WO2016059550A1 - Procédé et système pour l'administration d'un processus de traitement prothétique d'un patient dentaire - Google Patents

Procédé et système pour l'administration d'un processus de traitement prothétique d'un patient dentaire Download PDF

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Publication number
WO2016059550A1
WO2016059550A1 PCT/IB2015/057829 IB2015057829W WO2016059550A1 WO 2016059550 A1 WO2016059550 A1 WO 2016059550A1 IB 2015057829 W IB2015057829 W IB 2015057829W WO 2016059550 A1 WO2016059550 A1 WO 2016059550A1
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data
input
computing devices
dental
rendering
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PCT/IB2015/057829
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English (en)
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Jūratė GOLOCHVOŠČIŪTĖ-ANDRIJAUSKIENĖ
Rolandas ANDRIJAUSKAS
Robertas GUSTAITIS
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Uab "Dtl Vilnius"
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Publication of WO2016059550A1 publication Critical patent/WO2016059550A1/fr

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    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06QINFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
    • G06Q10/00Administration; Management
    • G06Q10/06Resources, workflows, human or project management; Enterprise or organisation planning; Enterprise or organisation modelling
    • G06Q10/063Operations research, analysis or management
    • G06Q10/0631Resource planning, allocation, distributing or scheduling for enterprises or organisations
    • G06Q10/06311Scheduling, planning or task assignment for a person or group
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06QINFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
    • G06Q10/00Administration; Management
    • G06Q10/10Office automation; Time management
    • GPHYSICS
    • G16INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR SPECIFIC APPLICATION FIELDS
    • G16HHEALTHCARE INFORMATICS, i.e. INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR THE HANDLING OR PROCESSING OF MEDICAL OR HEALTHCARE DATA
    • G16H20/00ICT specially adapted for therapies or health-improving plans, e.g. for handling prescriptions, for steering therapy or for monitoring patient compliance
    • G16H20/40ICT specially adapted for therapies or health-improving plans, e.g. for handling prescriptions, for steering therapy or for monitoring patient compliance relating to mechanical, radiation or invasive therapies, e.g. surgery, laser therapy, dialysis or acupuncture
    • GPHYSICS
    • G16INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR SPECIFIC APPLICATION FIELDS
    • G16HHEALTHCARE INFORMATICS, i.e. INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR THE HANDLING OR PROCESSING OF MEDICAL OR HEALTHCARE DATA
    • G16H70/00ICT specially adapted for the handling or processing of medical references
    • G16H70/20ICT specially adapted for the handling or processing of medical references relating to practices or guidelines

Definitions

  • the invention relates to development and administration of a prosthetic treatment plan for a dental patient, and more specifically, to a method and a system for administration of prosthetic treatment process.
  • Dental prosthetic treatment reconstructs damaged teeth and/or dental arches restoring their proper chewing function, form, and color.
  • odontologists neglect do discuss or coordinate patient prosthetic treatment plans, technology, progress phases or dates with dental technicians.
  • odontologists provide dental technicians with dental impressions, intended for production of temporary prosthesis.
  • additional information related to the patient facial shape, age, gender, oral/facial photos, and centric relation usually is withhold.
  • Temporary prostheses are manufactured by preparing the teeth on a model and then placing them on the patient after teeth grinding procedure. The teeth grinding procedure destroys most of specific information on occlusion and mastication, the initial teeth form and the oral condition.
  • a prosthesis is produced in the position of central occlusion (at maximum intercuspation) or in an articulator by mechanically (vertically) lifting the occlusion.
  • Dental technicians also do not have information about patients' wishes, expectations, and comments about the proposed prosthesis.
  • a dental technician receives an order to produce a permanent prosthesis, because the temporary prosthesis has been made in another laboratory or is already placed in the patient's mouth.
  • the odontologist specifies the material and the design of the prosthesis at his/her sole discretion, and the implants may already be placed. Also, too much tooth tissue can be removed or some teeth unnecessarily ground at the time of prosthesis structure formation. These reasons lead to extension of the production process.
