CN104127182A - Pelvic floor muscle detection and treatment probe - Google Patents
Pelvic floor muscle detection and treatment probe Download PDFInfo
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- CN104127182A CN104127182A CN201410394478.7A CN201410394478A CN104127182A CN 104127182 A CN104127182 A CN 104127182A CN 201410394478 A CN201410394478 A CN 201410394478A CN 104127182 A CN104127182 A CN 104127182A
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Abstract
The invention relates to a pelvic floor muscle detection and treatment probe which is used for detecting the functional state of the pelvic floor muscles of the vaginas of women and treating the pelvic floor muscles by applying electrical stimulation. The pelvic floor muscle detection and treatment probe comprises a probe body and a probe base, wherein the inner diameter of the probe body becomes smaller from top to bottom, two groups of detection electrode slices are arranged on the surface of the probe body, the probe body comprises an upper section and a lower section, the minimum inner diameter of the upper section is larger than the maximum inner diameter of the lower section, the two groups of detection electrode slices comprise the two upper detection electrode slices which are symmetrically arranged on the two sides of the upper section and the two lower detection electrode slices which are symmetrically arranged on the two sides of the lower section, the upper section is bent in a downward-pitching mode, the downward-pitching angel of the upper section ranges from 90 degrees to 180 degrees, the probe base is connected to the bottom of the probe body, a wire through hole is formed in the bottom of the probe base, and a wire connected width the detection electrode slices is led out through the wire through hole. By the adoption of the pelvic floor muscle detection and treatment probe, detection and treatment of pubis tailbone muscles or ilium tailbone muscles or left levator ani muscles and right levator ani muscles are achieved at the same time.
Description
Technical field
The present invention relates to a kind of medical apparatus and instruments, be specifically related to a kind of pelvic diaphragm muscle that detects vagina pelvic diaphragm muscle functional status and apply flesh at the bottom of electronic stimulation basin and detect treatment probe.
Technical background
Levator ani m. at the bottom of basin is the important muscle group that maintains organ normal physiological position at the bottom of basin and realize its normal physiological function, left and right sides illiococcygeous, musculus pubococcygeus and puborectalis, consists of.At the bottom of conceived childbirth, basin, the risk factor such as operation easily causes levator ani m. damage, causes the asymmetric of left and right sides levator ani m., thereby can cause at the bottom of urinary incontinence, basin the multiple pelvic floor dysfunction diseases such as pain.By transvaginal probe is inserted to vagina, be connected with outside diagnostic equipment, the electromyographic signal that can gather levator ani m. at the bottom of basin helps to analyze pelvic floor dysfunction disease, also can apply electricity irritation to pelvic diaphragm muscle and treat simultaneously.
At present, the transvaginal probe collection of existing use be the pubococdygeal Migrating Myoelectric Complex signal of left and right sides monoblock, what reflect is pubococdygeal degree of impairment, be difficult to evaluate the damage of other levator ani m., illiococcygeous particularly, also cannot gather the electromyographic signal of left and right sides levator ani m. simultaneously, be difficult to whether symmetry judges to left and right levator ani m..Meanwhile, the electronic stimulation of illiococcygeous and the asymmetric one-sided electronic stimulation of levator ani m. are also difficult to realize.In addition, at the bottom of basin, myoelectricity collection need to be placed reference electrode sheet at body surface at present, for getting rid of the interference of external electrical field, makes signals collecting more accurate.But the external mode of this reference often can be because electrode slice viscosity be not enough, make itself and body surface loose contact, affect signals collecting, and patient detects treatment at every turn and needs to replace new electrode slice, cause unnecessary waste.
Summary of the invention
In order to overcome above-mentioned shortcoming, the present invention has designed and a kind ofly can be simultaneously musculus pubococcygeus and illiococcygeous or left and right sides levator ani have been detected to the device for the treatment of, and concrete structure is as follows:
A kind of pelvic diaphragm muscle detects treatment probe, comprise probe and probe mount, the internal diameter of probe is tendencies toward shrinkage from the top to the bottom, detecting head surface is furnished with exploring electrode sheet, probe comprises epimere and hypomere, the minimum diameter of epimere is greater than the maximum inner diameter of hypomere, described exploring electrode sheet comprises two groups, respectively two the next exploring electrode sheets that are symmetrically arranged in two upper exploring electrode sheets of epimere both sides and are symmetrically arranged in hypomere both sides, described epimere is layback warp architecture, described layback angular range is between 90 °~180 °, probe bottom is connected with probe mount, described probe mount bottom is provided with for deriving the wire through-hole of the connected wire of exploring electrode sheet.
