Application of acetylcholine esterase piezoelectricity biosensor in the detection of nerve tract property

An acetylcholinesterase and biosensor technology is applied in the application field of acetylcholinesterase piezoelectric biosensors in detecting the properties of peripheral nerve bundles, which can solve the problems of large individual differences, high equipment requirements, complex processes, etc. Interference, meeting clinical requirements, and high detection efficiency

Inactive Publication Date: 2008-07-30
JIANGSU PROVINCE HOSPITAL
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Problems solved by technology

However, this method needs to keep the patient awake, and is limited to fresh injuries, individual differences are large, and it is impossible to distinguish whether the muscle contraction caused by stimulation is the result of nerve conduction or current diffusion.
Therefore, the clinical application value is not large
[0005] 3. Radiobiochemical method: use radioactive isotope to label the substrate of the enzyme, and then measure the content of the enzyme according to the radioactive product produced by the enzyme reaction, and infer t

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  • Application of acetylcholine esterase piezoelectricity biosensor in the detection of nerve tract property

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Embodiment Construction

[0057] An application of the acetylcholinesterase piezoelectric biosensor of the present invention in detecting the properties of nerve bundles, which reacts with the acetylcholinesterase contained in the nerve sample to be tested through the cholinesterase antibody immobilized on the quartz crystal During the reaction process, the oscillation frequency of the quartz crystal changes, and then the computer monitoring system detects and reflects the level of acetylcholinesterase. The nerve bundle with high content is the motor bundle, and the nerve bundle with low content is the sensory bundle. . The acetylcholinesterase piezoelectric biosensor is composed of piezoelectric crystal, oscillation circuit, difference frequency circuit, frequency counter and computer. The process of using acetylcholinesterase piezoelectric biosensor to detect the properties of nerve bundles is shown in Fig. 1 .

[0058] First, combine glutaraldehyde on the quartz crystal chip; then label the choline...

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Abstract

The invention discloses an application of an acetylcholinesterase piezoelectric biosensor in detecting nerve bundle property. A choline esterase antibody fixed on a quartz crystal reacts to acetylcholinesterase contained in a nerve sample to be measured, the oscillation frequency of the quartz crystal changes in the reaction process, then the content of the acetylcholinesterase is measured and mirrored through a computer monitor system, the nerve bundle to be measured with high content is of a motion tract, and the nerve bundle to be measured with low content is of a sensory tract. The invention starts with the difference of the content of the acetylcholinesterase in the peripheral nerve motion tract and the sensory tract, can fast detect an acetylcholinesterase piezoelectric biosensor system, fast discriminate the peripheral nerve motion tract and the sensory tract, and realize the correct sewing of the motion tract to the motion tract, and the sensory tract to the sensory tract. The invention can be widely popularized in the further clinical application.

Description

technical field [0001] The invention relates to a sensor for detecting the properties of peripheral nerve bundles, in particular to the application of an acetylcholinesterase piezoelectric biosensor in detecting the properties of peripheral nerve bundles. Background technique [0002] In the existing technology, there are mainly the following ways to judge the nature of the nerve bundle: [0003] 1. Anatomical method: To study the location map of the nerve bundles in the nerve trunk, many scholars have analyzed the peripheral nerves (such as the median nerve, radial nerve, ulnar and radial nerve trunk, sciatic nerve trunk, etc.) respectively, and observed the nerve trunk. The location, shape, and number of bundles of the nerve were measured, and the local location map of the nerve bundle was drawn. However, in clinical practice, the two ends of the nerve are often twisted after nerve injury, which changes the original normal anatomical position. Clinical applications are li...

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Application Information

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IPC IPC(8): G01N33/53C12Q1/46
Inventor 曹晓建戈应滨张宁金正帅史苑乡刘波
Owner JIANGSU PROVINCE HOSPITAL
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