  • different prostheses are manufactured in a linear fashion: the next prosthesis is made only after the previous one is finished. The protracted process of production negatively affects quality of the prostheses, since a mouth is not treated as a single whole, but rather segment by segment. In some cases, errors in production of a previous prosthesis become apparent during production of the last prosthesis, e.g., in occlusion, which are almost impossible to correct without remake or correction of the previous prosthesis.
  • an odontologist must plan necessary surgical interventions, gum corrections, implantations, orthodontics, and determine which teeth should be treated, which teeth will have to be removed, and which teeth can be reconstructed with prostheses without or with minimally invasive procedures, thus preserving natural tooth tissue as much as possible.
  • Patient-related information is often stored in several documents, order forms, and emails, some of which are stored in clinics, and some at dental technician laboratories. Also, there is no single information system linking clinics and dental laboratories, thus impairing efficiency of prostheses production process and leading to wastage.
  • the patent US 7.020.618 B1 discloses a method and a system able to generate a patient's treatment plan, divide it into steps and phases, and monitor implementation of the plan.
  • the system and the method are designed to compile and share general information about a patient, his/her treatment plan and implementation of the plan. Odontologists can freely select implementation of plan phases.
  • the system is focused solely towards the general practice of treatment plan creation and does not include coordination of the treatment plant with production of treatment applications.
  • the US patent application US 1 1/760.705 discloses a method and a system for monitoring and readjustment of the treatment process. Principles for creation of a treatment plan, which can be freely adjusted by the odontologist, apply only for production and application of orthodontic solutions.
  • Some well-known products such as LabStar, MagicTouch, LabMagic, intended to facilitate communication between dental laboratories and odontologists, providing ability to order products and track the order statuses.
  • these products are primarily intended for general administration of dental laboratories, tracking of business statistics and billing.
  • the proposed invention is intended to eliminate all the said problems and deficiencies by providing calculations of treatment phases and employing a planning system, which implements a mode of operation of an odontologist and a dental technician laboratory according to a specific work protocol. According to this protocol, each step of prosthetic treatment is performed consistently and efficiently by combining different phases of dental prosthetics. As a result, the risk of treatment phase failure is reduced.
  • the invention discloses a detailed method and a system for scheduling, administration, and adjustment of a treatment plan of a dental patient.
  • One aspect of the invention is a system, which is designed to create, manage and update a patient's treatment plan linking it to data on the patient and his/her treatment progress present in a database.
  • the system consists of numerous computing devices, each of which has at least of software capable of data rendering and exchange between numerous computing devices in the system, a processor, a digital storage, a data entry device, a data output device, wherein all said components are controlled by the said processors.
  • At least one computer in the system is connected to a storage device, on which a special computer application is installed able to communicate with other computing devices in the system by means of communication software and executed by the computer processor.
  • the system also includes a data routing tool that communicates with numerous computing devices; an engine for creation, administration and correction of a treatment plan that communicates with numerous computing devices of the system by means of the said router, and the communication software.
  • the system is interconnected via communication networks and includes plugins for creation of interface between the special computer application of GPSAK engine and other system devices via the router.
  • the computer application stored in a storage device connected to at least single computer is able to process the incoming data about the patient, the treatment plan and the applications being manufactured for patient's treatment. It is able to send processed data to numerous computing devices and receive data from numerous computing devices by means of a routing device, where all said data are stored in databases on digital media.
  • Another aspect of the invention is a new and improved method for development, administration and adjustment of a patient treatment plan by combining input from an odontologist, a dental technician and a patient, which is implemented by means of the said system for development, administration and correction of the treatment plan.
  • This method combines administration of numerous tasks according to the dental architecture protocol.
  • Personal data of the odontologist or the dental technician are entered via a user interface screen by means of a data entry device and inter-computer communication software to at least a single computing device of the system and are sent via a router to at least one computing device of the system, on which the special application is installed and executed by the processor, where the data are stored on the same storage device for further use.
