understood, however, that the invention is not necessarily limited to the specific embodiments, aspects, arrangement, and components shown and described above, but may be susceptible to numerous variations within the scope of the invention. Accordingly, the specification and drawings are to be regarded in an illustrative and enabling, rather than a restrictive, sense.
- Therefore, it will be understood that the above description of the embodiments of the present invention are susceptible to various modifications, changes, and adaptations, and the same are intended to be comprehended within the meaning and range of equivalents of the respectively described embodiments, elements, aspects, and steps.
Claims (52)
1. A biological sampling device for collecting biological material from within an organism, comprising:
a sheath having a first sheath end, a second sheath end, and a sheath cavity that extends between the first and second sheath ends;
a collector, having an abrasive outer surface area, and being configured to transition between a secured position, in which said collector is positioned within the sheath cavity, and a sampling position, in which said collector is positioned outside of the sheath cavity; and
a handle, having a first handle end and a second handle end, and extending through the sheath cavity with the first handle end being fixed to said collector and the second handle end extending from the second sheath end;
wherein when the first sheath end is inserted into the organism through an orifice of the organism, said handle and said sheath are configured to transition said collector from the secured position to the sampling position, said handle is configured to move said collector when in the sampling position, such that the outer surface area collects the biological material by abrasively contacting an internal portion of the organism, and said handle and said sheath are configured to transition said collector from the sampling position to the secured position.
2. The device of claim 1 , wherein said sheath has a continuous exterior sheath surface.
3. The device of claim 1 , wherein at least a portion of said sheath is cylindrically shaped.
4. The device of claim 1 , wherein said sheath is provided as a combination of multiple shapes.
5. The device of claim 1 , wherein said sheath is formed, at least in part, from a plastic.
6. The device of claim 1 , wherein the first sheath end is tapered.
7. The device of claim 1 , wherein the first sheath end is rounded.
8. The device of claim 1 , wherein the first sheath end includes at least one petal.
9. The device of claim 1 , wherein the first sheath end includes a plurality of petals.
10. The device of claim 1 , wherein at least a portion of the sheath cavity is cylindrical.
11. The device of claim 1 , wherein at least a portion of the sheath cavity is coaxial with said sheath.
12. The device of claim 1 , wherein the sheath cavity has a non-uniform shape.
13. The device of claim 1 , wherein said collector is symmetric around at least one axis when said collector is in at least one of the sampling position and the secured position.
14. The device of claim 1 , wherein said collector is asymmetric around at least one axis when in at least one of the sampling position and the secured position.
15. The device of claim 1 , wherein said collector includes a plurality of bristles.
16. The device of claim 1 , wherein said collector deforms when in the secured position.
17. A biological sampling device for collecting biological material from within an organism, comprising:
a sheath having a first sheath end, a second sheath end, and a sheath cavity that extends between the first and second sheath ends;
an applicator having a first applicator end, a second applicator end, and an applicator cavity that extends between the first and second applicator ends, said applicator being disposed within the sheath cavity;
a collector, having an abrasive outer surface area, and being configured to transition between a secured position, in which said collector is positioned within at least one of the sheath cavity and applicator cavity, and a sampling position, in which said collector is positioned outside of the sheath and applicator cavities; and
a handle, having a first handle end and a second handle end, and extending through the sheath and applicator cavities with the first handle end being fixed to said collector and the second handle end extending from the second sheath and second applicator ends;
wherein when at least one of the first sheath end and the first applicator end is inserted into the organism through an orifice of the organism and said collector is in the secured position, at least two of said handle, said sheath, and said applicator are configured to transition said collector from the secured position to the sampling position, said handle is configured to move said collector when in the sampling position, such that the outer surface area collects the biological material by abrasively contacting an internal portion of the organism, and a plurality of said handle, said sheath, and said applicator are configured to transition said collector from the sampling position to the secured position.
