WO2008151601A2

WO2008151601A2 - Method for flexible network based data processing for producing patient-specific medicinal products

Info

Publication number: WO2008151601A2
Application number: PCT/DE2008/000926
Authority: WO
Inventors: Ralph Gunnar Luthardt; Sebastian Quaas
Original assignee: Ralph Gunnar Luthardt; Sebastian Quaas
Priority date: 2007-06-12
Filing date: 2008-06-02
Publication date: 2008-12-18
Also published as: DE102007027408B3; WO2008151601A3

Abstract

The aim of the invention is to essentially eliminate the disadvantages of prior art. The aim of the invention according to said method for the flexible network based data processing for producing patient-specific medicinal products based on the data, produced directly or indirectly, of the body, body parts, individual organs or parts of organs consists of the following steps: data relating to the body, body parts, individual organs or parts of organs of a test person is generated by means of a data gathering system, the generated data is transferred from the parties concerned together with the accompanying data via one of the cross-liked computers to the user interface of the flexible network based data processing for patient-specific medicinal products (fnDfpM), all the data is then used in order to create the patient-specific medicinal product, data is then generated for controlling the respective production system, the producer creates the patient-specific medicinal product by means of the available data in the production system thereof and delivers it to the parties concerned that use the patient-specific medicinal product on test persons.

Description

Method for flexible network-based data processing for the production of patient-specific medical products

The invention relates to a method for flexible network-based data processing for the production of patient-specific medical devices.

Craftsmanship methods are becoming less important in the production of patient-specific medical devices, while computer-based procedures, which are becoming increasingly important on the basis of data acquired through different methods. For example, epitheses are computer-aided by direct data collection of relevant body surfaces. Frequently, data from the healthy body serve as a clue for the recovery of the diseased half of the body. For dental restorations (inlays, crowns, bridges) decentralized data acquisition systems are state of the art, which • record data of the teeth to be prepared directly in the patient's mouth

• in the dental laboratory the data indirectly after impression taking and

Generate model production.

For the implantation of patients with implant-supported dentures, the planning of the implant position in the jaw as well as the production of implant superstructures is based on data from data acquisition systems (computed tomography, digital volume tomography). For the production of dental prostheses, central (industrial) production centers with decentralized data acquisition systems and the transmission of decentrally constructed dental prostheses to production are common. Different systems for the production of patient-specific dentures each require their system-specific computer program with their own user interfaces. Working with these data acquisition and production systems requires more or less extensive training. The invention has for its object to provide a way that eliminates the disadvantages of the prior art as far as possible. According to the invention, the object with a method for flexible network-based data processing for the production of patient-specific medical devices on the Basis of directly or indirectly generated data of the body, parts of the body, individual organs or parts of organs through the following steps:

Generation of data of the body, body parts, individual organs or parts of organs of a subject by means of a data acquisition system - the generated data are transmitted by the participants together with accompanying data via one of the networked computers to the user interface of the flexible network-based data processing for patient-specific medical devices (fnDfpM) All data is used to create the patient-specific medical device

Generation of data to control the respective production system Producer uses the available data for his production system to create the patient-specific medical device and delivers it to the participant who uses the patient-specific medical device on the subject.

The essential advantage of the invention is that the data exchange and the data processing and / or the visualization of the data processing and / or the tracking and tracking of the transport of patient-specific medical devices between different parties through shared interfaces via networked computers done by the Process Participants use networked computers to communicate data and supporting information to the flexible network-based computing system user interface for the production of patient-specific medical devices, and the flexible network-based computing system examines the data or uses cross-linked computer testing and, if necessary, the User interfaces at the process are asked to be corrected and the data suitable for construction to the selected design via the specified interfaces systems are passed on to the design and the system automatically performs the construction on the basis of the accompanying information about the networked computers or the system performs an interactive construction via the networked computer controlled by one or more parties via said interfaces, the visualization being independent of the selected one Construction system is the same or largely the same and / or the system examines the design data or a method using networked computer is used for testing and if necessary, the user interfaces on the process stakeholders are asked for correction and suitable for production design data on the said interfaces the production system or the producer and / or the system checks the production data or uses a method using networked computers for testing and, if necessary, via the user interfaces on the process stakeholders for correction and prompts production data suitable for production via said interfaces to the production system or the producer and / or the system tracks the production and delivery via the said interfaces.