  • the patient data are also entered over the user interface, which is created by the GPSAK engine and which is displayed on a user monitor as a user interface screen, by means a data entry device of at least one computer out of multitude and saved for further use in a storage device of at least one computer, the same on which the data processing application is also stored.
  • the computer application which operates on the basis of a dental architecture protocol algorithm, patient medical data, and work completion deadlines of the odontologist and the dental technician, compiles prosthesis phases and prostheses production phases, splits and/or combines them, saves and outputs and/or displays data to the machine memory of at least one system computer, on which the special data processing application is stored and executed, for output in the work calendar displayed on the user interface screen.
  • the data displayed on the system user graphic interface fields are accessible via the Internet networks, so that they can be assessed, executed, monitored and adjusted with mutual consent by at least one system user, such as the odontologist, the dental technician or the patient by means of any computing device of the system.
  • Additional data such as patient photos taken after each visit to the prosthodontist, video files with phonetic exercises by patient, comments by the odontologist or the dental technician, are displayed on the timeline of the graphic interface and allow the prosthodontist and the dental technician to coordinate the process and to control the quality.
  • the computer application of the GPSAK engine assigns specific optimum production times for the prosthesis phase and for the prosthetics production phase depending on the number of teeth that require prostheses, recalculates times according to the number of units, determines the optimal intervals between prosthesis phases and prosthetics production phases and outputs/displays them on the user interface screens that contain at least the optimal production time frames.
  • the said intervals can be adjusted taking into account date entered by the user.
  • Information on clinical phases, including their times and intervals, is stored on the same computer-connected storage device as the special data processing application, i.e.
  • the said computer application operating in accordance with the dental architecture protocol processes data related to the patient treatment plan. Based on the entered data, work phases and dates are displayed on user interface screens by means of an output device of at least one computer, including the harmonization data between the schedules of the odontologist and of the dental technician, where the output data are represented on user interface screens, which may include at least compatible dates, incompatible dates, and suggestions for coordination of dates that are verified and compared with the schedule data stored in a database on the computer storage device.
  • the data on the work phases and their completion dates presented on an output device are synchronized between at least two computing devices in the system. In this way, the information is simultaneously accessible on several computing devices in the system.
  • the data on phases and their completion dates can be adjusted by means of a computer input device.
  • Fig. 1 The basic scheme of the system suitable for development, management and adjustment of a patient treatment plan
  • Fig. 2 The principal scheme of the dental architecture algorithm
  • Fig. 3 The screen for editing user contact information
  • Fig. 4 The screen for editing work time settings of the user (an odontologist)
  • Fig. 5 The screen for editing work time settings of the user (a dental technician)
  • Fig. 7 The starting screen where orders are split into phases with assigned times
  • Fig. 8 The screen for coordination of dates, the dental technician's version
  • Fig. 9 The timeline/the screen for coordination of dates, the odontologist's version
  • Fig. 10 A segment from the odontologist's screen for coordination of dates
  • Fig. 11 The odontologist's weekly calendar screen
  • Fig. 12 The home screen
  • Fig. 13 The dental technician's week calendar screen
  • Fig. 14 The monthly calendar screen
  • Fig. 15 The timeline/the screen for entry of patient data to the patient card
  • the invention discloses a detailed method and a system for development, administration, and correction of a dental patient's treatment plan.
  • One aspect of the invention is a system (S) for development, administration, and adjustment of a patient treatment plan linking it with the data on the patient and the treatment process stored in a database (1) as shown in Fig. 1.
  • the system includes numerous computing devices (2', 2", 2"', 2"", 2 ), each of which has at least software (3 ⁇ 3", 3"', 3"", 3 ) for data exchange between multiple computing devices (2', 2", 2", 2"", 2 ) of the system (S), processors (4 ⁇ 4", 4"', 4"", 4 ), a storage device of digital data (5 ⁇ 5", 5"', 5"", 5 ), and a data entry device (6' , 6", 6"', 6"", 6 ), such as a keyboard, a graphic tablet, a scanner, or a digital camera, and a data output device (7', 7", 7"', 7"", 7 ), such as a monitor display or a printing device, where all said devices are controlled by the said processors (4', 4", 4"', 4"", 4 ).