18. The device of claim 17 , wherein said sheath has a continuous exterior sheath surface.
19. The device of claim 17 , wherein the second applicator end extends from the second sheath end.
20. The device of claim 17 , wherein at least a portion of said sheath and said applicator are cylindrically shaped.
21. The device of claim 17 , wherein at least one of said sheath and said applicator is provided as a combination of multiple shapes.
22. The device of claim 17 , wherein at least one of said sheath and said applicator is formed, at least in part, from a plastic.
23. The device of claim 17 , wherein at least one of the first sheath end and the first applicator end is tapered.
24. The device of claim 17 , wherein at least one of the first sheath end and the first applicator end is rounded.
25. The device of claim 17 , wherein at least one of the first sheath end and the first applicator end includes at least one petal.
26. The device of claim 17 , wherein at least one of the first sheath end and the first applicator end includes a plurality of petals.
27. The device of claim 17 , wherein at least a portion of at least one of the sheath cavity and the applicator cavity is cylindrical.
28. The device of claim 17 , wherein at least a portion of the sheath cavity is coaxial with said sheath.
29. The device of claim 17 , wherein at least a portion of the applicator cavity is coaxial with said applicator.
30. The device of claim 17 , wherein at least one of the sheath cavity and the applicator cavity has a non-uniform shape.
31. The device of claim 17 , wherein said collector is symmetric around at least one axis when said collector is in at least one of the sampling position and the secured position.
32. The device of claim 17 , wherein said collector is asymmetric around at least one axis when said collector is in at least one of the sampling position and the secured position.
33. The device of claim 17 , wherein said collector includes a plurality of bristles.
34. The device of claim 17 , wherein said collector deforms when in the secured position.
35. A method of using a biological sampling device comprising a sheath having a first sheath end, a second sheath end, and a sheath cavity that extends between the first and second sheath ends, a collector, having an abrasive outer surface area, and being configured to transition between a secured position, in which the collector is positioned within the sheath cavity, and a sampling position, in which the collector is positioned outside of the sheath cavity, and a handle, having a first handle end and a second handle end, and extending through the sheath cavity with the first handle end being fixed to the collector and the second handle end extending from the second sheath end, said method comprising:
inserting the sheath into an orifice of an organism;
transitioning the collector from the secured position to the sampling position, such that the collector is positioned outside of the sheath;
via the handle, moving the collector while in the sampling position, such that an outer surface of the collector abrasively moves against an internal portion of the organism to physically contact and collect biological material;
returning the collector to the secured position; and
removing the collector with the collected biological material from the orifice of the organism.
36. The method of claim 35 , further comprising: after said inserting and before said transitioning, introducing the collector into the sheath.
37. The method of claim 35 , further comprising: after said removing, withdrawing the sheath from the orifice of the organism.
38. The method of claim 35 , wherein said removing includes removing the sheath.
39. A method of using a biological sampling device comprising a sheath having a first sheath end, a second sheath end, and a sheath cavity that extends between the first and second sheath ends, an applicator having a first applicator end, a second applicator end, and an applicator cavity that extends between the first and second applicator ends, the applicator being disposed within the sheath cavity, a collector, having an abrasive outer surface area, and being configured to transition between a secured position, in which the collector is positioned within at least one of the sheath cavity and applicator cavity, and a sampling position, in which said collector is positioned outside of the sheath and applicator cavities, and a handle, having a first handle end and a second handle end, and extending through the sheath and applicator cavities with the first handle end being fixed to the collector and the second handle end extending from the second sheath and second applicator ends, said method comprising:
inserting the sheath into an orifice of an organism;
transitioning the collector from the secured position to the sampling position, such that the collector is positioned outside of the sheath and the applicator;
via the handle, moving the collector while in the sampling position, such that an outer surface of the collector abrasively moves against an internal portion of the organism to physically contact and collect biological material;
returning the collector to the secured position, such that the collector is positioned within at least one of the sheath and the applicator; and
removing the collector with the collected biological material from the orifice of the organism.