The invention will be explained below with reference to exemplary embodiments. The drawings show: FIG. 1 schematic representation of the data acquisition

2 shows a schematic representation of the communication of the user FIG. 3 shows a schematic representation of the communication of the producers FIG. 4 shows a schematic representation of the flexible network-based data processing for patient-specific medical products

The flexible network-based data processing for patient-specific medical devices (fnDfpM) serves the exchange of data between the directly or indirectly involved parties:

• Patients • Doctors or Dentists

• specialist staff who are responsible for the design or (partial) production of patient-specific medical devices (eg epithetics, dental technicians)

• Producers (manufacturers of patient-specific medical devices or required semi-finished products) as well as the further processing of the data with the goal of the production of patient-specific medical products (pM). Patient-specific medical devices (pM) are understood as meaning, for example, prostheses for replacing body parts, epitheses, dental prostheses (crowns, bridges, removable prostheses) or patient-specific implants, as well as dental implants, which are produced individually or proportionately individually for the patient.

In the course of flexible network-based data processing for patient-specific medical devices (fnDfpM), data is exchanged between participants via networked computers (eg intranet or Internet). The flexible network-based data processing for patient-specific medical devices (fnDfpM) represents a process that interconnects data exchange, data processing, visualization of the results of data processing and tracking the production and transport of patient-specific medical devices (PMs) between different stakeholders through specialized interfaces Calculator allows. The flexible network-based data processing for patient-specific medical devices (fnDfpM) can be used for the entire sequence (Fig. 4) or pro rata.

The underlying data of the body, body parts, individual organs or parts of organs (eg teeth, jaw bones) can be:

• directly at the patient by means of imaging techniques (eg photography, X-ray, computed tomography, magnetic resonance imaging, ultrasound, digital volume tomography) or by digitizing the body or body surface or parts of the body or body surface or • indirectly by digitizing duplicates of the body or its shares

(real models)

Indirectly by generating corresponding data from measured data of the body or its components (virtual models)

be detected (Fig. 1).

In summary, the systems for data acquisition are called "data acquisition systems", the result of the data acquisition "data". These Data will be collected by the parties together with incidental data (personal data of the patient, information on patient-specific medical devices (pM) (specification), preference for a design or production system, delivery date, information on the quality of the data or the payee for the treatment costs and other data (eg. Data can be transmitted, for example, in individual data formats or also in the * .stl or DICOM format (eg photos, data of other origin) via networked computers to the user interface of the flexible network-based data processing for patient-specific medical devices (fnDfpM) ,

Data required for construction - synonymous with the design - or for determination of the body or the geometrical spatial structure of the patient-specific medical device (pM) are transferred via an interface of flexible network-based data processing for patient-specific medical devices (fnDfpM). Here, an examination regarding the quality of the data can be carried out directly in the flexible network-based data processing for patient-specific medical devices (fnDfpM) or indirectly by a participant after data transmission by networked computers. In addition, accompanying data can be analyzed in terms of quality and scope. If the quality of the data does not meet the requirements of the chosen design or production system, the party that transmitted the data receives information about it via the networked computers. This can be done both actively and passively, either by the party receiving information at its entry point, or by being able to inquire from any networked computer whether the data submitted meets the requirements (in analogy to the known e-mail system).