  • At least one computing device (2 ) in the system (S) is connected to a storage device (5 ), on which the special computer application (3) operating in accordance with the dental architecture protocol (100) is stored, and is executed by a processor (4 ) and is able to communicate with other computing devices (2', 2", 2"', 2"", 2 ) in the system by means of communication software (3', 3", 3"', 3"", 3 ).
  • the system also includes a data routing means (8), such as a router, that communicates with numerous computing devices (2', 2", 2", 2"", 2 ), an engine (the GPSAK engine) (9) for development, administration and correction of a treatment plan that communicates with numerous computing devices (2', 2", 2", 2"") in the system over communication networks by means of the said router (8) and the communication software (3', 3", 3"', 3"").
  • a data routing means (8) such as a router, that communicates with numerous computing devices (2', 2", 2", 2"", 2 ), an engine (the GPSAK engine) (9) for development, administration and correction of a treatment plan that communicates with numerous computing devices (2', 2", 2", 2"") in the system over communication networks by means of the said router (8) and the communication software (3', 3", 3"', 3"").
  • the computer application (3) which is stored on a storage device (5 ) connected to at least one of numerous computing devices (2 ), is able to process the incoming data on the patient, the treatment plan, and treatment applications being produced, to send the processed data to numerous other computing devices (2', 2", 2", 2""), to receive the transfered data from numerous other computing devices (2', 2", 2'", 2"') in the system (S) by means of a routing device (8), where all said data are stored in databases (1) on a digital data storage device (5 ) that is connected to at least one computer (2 ).
  • the above-mentioned GPSAK engine (9) includes plugins (10), which are used to create an interface between the special computer application of the GPSAK engine (9) and other system components via a router (8).
  • Another aspect of the invention is a new and improved method for development, administration and coordination of a patient treatment plan between the odontologist-orthopedist, the dental technician and the patient, which is implemented by means of the said system (S) for development, administration and correction of the treatment plan.
  • This method combines administration of numerous tasks according to the dental architecture protocol (100).
  • the personal data of the odontologist or the dental technician are entered on at least one computer (2', 2") by means of software (3', 3") for communication between computing devices and a data entry device (6', 6") via a user interface screen (2000), which includes at least the area (2001) for entry of personal data of the dental technician and/or the odontologist, the professional information area (2002) and the information area for other staff (2003) and which is generated by the GPSAK engine (9) and rendered on a monitor (7', 7", 7 ).
  • the said data are sent through the router to at least one computing device (2 ) in the system, to which the storage device (5 ) is connected, on which the special application (3) is stored and is executed by the processor (4 ), for storage on the said storage device (5 ) for further use.
  • the user interface screen (2000) for entry of personal data of the odontologist or of the dental technician by means of input devices (6', 6") of a computer (2', 2") consists of at least name, address, workplace data and assistants' data input fields.
  • Another form (2000b, 2000c) of the said user interface screen (2000) may also include segments (2001 b, 2001c) containing scheduled working days, holidays, vacations, working hours, and lunch breaks.
  • the patient's data are entered and saved for further use on a storage device (5) of at least one computer, on which by the data-processing computer application (3) is stored.
  • the said user interface screen (3000) can be used to enter data by means of an input device (6', 6") into the medical data area (3001) of the user interface screen (3000) including, at least, fields for age, gender, shape of the face, mouth and facial images, expectations, reasons for appointment, diagnosis by the odontologist, oral condition, treatment time, the progress of the dental condition starting with the first primary teeth, date and location of detected decay, placed prostheses.
  • the area (3003) of the user interface screen (3000) may include dental condition markings in different digital formats for planned prosthesis according to the dental architecture protocol (100).