40. The method of claim 39 , further comprising: after said inserting and before said transitioning, introducing the collector into the sheath.
41. The method of claim 39 , further comprising: after said removing, withdrawing at least one of the sheath and the applicator from the orifice of the organism.
42. The method of claim 39 , wherein said removing includes removing at least one of the sheath and the applicator.
43. A method of preparing a biological sample from biological material collected by a biological sampling device comprising a sheath having a first sheath end, a second sheath end, and a sheath cavity that extends between the first and second sheath ends, an applicator having a first applicator end, a second applicator end, and an applicator cavity that extends between the first and second applicator ends, the applicator being disposed within the sheath cavity, a collector, having an abrasive outer surface area and collected biological material, and being configured to transition between a secured position, in which the collector is positioned within at least one of the sheath cavity and applicator cavity, and a sampling position, in which said collector is positioned outside of the sheath and applicator cavities, and a handle, having a first handle end and a second handle end, and extending through the sheath and applicator cavities with the first handle end being fixed to the collector and the second handle end extending from the second sheath and second applicator ends, said method comprising:
moving a transfer material against the collector to transfer at least a portion of the collected biological material to the transfer material; and
after said moving, providing the transfer material and the at least a portion of the collected biological material as the biological sample.
44. The method of claim 43 , wherein the transfer material includes is at least one of a liquid or a solid.
45. The method of claim 43 , wherein the transfer material includes a liquid, solid, or gas.
46. A method of preparing a biological sample from biological material collected by a biological sampling device comprising a sheath having a first sheath end, a second sheath end, and a sheath cavity that extends between the first and second sheath ends, an applicator having a first applicator end, a second applicator end, and an applicator cavity that extends between the first and second applicator ends, the applicator being disposed within the sheath cavity, a collector, having an abrasive outer surface area and collected biological material, and being configured to transition between a secured position, in which the collector is positioned within at least one of the sheath cavity and applicator cavity, and a sampling position, in which said collector is positioned outside of the sheath and applicator cavities, and a handle, having a first handle end and a second handle end, and extending through the sheath and applicator cavities with the first handle end being fixed to the collector and the second handle end extending from the second sheath and second applicator ends, said method comprising:
moving a transfer material against the collector to transfer at least a portion of the collected biological material to the transfer material; and
after said moving, providing the transfer material and the at least a portion of the collected biological material as the biological sample.
47. The method of claim 46 , wherein the transfer material includes a liquid or a solid.
48. The method of claim 46 , wherein the transfer material includes a liquid, solid, or gas.
49. A method of testing a biological sample obtained from a biological sampling device comprising a sheath having a first sheath end, a second sheath end, and a sheath cavity that extends between the first and second sheath ends, an applicator having a first applicator end, a second applicator end, and an applicator cavity that extends between the first and second applicator ends, the applicator being disposed within the sheath cavity, a collector, having an abrasive outer surface area and collected biological material, and being configured to transition between a secured position, in which the collector is positioned within at least one of the sheath cavity and applicator cavity, and a sampling position, in which said collector is positioned outside of the sheath and applicator cavities, and a handle, having a first handle end and a second handle end, and extending through the sheath and applicator cavities with the first handle end being fixed to the collector and the second handle end extending from the second sheath and second applicator ends, said method comprising:
applying at least one testing protocol to the biological sample; and
deriving a testing result from the at least one protocol.