On further described epimere, be also provided with reference electrode sheet.
The corresponding described upper exploring electrode sheet of inner chamber of the probe of further described hollow-core construction, the next exploring electrode sheet and reference electrode sheet are respectively arranged with protruding conductor interface, are connected with wire on conductor interface.
Further described probe is assembled by two symmetrical left shells and right shell body.
On further described wire through-hole, be connected with conduit, wear and penetrated described wire in described conduit, the end of conduit is provided with probe socket.
Further also comprise channel converter, described channel converter is provided with channel switch, probe interface and electrode wires interface, described channel switch is for switching the conducting between upper exploring electrode sheet and the next exploring electrode sheet, described electrode wires interface comprises first interface, the second interface, the 3rd interface, the 4th interface, the 5th interface and the 6th interface, above-mentioned interface is for the receiving transducer electromyographic signal that pole piece gathers that powers on, and the electric pulse stimulation electric current that sends of transmit outer equipment.
Compared with prior art, its beneficial effect is this patent:
1, the present invention, by the crooked radian of upper exploring electrode sheet and the next exploring electrode sheet and binding probe is set, can detect illiococcygeous, levator ani m. and pubococdygeal electromyographic signal collection clearly;
2, product of the present invention is built-in by reference electrode being set at the upper exploring electrode sheet back side, makes whole myoelectricity gatherer process more accurate, has avoided the abnormal signal causing because of the loose contact of external electrode sheet;
3, product of the present invention is furnished with special-purpose channel converter, described transvaginal probe is used very easy, has greatly saved the operating time.
Accompanying drawing explanation
Fig. 1: sonde configuration figure;
Fig. 2: probe right side outer casing construction drawing;
Fig. 3: probe left side shell mechanism figure;
Fig. 4: electrode slice structure chart;
Fig. 5: probe insertion structure chart;
Fig. 6: the Facad structure figure of channel converter;
Fig. 7: the structure figure of channel converter.
Reference numeral is 1, pops one's head in; 2, probe mount; 3, channel converter; 5, reference electrode sheet; 6, the next exploring electrode sheet; 7, conduit; 8, channel switch; 9, left shell; 10, right shell body; 11, epimere; 12, hypomere; 13, conductor interface; 14, wire through-hole; 15, upper exploring electrode sheet; 17, probe socket; 18, probe interface; 19, electrode wires interface 20, first interface; 21, the second interface; 22, the 3rd interface; 23, the 4th interface; 24, the 5th interface; 25, the 6th interface.
The specific embodiment
As shown in Figure 1, Figure 2, Figure 3, Figure 4, the spatial form of the illiococcygeous of the present invention during according to females supine position and musculus pubococcygeus vagina during apart from vaginal orifice average distance and this position, designs the shape of probe 1 and the relative position of each electrode slice in probe 1.A kind of pelvic diaphragm muscle detects treatment probe, comprise probe 1 and probe mount 2, it is smooth circular-arc that the top of described probe 1 is, long 5~the 10cm of probe 1, the internal diameter of probe 1 is tendencies toward shrinkage from the top to the bottom, 1 surface of popping one's head in is furnished with exploring electrode sheet, and probe 1 bottom is connected with probe mount 2, and described probe mount 2 bottoms are provided with for deriving the be connected wire through-hole 14 of wires of exploring electrode sheet 6.
Abnormal to electromyographic signal collection in levator ani m. motor process at the bottom of basin for fear of described probe 1.Described probe 1 comprises epimere 11 and hypomere 12, the minimum diameter of epimere 11 is greater than the maximum inner diameter of hypomere 12, described electrode slice comprises two groups, is respectively two the next exploring electrode sheets 6 that are symmetrically arranged in two upper exploring electrode sheets 15 of epimere 11 both sides and are symmetrically arranged in hypomere 12 both sides.Described two upper exploring electrode sheets 15 are for gathering basin bone illiococcygeous and left and right sides levator ani m. electromyographic signal, and described two the next exploring electrode sheets 6 are for gathering the electromyographic signal of musculus pubococcygeus and left and right sides levator ani m..
In order to prevent that described probe from slipping into vagina in contraction process or probe landing vagina inside cannot be taken out, described epimere 11 is layback warp architecture, and described layback angular range is between 90 °~180 °.Simultaneously described probe mount 2 forms " T " character form structure with probe, and one end of probe mount 2 is embedded with hollow circular ring, hand-held while being convenient to survey.