  • non-medical patient data such as the number of visits to the odontologist or patient's payment information, are compiled and/or entered in a relevant area of the user interface screen.
  • the patient-related data entered on at least one computer in the system (2', 2", 2"', 2”") are displayed on the interface screen (3000), which is generated by the application (3) of the said GPSAK engine (9) and is accessible using any of numerous computing devices of the system (S) (2 ⁇ 2", 2"', 2"") via a router (8) and communication software (3', 3", 3"', 3"").
  • the said data displayed on the interface screen (3000) are accessible by means of at least one computing device of the system (2 ⁇ 2", 2"', 2") using communication software (3 ⁇ 3", 3"', 3"") and are rendered on an output device (7', 7", 7"', 7"") of the said computer (2 ⁇ 2", 2"', 2"").
  • Operation of the said special application (3) is based on the dental architecture protocol (100) covering: data input (101) of dental impressions that represent the whole palette including labial frenum and dental necks, data processing (101A) by means of special software (3); data rendering (102 ) on the screen (7 ⁇ 7", 7"', 7"", 7 ) of a computer (2 ⁇ 2", 2"', 2"", 2 ), and data storage (103) on a computer storage device (5 ); input (104) of face-bow record data, storage (106) on a computer storage device (5 ) and rendering (105) on the screen (7', 7", 7"', 7"", 7 ) of a computer (2 ⁇ 2", 2"', 2”", 2 ); input (107) of CO and central relation record data in the form of digital images, saving (109) on a computer storage device (5 ) and rendering (108) on the screen (7 ⁇ 7", 7"', 7"", 7 ) of a computer (2 ⁇ 2", 2"', 2"", 2 ); input (110) of intraoral digital images, including
  • All the said steps (101 , 104, 107, 1 10, 1 12, 114, 1 17, 120, 124, 127, 132, 135A, 139, 147, 151 , 155, 159, 163, 167, 171) are performed by means of an input device (6 ⁇ 6", 6"', 6"") of at least one computing device of the system (2', 2", 2"', 2""), and software (3') for data exchange between computing devices (2 ⁇ 2", 2"', 2”", 2 ), where the data saving step (103, 106, 109, 1 11 , 113, 116, 1 19, 122, 126, 129, 134, 137, 141 , 145, 149, 153, 157, 161 , 165, 168, 172) is performed by sending the said data to at least one computer (2 ) of the system via a router (8) and saving on a connected storage device (5 ), on which the computer application (3) based on the dental architecture algorithm is installed.
  • the said application (3) is used for execution of all processing steps (101A, 1 15, 118, 121 , 125, 128, 133, 136, 140, 144, 148, 152, 156, 160, 164, 167A) and output and/or rendering steps (102, 105, 108, 1 10A, 1 12A, 1 15A, 1 18A, 123, 127, 131 , 135, 138, 142, 146, 150, 154, 158, 162, 166, 169, 173).
  • the GPSAK engine (9) can communicate with at least one other computer (2', 2", 2"', 2"") of the system via a router (8) for input and/or calculation (101 , 104, 107, 110, 1 12, 114, 1 17, 120, 124, 128, 132, 135A, 139, 143, 147, 151 , 155, 159, 163, 167, 171) of coordinated data of a patient treatment plan, saving (103, 106, 109, 11 1 , 113, 1 16, 119, 122, 126, 129, 134, 137, 141 , 145, 149, 153, 157, 161 , 165, 168, 172), processing (101A, 1 15, 1 18, 121 , 125, 128, 133, 136, 140, 144, 148, 152, 156, 160, 164, 167A), output and/or rendering (102, 105, 108, 1 10A, 1 12A, 115A, 1 18A,
  • Data on all possible prosthesis phases, all possible types of prostheses (with ability to add new types of prostheses, which currently do not exist), and all phases of production of specific prostheses are stored in a data storage device (5 ) connected to at least one computer (2 ) of the system, the same storage device on which the special data processing computer application (3) is stored and executed.