Data that meets the requirements for the design of the patient-specific medical device (pM) are transferred via an interface to a suitable design system. Construction systems represent, for example, computer programs of the producers of patient-specific medical products (pM) that were hitherto used by the producers themselves or only accessible to selected participants (eg specialist personnel). The flexible Network-based data processing for patient-specific medical devices (fnDfpM) makes it possible to exchange data via defined interfaces with different construction systems (Fig. 2). These computer programs can be part of the flexible network-based data processing for patient-specific medical devices (fnDfpM), or can be used or controlled indirectly via interfaces by a participant. Interim results of the design or final results of the design, hereafter referred to as design data, are communicated via an internal interface to the user interface and then to the data sender and / or another party. For example, the participants can review the design data and interactively modify it through the use of the networked computers, the visualization being the same or substantially the same regardless of the design system chosen to simplify testing and modification. Results of the construction can be transmitted, for example, in individual data formats or in * .stl format. The tested and possibly modified design data are transmitted via the interfaces mentioned to the design program, the production program or the producer. The flexible network-based data processing for patient-specific medical devices (fnDfpM) makes it possible to exchange data with different production systems via the interfaces mentioned (FIG. 3). For example, modified design data is transferred to the engineering program via the user interface and to the production system via a suitable interface. The production system includes a computer program for calculating the production data that serves as the result of the processed design data for controlling production machines. The interface to the production system is part of the flexible network-based data processing for patient-specific medical devices (fnDfpM). In addition, computer programs for calculating production data can also be part of flexible network-based data processing for patient-specific medical devices (fnDfpM). Furthermore, the visualization of the production data and / or the tracking of the production process can take place via specified interfaces of the flexible network-based data processing for patient-specific medical devices (fnDfpM). The method according to the invention will be explained below on the basis of the production of a prosthesis:

After suitable data acquisition of both lower extremities by means of an imaging planar digitizing system, the measurement data (ASCII format) and accompanying information are transmitted encrypted by the orthopedic mechanic via one of the networked computers to the user interface of the flexible network-based data processing for patient-specific medical devices (fnDfpM). The accompanying information includes the personal data of the patient and a code that stands for the treating orthopedist. For the construction of lower limb prostheses based on the data of the healthy limb, only a computer program is available which allows an automated construction of the prosthesis. In a first step, the orthopedic mechanic receives the information that the filtered and smoothed surface data of both extremities are ready for examination. Via one of the networked computers, this access is provided to the user interface of the flexible network-based data processing for patient-specific medical devices (fnDfpM), which enables an identical visualization of the processed measurement data independently of the design software used. In general, the user does not have access to the design software. The visualization and interaction is made via the user interface. Defective areas are marked by the user and automatically corrected and released after repeated testing by the user. In a second step, the orthopedic mechanic and the orthopedist receive the information that the design data of the prosthesis is ready for examination. In a telephone conference, as they generally work at different locations, both, who simultaneously have encrypted access to the visualization of the design data, discuss necessary changes made by the orthopedic mechanic and implemented online by the design software. In general, users do not have access to the design software, the visualization and interaction is made through the user interface. A further embodiment of the method according to the invention in the manufacture of a ceramic veneered bridge:

One patient digitally digitized data by a factor of five with an innovative intraoral digitizing system that uses a factor of 5 as an established system. Two prepared teeth, the gap between the teeth and the teeth in the opposing jaw are digitized. There is currently no design software available for this data acquisition system. The dentist, who has experience with flexible network-based data processing for patient-specific medical devices (fnDfpM), encrypts the data into the system in the presence of the patient via a networked computer using the user interface (FIG. 1). He selects a powerful design software whose production system is limited to plastics and allows the construction to be carried out interactively. The interfaces of flexible network-based data processing for patient-specific medical devices (fnDfpM) allow the dataset to be sent to an alternative manufacturing system of a competitor capable of producing a ceramic bridge, including veneering, in an automated process in one go. For the entire production and production process, no installation of the programs is required, the remuneration of the companies is management-related.