Impact for fear of the external loose contact causing of reference electrode on signals collecting, simultaneously also in order to simplify the operation and to reduce the use of consumptive material, on described epimere 11, be also provided with reference electrode sheet 5, corresponding female bladder bottom, the position of described reference electrode sheet 5 on housing, the position of this reference electrode contact does not participate in the contraction of levator ani m., the calibration that can gather as levator ani m. myoelectricity.
For convenient, electrode slice is carried out to connection, the corresponding described upper exploring electrode sheet 15 of inner chamber of the probe 1 of described hollow-core construction, the next exploring electrode sheet 6 and reference electrode sheet 5 are respectively arranged with protruding conductor interface 13, on conductor interface 13, are connected with wire.
Described probe 1 is assembled by two symmetrical left shells 9 and right shell body 10.
On described wire through-hole 14, be connected with conduit 7, in described conduit 7, wear and penetrated described wire, the end of conduit 7 is provided with probe socket 17.
Also comprise channel converter 3, described channel converter 3 is provided with channel switch 8, probe interface 18 and electrode wires interface, described channel switch 8 is for switching the conducting between upper exploring electrode sheet 15 and the next exploring electrode sheet 6, described electrode wires interface comprises first interface 20, the second interface 21, the 3rd interface 22, the 4th interface 23, the 5th interface 24 and the 6th interface 25, above-mentioned interface is for receiving transducer 1 electromyographic signal that pole piece gathers that powers on, and the electric pulse stimulation electric current that sends of transmit outer equipment.
Above-mentioned electrode wires interface 19 comprises 6 interfaces, first interface 20, the second interface 21, the 3rd interface 22, the 4th interface 23, the 5th interface 24, the 6th interface 25, above-mentioned first interface 20, the second interface 21, the 3rd interface 22 is one group, the 4th interface 23, the 5th interface 24, the 6th interface 25 is one group, described first interface 20, the second interface 21 and the 4th interface 23, the electric pulse stimulation electric current that the 5th interface 24 issues for transmit outer equipment and receive the electromyographic signal that upper and lower electrode sheet collects, interface 3 22, interface 6 25 is for the calibration of electromyographic signal.When carrying out electromyographic signal collection or electric pulse stimulation, must make to form path between any two exploring electrode sheets in described probe, make electric current form the loop of a both positive and negative polarity.Operating walk way transducer 3 is proceeded as follows:
One, above-mentioned interface is all connected with external equipment;
Two, two upper exploring electrode sheets 15 on 8 pairs of probes 1 of operating walk way permutator and the conducting between two the next exploring electrode sheets 6 are switched.
By the switching of channel switch 8 has been reached to following result:
One, between two upper exploring electrode sheets 15 at described epimere 11 places, form path, and form path between two the next exploring electrode sheets 6 at hypomere 12 places, can realize illiococcygeous and pubococdygeal detection therapeutic purposes;
Two, between the upper exploring electrode sheet 15 on described left shell 9 and the next exploring electrode sheet 6, form path, and form path between the upper exploring electrode sheet 15 on right shell body 10 and the next exploring electrode sheet 6, can realize the detection therapeutic purposes to right side levator ani m. and left side levator ani m..
Claims (6)
1. a pelvic diaphragm muscle detects treatment probe, it is characterized in that: comprise probe (1) and probe mount (2), the internal diameter of probe (1) is tendencies toward shrinkage from the top to the bottom, probe (1) surface is furnished with exploring electrode sheet, probe (1) comprises epimere (11) and hypomere (12), the minimum diameter of epimere (11) is greater than the maximum inner diameter of hypomere (12), described exploring electrode sheet comprises two groups, respectively the two the next exploring electrode sheets (6) that are symmetrically arranged in two upper exploring electrode sheets (15) of epimere (11) both sides and are symmetrically arranged in hypomere (12) both sides, described epimere (11) is layback warp architecture, described layback angular range is between 90 °~180 °, probe (1) bottom is connected with probe mount (2), described probe mount (2) bottom is provided with for deriving the wire through-hole (14) of the connected wire of exploring electrode sheet.
2. pelvic diaphragm muscle according to claim 1 detects treatment probe, it is characterized in that: on described epimere (11), be also provided with reference electrode sheet (5).