  • the computer application (3) of the GPSAK engine (9) assigns (175) specific optimal production times for the prosthetic placement phase and the production phase, depending on number of teeth that require prostheses, recalculates the times according to the number of units, determines optimal intervals between prostheses placement phases and prostheses production phases, and/or renders them (102, 105, 108, 1 10A , 1 12A, 115A, 1 18A, 123, 127, 131 , 135, 138, 142, 146, 150, 154, 158, 162, 166, 169, 173) on user interface screens (4000, 5000, 6000, 7000, 8000B, 9000), which include at least the optimal production time area (4001 , 5001 , 6001 , 6002, 7001 , 8001 B, 9001).
  • the said intervals can be adjusted taking into account data entered by the user.
  • information on clinical phases with their times and intervals is stored on the same storage device (5 ) connected to a computer (2 ), on which the special data- processing computer application (3) is stored and executed; the information consists of patient visits to the odontologist and their duration and is used by the special application (3) of the GPSAK engine (9) for generation of user interface screens (8000, 8000A) that include areas (8001) with information on clinical phases with their respective times and intervals, i.e., with patient visits to the odontologist and their duration.
  • the said computer application (3) operating in accordance with the dental architecture protocol (100) processes (1 15, 1 18.121 , 125, 128, 133, 136, 140, 144, 148, 152, 156, 160, 164, 167A) data related to the patient treatment plan.
  • the data on work phases and their completion dates entered my means of an input device (7', 7", 7"', 7”") are synchronized (180) at least between two computing devices (2', 2", 2"", 2"", 2 ) of the system. In this way, the information is simultaneously available on several computing devices (2 ⁇ 2", 2"', 2"", 2 ) in the system (S).
  • Data on phases and their delivery dates can be adjusted (181) by means of an input device (6 ⁇ 6", 6"', 6"", 6 ) of a computer (2', 2", 2"', 2"", 2 ), where the interval between work phases should be 7 working days at least and 15 working days at most, taking into consideration time units of prosthesis placement and prosthesis manufacturing pre-entered into the operational algorithm of the computer application based on the number of required teeth prostheses.
  • the computer application On the basis of the patient medical data and the dates of work completion by the odontologist and the dental technician, the computer application, operating on the basis of the dental architecture protocol algorithm (100), compiles (175, 177) prosthesis placement phases and prosthesis production phases, splits and/or combines them (178, 179, 180, 181), saves the data (103, 106, 109, 1 11 , 1 13, 1 16, 1 19, 122, 126, 129, 134, 137, 141 , 145, 149, 153, 157, 161 , 165, 168, 172), and outputs and/or renders them (102, 105, 108, 1 10A, 1 12A, 1 15A, 1 18A, 123, 127, 131 , 135, 138, 142, 146, 150, 154, 158, 162, 166, 169, 173) to the memory (5 ) of at least one computer (2 ) of the system, on which the special data-processing computer application (3) is installed and
  • the data displayed on the graphic user interface screens of the system are accessible via the Internet, so that they can be assessed, executed, monitored and adjusted with mutual consent by at least one system user, such as the odontologist, the dental technician or the patient by means of any computer in the system.
  • Additional data such as patient photos after each visit to the prosthodontist, video files with phonetic exercises by patient, comments by the odontologist or the dental technician, are displayed on the timeline (10001) of the graphic interface and allow the prosthodontist and the dental technician to coordinate the process and to control the quality.
  • the patient related data and the treatment plan data stored on the same computer storage device (5 ), on which the special data-processing computer application (3) is installed and executed, are entered and/or calculated (101 , 104, 107, 110, 112, 1 14, 1 17, 120, 124, 128, 132, 135A, 139, 143, 147, 151 , 155, 159, 163, 167, 171) and saved (103, 106, 109, 1 11 , 1 13, 1 16, 1 19, 122, 126, 129, 134, 137, 141 , 145, 149, 153, 157, 161 , 165, 168, 172) on an electronic patient card generated by the GPSAK engine and displayed on a computer output device (7', 7", 7"', 7"", 7 ) in the form of a user interface screen (3000); the data from the card are sent via a router ( 8) for processing (101 A, 115, 1 18, 121 , 125, 128, 133, 136, 140, 144,
  • the application (3) of the GPSAK engine (9) of the system (S) creates a patient database (1) from the data entered via the the user graphic interface screen (3000) and outputs the data from the database into the personal dental card and the timeline (10001).