Another version is based on the initial situation of a digital wax-up with a photo showing the aesthetic situation:

To prepare an extensive restoration with crowns, bridges and implant suprastructures, a dental technician receives from a dentist models of the patient in the articulator as well as teenage pictures showing the teeth and current digital photos in face and profile. After digitizing the model situation and digitizing the youth pictures, the dental technician downloads the data (digitized models) and the accompanying information (photos) including the planning into the flexible network-based data processing system for patient-specific medical devices (fnDfpM). The system calculates an optimal design of the denture and combines this with a three-dimensional reconstruction of the patient's face. The treating dentist attacks - as the dental technician also - over a code encrypted over one of the networked computers on the data of the Treatment simulation and discussed the proposal with the patient. He likes the planned supply, so that a wax-up is commissioned to prepare the provisional supply to a production system.

Creation of an implant template for the placement of implants:

A patient who lost all maxillary incisors at an early age due to an accident wishes an implant-supported restoration. Due to difficult anatomical conditions, planning by means of imaging techniques (here: digital volume tomography) is required. The dentist produces models of both jaws, which the dental technician digitizes and loads via a networked computer into the flexible network-based data processing system for patient-specific medical devices (fnDfpM). The radiologist performing the X-ray examination has an encrypted access to the user interface, via which he transmits the data via networked computers to the flexible network-based data processing for patient-specific medical devices (fnDfpM). The treating dentist uses networked computers to determine the optimal implant position via the user interface. The design data are transmitted from the flexible network-based data processing for patient-specific medical devices (fnDfpM) to the manufacturer of implant templates, who can supply the implant template within 1 week at the best possible price.

Claims

claims

1. A method for flexible network-based data processing for the production of patient-specific medical devices on the basis of directly or indirectly generated data of the body, the body parts, individual organs or portions of

Organs characterized by the following steps

- Generation of data of the body, body parts, individual organs or parts of organs of a subject by means of a data acquisition system

The generated data are transmitted by the participants together with accompanying data via one of the networked computers to the user interface of the flexible network-based data processing for patient-specific medical devices (fnDfpM)

- All data is used to create the patient-specific medical device - Generation of data to control the respective production system

Producer uses the available data for his production system to create the patient-specific medical device and delivers it to the participant who uses the patient-specific medical device on the subject.

2. The method according to claim 1, characterized in that the accompanying data

- personal data of the subject

- Information on the patient-specific medical device and / or

Preference for a design and / or production system and / or delivery data and / or

- Information on data quality and / or

- Information for a payer about treatment costs are.

3. The method according to any one of the preceding claims, characterized in that the transmitted generated data of a quality control are subjected to the effect that they also meet the subsequent design and / or the production process.

4. The method according to any one of the preceding claims, characterized in that after creation of the patient-specific medical device by the parties involved in the process a correction can be made.

5. The method according to any one of the preceding claims, characterized in that the data exchange and the data processing and / or the visualization of the data processing and / or the production and / or the tracking of the transport of patient-specific medical devices between different parties through said interfaces via networked computers takes place by the process participants via networked computers transmit data and accompanying information to the user interface of the system for flexible network-based data processing for the production of patient-specific medical devices and the system for flexible network-based data processing examines the data or a method using networked computers for testing is used and if Required via the user interfaces to the process stakeholders are asked for correction and the design data suitable for the above interfaces to The system chose to automatically redirect construction systems for construction, and the system would perform the design automatically using the companion information on the networked computers, or the system would perform an interactive construction via the networked computers, controlled by one or more participants, via said interfaces, with the visualization independent of the network the selected design system is the same or largely the same and / or the system examines the design data or a method using networked computers is used for testing and if necessary, via the user interfaces to the process participants are asked for correction and the production data suitable for production via the said interfaces transmitted to the production system or the producer and / or the system checks the production data or uses a process using networked computers for testing and, if necessary, about the user interfaces at the process prompting those involved for correction and transmitting the production data suitable for production via the said interfaces to the production system or the producer and / or tracking the production and delivery via the said interfaces.