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Method and system for tracking internal mini device

A micro-device and algorithm technology, applied in the field of medical devices, can solve the problems of affecting the positioning and orientation speed, long calculation time, complex calculation method, etc., to improve positioning accuracy and reliability, improve accuracy and calculation speed, and eliminate singular situations. Effect

Active Publication Date: 2010-03-24
NANTONG KANGSHENG MEDICAL EQUIP
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Problems solved by technology

The magnetic field positioning and orientation method has higher positioning accuracy than the antenna positioning, but because the nonlinear optimization method is usually used for calculation, the calculation method is complicated and the calculation time is very long, so it limits and affects the positioning and orientation speed of the micro-device in the body, and it is difficult to achieve accurate positioning. Rapid real-time tracking of microdevices in vivo
Moreover, the magnetic field positioning and orientation method can only provide the three-dimensional position change and the two-dimensional direction change of the micro-device in the body, and lacks one-dimensional direction information, that is, the lack of parameters reflecting the change of the micro-device in the body around the main axis, and it cannot be omnidirectional (three-dimensional position and three-dimensional direction) to reflect the position and orientation changes of the micro-device in the body

Method used

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  • Method and system for tracking internal mini device
  • Method and system for tracking internal mini device
  • Method and system for tracking internal mini device

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Embodiment Construction

[0057] Below according to accompanying drawing and embodiment the present invention will be described in further detail:

[0058] In vivo micro-device tracking system of the present invention such as figure 1 As shown, the micro-device tracking system in the digestive tract of the present invention includes a swallowable micro-device with a permanent magnet, an array detection unit arranged near the human body and fixed relative to the human body, a portable data recorder, and data processing and display center etc. In vivo microdevices such as figure 2 , 3 As shown, the micro-device housing 21 has a built-in permanent magnet 24, a battery 23, and a functional element 27, and the magnetic field generated by the permanent magnet is as follows: Figure 5 As shown, it also includes a functional sensor 22, a microprocessor 26, a wireless radio frequency circuit and a wireless transmitting antenna 25 connected in sequence, and the sensors are set due to different research purpo...

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Abstract

A method and system for tracking the minitype device in vivo are disclosed, wherein the system includes a built-in permanent magnet, a function sensor, a MPU, a wireless radio circuit and a minitype device in vivo of the transmitting antenna, and also includes as array detecting unit, a portable data logger, a vitro data receiving and processing system for the data processing and the displaying center. The vitro data receiving and processing system is used for receiving the minitype device data and the tacking orientation. The tracking method synthetizes a linear algorithm of the magnetic location, a nonlinear optimization algorithm, and a radio frequency antenna synthesis locating method, which can fast obtain the complete 6-dimension position orientation parameter of the vivo minitype device, tracks the position and the direction of the vivo minitype device in real-time, and ensures the accuracy, the reliability, and the real time of the system. The invention can provide the preciseorientation and the movement trace, the direction and the speed information for the vivo minitype medical device, and also provides the important information about the symptom and the pathology partsetc.

Description

technical field [0001] The invention relates to the technical field of medical instruments, in particular to a method for tracking a micro-device in a body. Background technique [0002] With the development of micro-mechanical and micro-electronic processing technologies, more and more minimally invasive and non-invasive micro-medical devices have been applied to clinical disease diagnosis and treatment in patients. In order to ensure and improve the effectiveness of the diagnosis and treatment process and to better conduct basic medical research, it is particularly important to perform real-time positioning and tracking of the spatial position and direction of these micro medical devices in the body. [0003] At present, on how to locate the micro-device in the body, available technologies include X-ray examination, CT examination, nuclear magnetic resonance examination, three-dimensional ultrasound examination, computer vision, detection of radio frequency wireless signal...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): A61B5/06A61B5/07A61B5/00A61B1/00G06F17/00
Inventor 孟庆虎胡超王晓娜徐礼胜马同星
Owner NANTONG KANGSHENG MEDICAL EQUIP
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