50. The method of claim 49 , wherein the testing protocol is associated with a Papanicolaou Test.
51. A method of testing a biological sample obtained from a biological sampling device comprising a sheath having a first sheath end, a second sheath end, and a sheath cavity that extends between the first and second sheath ends, an applicator having a first applicator end, a second applicator end, and an applicator cavity that extends between the first and second applicator ends, the applicator being disposed within the sheath cavity, a collector, having an abrasive outer surface area and collected biological material, and being configured to transition between a secured position, in which the collector is positioned within at least one of the sheath cavity and applicator cavity, and a sampling position, in which said collector is positioned outside of the sheath and applicator cavities, and a handle, having a first handle end and a second handle end, and extending through the sheath and applicator cavities with the first handle end being fixed to the collector and the second handle end extending from the second sheath and second applicator ends, said method comprising:
applying at least one testing protocol to the biological sample; and
deriving a testing result from the at least one protocol.
52. The method of claim 51 , wherein the testing protocol is associated with a Papanicolaou Test.
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Cited By (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20140370513A1 (en) * | 2012-01-31 | 2014-12-18 | Ge Healthcare Uk Limited | Biological sample collection |
US20160137209A1 (en) * | 2014-11-18 | 2016-05-19 | GM Global Technology Operations LLC | Motion-based multi-sensor calibration |
US20180078242A1 (en) * | 2016-09-16 | 2018-03-22 | Lida Aghdam | Vagina Probe with Brush |
USD831975S1 (en) * | 2017-09-19 | 2018-10-30 | Paris Presents Incorporated | Makeup brush |
CN111964963A (en) * | 2020-07-07 | 2020-11-20 | 中山大学 | Bionic sampling device |
USD958398S1 (en) * | 2019-07-31 | 2022-07-19 | Crime Scene Solutions Limited | Sampling apparatus |
US11406366B2 (en) * | 2016-09-23 | 2022-08-09 | Universidad Industrial De Santander | Device for collecting biological samples |
US11723631B2 (en) * | 2020-04-10 | 2023-08-15 | Orlando Health, Inc. | Brush for non-invasive biopsy |
Families Citing this family (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20140024069A1 (en) * | 2012-07-18 | 2014-01-23 | Ariel Figueredo | Biological Testing Device and Methods of Using and Testing |
DE102020133734A1 (en) | 2020-12-16 | 2022-06-23 | Drägerwerk AG & Co. KGaA | Collection device for sampling, and method for performing sampling of biological material |
Citations (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US4340066A (en) * | 1980-02-01 | 1982-07-20 | Sherwood Medical Industries Inc. | Medical device for collecting a body sample |
US4586604A (en) * | 1984-06-28 | 1986-05-06 | Continental Plastic Corporation | Culture collection instrument and sealed swab holder therefor |
US4873992A (en) * | 1987-03-20 | 1989-10-17 | Medical Dynamics, Inc. | Cervical cytology device |
US20030088190A1 (en) * | 2000-04-07 | 2003-05-08 | Tamotsu Inoue | Tool and appliance for collecting slight amount of humor |
US20050288606A1 (en) * | 2004-06-25 | 2005-12-29 | Continental Plastic Corp | Culture swab with protective cap and safety pin |
US7144377B2 (en) * | 2004-08-06 | 2006-12-05 | Li-Cheng Lu | Personal cervical cell collector |
US8961896B2 (en) * | 2010-11-24 | 2015-02-24 | In Hindsight Llc | Cytological cell sample collection, storage, and transport device |
Family Cites Families (10)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US4318414A (en) * | 1977-05-09 | 1982-03-09 | Ovutime, Inc. | Probe for obtaining cervical mucus |