3. pelvic diaphragm muscle according to claim 2 detects treatment probe, it is characterized in that: the corresponding described upper exploring electrode sheet (15) of inner chamber, the next exploring electrode sheet (6) and the reference electrode sheet (5) of the probe of described hollow-core construction (1) are respectively arranged with protruding conductor interface (13), and conductor interface is connected with wire on (13).
4. pelvic diaphragm muscle according to claim 3 detects treatment probe, it is characterized in that: described probe (1) is assembled by two symmetrical left shells (9) and right shell body (10).
5. pelvic diaphragm muscle according to claim 4 detects treatment probe, it is characterized in that: on described wire through-hole (14), be connected with conduit (7), in described conduit (7), wear and penetrated described wire, the end of conduit (7) is provided with probe socket (17).
6. pelvic diaphragm muscle according to claim 5 detects treatment probe, it is characterized in that: also comprise channel converter (3), described channel converter (3) is provided with channel switch (8), probe interface (18) and electrode wires interface, described channel switch (8) is for switching the conducting between upper exploring electrode sheet (15) and the next exploring electrode sheet (6), described electrode wires interface comprises first interface (20), the second interface (21), the 3rd interface (22), the 4th interface (23), the 5th interface (24) and the 6th interface (25), above-mentioned interface is for receiving transducer (1) electromyographic signal that pole piece gathers that powers on, and the electric pulse stimulation electric current of transmit outer equipment transmission.
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CN104127182B CN104127182B (en) | 2017-01-18 |
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Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104436437A (en) * | 2014-12-23 | 2015-03-25 | 上海交通大学 | Novel probe used for pelvic floor muscle rehabilitation therapy apparatus and using method thereof |
CN105595999A (en) * | 2016-02-26 | 2016-05-25 | 复旦大学附属上海市第五人民医院 | Disposable pelvic floor biofeedback electrode insertion part |
CN107374626A (en) * | 2017-08-18 | 2017-11-24 | 大悦创新(苏州)医疗科技股份有限公司 | A kind of vaginal electrode |
CN107510889A (en) * | 2017-08-18 | 2017-12-26 | 大悦创新(苏州)医疗科技股份有限公司 | A kind of therapeutic system to be compacted for vagina |
CN110338790A (en) * | 2019-07-03 | 2019-10-18 | 浙江大学 | A kind of flexible fingerstall for collection surface myoelectricity and a variety of physiological parameters |
CN110464347A (en) * | 2019-07-04 | 2019-11-19 | 南方医科大学深圳医院 | A kind of Pelvic floor treatment method, system and device |
CN111012326A (en) * | 2018-10-09 | 2020-04-17 | 深圳市理邦精密仪器股份有限公司 | Pelvic floor calibration method, device and computer-readable storage medium |
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Cited By (11)
Publication number | Priority date | Publication date | Assignee | Title |
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CN104436437A (en) * | 2014-12-23 | 2015-03-25 | 上海交通大学 | Novel probe used for pelvic floor muscle rehabilitation therapy apparatus and using method thereof |
CN104436437B (en) * | 2014-12-23 | 2016-11-09 | 上海交通大学 | A kind of the new detector for pelvic diaphragm muscle therapeutic instrument for rehabilitation and using method thereof |
CN105595999A (en) * | 2016-02-26 | 2016-05-25 | 复旦大学附属上海市第五人民医院 | Disposable pelvic floor biofeedback electrode insertion part |
CN107374626A (en) * | 2017-08-18 | 2017-11-24 | 大悦创新(苏州)医疗科技股份有限公司 | A kind of vaginal electrode |
CN107510889A (en) * | 2017-08-18 | 2017-12-26 | 大悦创新(苏州)医疗科技股份有限公司 | A kind of therapeutic system to be compacted for vagina |
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CN107374626B (en) * | 2017-08-18 | 2023-08-18 | 大悦创新(苏州)医疗科技股份有限公司 | Vagina electrode |
CN111012326A (en) * | 2018-10-09 | 2020-04-17 | 深圳市理邦精密仪器股份有限公司 | Pelvic floor calibration method, device and computer-readable storage medium |
CN111012326B (en) * | 2018-10-09 | 2022-07-05 | 深圳市理邦精密仪器股份有限公司 | Pelvic floor calibration method, device and computer-readable storage medium |
CN110338790A (en) * | 2019-07-03 | 2019-10-18 | 浙江大学 | A kind of flexible fingerstall for collection surface myoelectricity and a variety of physiological parameters |
CN110464347A (en) * | 2019-07-04 | 2019-11-19 | 南方医科大学深圳医院 | A kind of Pelvic floor treatment method, system and device |
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