  • Patient personal data related to the patient's name, date of birth, gender, phone number, address, e-mail are displayed on the screen of the electronic patient card; the other displayed data include the reason for odontologist appointment; primary teeth, primary/permanent teeth, permanent teeth, virtual jaw, timeline (10000) with received treatments, virtual jaw with medical records on issues present; expectations, treatment plan, other personal information entered (e.g. photographs), results, calendar with reminders on appointments with explanations; preventive reminders, system messages, messages from previously attended odontologists, and a query form.
  • Interim communication between odontologists or between odontologists and dental technicians remain on the timeline (1001) that is displayed on the user interface screen (1000).
  • Access to the data of this card is protected with a PIN code that a user of a system (S) computer (2', 2", 2"', 2"", 2 ) must enter by means of an input device (6', 6", 6"', 6"", 6 ) of the computer (2', 2", 2"', 2”", 2 ).
  • User actions in the system (S) are authenticated by electronic signatures by means of electronic signature input devices (6', 6", 6"', 6"", 6 ) connected to the system (S).
  • the input element 3001 of the graphical interface screen (3000) allows uploading digital files of STL and other formats for interlinking and further processing (10202) in a laboratory and/or a clinic to create (10203) a new digital file in STL or any other format intended for prostheses producing machines (10204) based on CAD/CAM or 3D printing technologies.
  • Extraoral and intraoral photos of the face and the mouth and 3D facial scanner data which are entered via the input element (3001) of the graphical interface screen (3000) of a computing device of the system (S) operating according to dental architecture protocol (100), are further processed (10102) changing the shape and the color of the teeth in accordance with the external face parameters.
  • the information obtained (10103) after visualization is used for waxing procedure and the model production.
  • the patient can see how his/her new smile may look after placement of the prostheses, and the odontologist and the dental technician can take into account the patient initial comments.
  • Additional data obtained with an intraoral camera and/or a 3D facial scanner can be used for CAD/CAM and 3D printing systems (10202) and production (10204) of templates, temporary prostheses, models, surgical guides, or permanent prosthesis from a variety of materials.

Abstract

L'invention concerne le développement et l'administration d'un plan de traitement prothétique d'un patient dentaire, ou, plus particulièrement, un procédé d'administration d'un processus de traitement prothétique d'un patient dentaire et un système associé. La présente invention est conçue pour fournir des calculs d'étapes de traitement à l'aide d'un système de planification pour mettre en œuvre le procédé d'organisation de travail d'un odontologiste et d'un laboratoire de technicien dentaire selon un protocole de travail spécifique. Sous ce protocole, chaque étape de traitement prothétique est réalisée de manière cohérente et efficace par combinaison de différentes étapes de traitement prothétique dentaire. Ceci réduit le risque d'un échec dans l'une quelconque des étapes de traitement.
PCT/IB2015/057829 2014-10-14 2015-10-13 Procédé et système pour l'administration d'un processus de traitement prothétique d'un patient dentaire WO2016059550A1 (fr)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
LT2014121 2014-10-14
LT2014121A LT6296B (lt) 2014-10-14 2014-10-14 Odontologijos paciento protezavimo gydymo procesą administruojantis būdas ir sistema

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CN109452924A (zh) * 2018-10-25 2019-03-12 上海交通大学医学院附属第九人民医院 一种通用型前牙张口器的制备方法
CN109452924B (zh) * 2018-10-25 2021-12-24 上海交通大学医学院附属第九人民医院 一种通用型前牙张口器的制备方法
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