CA2172129A1 (en) * | 1993-09-20 | 1995-04-06 | Bruce H. Diamond | Multiple biopsy sampling device |
US5535756A (en) * | 1994-01-06 | 1996-07-16 | Parasher; Vinod K. | Catheter with simultaneous brush cytology and scrape biopsy capability |
US5792074A (en) * | 1996-03-05 | 1998-08-11 | Turkel; David | Protected microbiological sampling brush assembly |
US6855552B2 (en) * | 1998-09-03 | 2005-02-15 | Ventana Medical Systems | Automated immunohistochemical and in situ hybridization assay formulations |
CN1221215C (en) * | 1999-06-25 | 2005-10-05 | 分子诊断学股份有限公司 | Personal cervical cell collector |
US20070106174A1 (en) * | 2005-10-07 | 2007-05-10 | Femspec Llc | Intrauterine anesthetic applicator and cell collection device and method of use |
US20110021950A1 (en) * | 2009-07-22 | 2011-01-27 | Father Judge Apostolic Land Company, LLC | Cell collector |
US20140024069A1 (en) * | 2012-07-18 | 2014-01-23 | Ariel Figueredo | Biological Testing Device and Methods of Using and Testing |
US10271826B2 (en) * | 2013-01-10 | 2019-04-30 | Hologic, Inc. | Swab assembly for specimen collection |
-
2013
- 2013-07-18 US US13/945,380 patent/US20140024069A1/en not_active Abandoned
-
2014
- 2014-07-12 WO PCT/US2014/046447 patent/WO2015009579A1/en active Application Filing
-
2017
- 2017-07-25 US US15/659,437 patent/US10987090B2/en active Active
-
2021
- 2021-04-18 US US17/233,516 patent/US20210236099A1/en active Pending
Patent Citations (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US4340066A (en) * | 1980-02-01 | 1982-07-20 | Sherwood Medical Industries Inc. | Medical device for collecting a body sample |
US4586604A (en) * | 1984-06-28 | 1986-05-06 | Continental Plastic Corporation | Culture collection instrument and sealed swab holder therefor |
US4873992A (en) * | 1987-03-20 | 1989-10-17 | Medical Dynamics, Inc. | Cervical cytology device |
US20030088190A1 (en) * | 2000-04-07 | 2003-05-08 | Tamotsu Inoue | Tool and appliance for collecting slight amount of humor |
US20050288606A1 (en) * | 2004-06-25 | 2005-12-29 | Continental Plastic Corp | Culture swab with protective cap and safety pin |
US7144377B2 (en) * | 2004-08-06 | 2006-12-05 | Li-Cheng Lu | Personal cervical cell collector |
US8961896B2 (en) * | 2010-11-24 | 2015-02-24 | In Hindsight Llc | Cytological cell sample collection, storage, and transport device |
Cited By (10)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20140370513A1 (en) * | 2012-01-31 | 2014-12-18 | Ge Healthcare Uk Limited | Biological sample collection |
US9382577B2 (en) * | 2012-01-31 | 2016-07-05 | Ge Healthcare Uk Limited | Biological sample collection |
US20160137209A1 (en) * | 2014-11-18 | 2016-05-19 | GM Global Technology Operations LLC | Motion-based multi-sensor calibration |
US20180078242A1 (en) * | 2016-09-16 | 2018-03-22 | Lida Aghdam | Vagina Probe with Brush |
US11259785B2 (en) * | 2016-09-16 | 2022-03-01 | Lida Aghdam | Vagina probe with brush |
US11406366B2 (en) * | 2016-09-23 | 2022-08-09 | Universidad Industrial De Santander | Device for collecting biological samples |
USD831975S1 (en) * | 2017-09-19 | 2018-10-30 | Paris Presents Incorporated | Makeup brush |
USD958398S1 (en) * | 2019-07-31 | 2022-07-19 | Crime Scene Solutions Limited | Sampling apparatus |
US11723631B2 (en) * | 2020-04-10 | 2023-08-15 | Orlando Health, Inc. | Brush for non-invasive biopsy |
CN111964963A (en) * | 2020-07-07 | 2020-11-20 | 中山大学 | Bionic sampling device |
Also Published As
Publication number | Publication date |
---|---|
US20210236099A1 (en) | 2021-08-05 |
US20170319187A1 (en) | 2017-11-09 |
US10987090B2 (en) | 2021-04-27 |
US20200170629A9 (en) | 2020-06-04 |
WO2015009579A1 (en) | 2015-01-22 |
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Legal Events
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