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Bimodal excitation cell system based on ultrasonics and electromagnetics

A technology of ultrasonic excitation and electromagnetics, applied in the directions of ultrasonic therapy, magnetic therapy, electrotherapy, etc., can solve the problems such as the small proportion of BMSCs, the cell volume and cell activity cannot be guaranteed, and achieve good activity, increase the amount of proliferation and proliferation Activity, to ensure the effect of normal and stable work

Inactive Publication Date: 2019-07-26
TIANJIN UNIVERSITY OF SCIENCE AND TECHNOLOGY
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Problems solved by technology

At the same time, the clinical application of BMSCs also has limitations: it is generally believed that autologous BMSCs need to be selected for in vivo transplantation to repair SCI, but most of the bone marrow is hematopoietic stem cells, and the proportion of BMSCs is very small, only 0.001%-0.01%
Low-frequency pulsed ultrasound (LIPUS) and low-frequency electromagnetic fields (LFEMF), as physical stimulators, are effective auxiliary means to promote cell proliferation and differentiation, but the amount and activity of cells after stimulation cannot be obtained. ensure

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  • Bimodal excitation cell system based on ultrasonics and electromagnetics
  • Bimodal excitation cell system based on ultrasonics and electromagnetics
  • Bimodal excitation cell system based on ultrasonics and electromagnetics

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[0035] The technical solutions in the present invention will be further described in detail below in conjunction with the accompanying drawings of the present invention. The following are only descriptive language and not restrictive language, and should not be used as a basis to limit the protection scope of the present invention.

[0036] The present invention overcomes the limitations of insufficient cell proliferation quantity and proliferation activity when cells are stimulated by a single mode, and proposes a dual-mode excitation cell system based on ultrasound and electromagnetics, which can further increase the proliferation amount and proliferation activity of cells, Thereby providing sufficient and active seed cells for autologous transplantation; providing more hope for the treatment of traumatic paraplegia.

[0037] The specific implementation steps are as follows:

[0038] 1. A dual-mode excitation cell system based on ultrasound and electromagnetics, such as fi...

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Abstract

A bimodal excitation cell system based on ultrasonics and electromagnetics belongs to the field of medical equipment. The system consists of a power module, a signal generating module, a driving amplification module, an ultrasonic excitation module, a magnetic excitation module and a detection module. The signal generating module transmits a pulse signal to the driving amplification module; the pulse signal is directly transmitted to the ultrasonic excitation module and the detection signal module after processed by the driving amplification module; the detection signal module is used for detecting the quality of the signal output at any time; the power module supplies power to the ultrasonic excitation module and the magnetic excitation module; the magnetic excitation module generates a magnetic field and acts on the cell excitation operation with the ultrasonic excitation module together. The system overcomes the limitation of single modal excitation cells, and can further increase the proliferation and the activity of the cells, thereby providing sufficient seed cells with good activity for autologous transplantation and providing more hope for treatment of traumatic paraplegia.

Description

technical field [0001] The invention relates to a dual-mode excitation cell system based on ultrasound and electromagnetics, which belongs to the field of medical equipment. Background technique [0002] Spinal cord injury (Spinal Cord Injury, SCI), as the most serious orthopedic traumatic disease with the most complications, is highly disabling and fatal, and the treatment methods for SCI are extremely limited, and its cure rate is extremely low. For spinal cord injury, bone marrow mesenchymal stem cells (BMSCs) have great application potential, which can bring positive effects to SCI patients in various aspects. After spinal cord injury, transplanted BMSCs have multiple effects on nerve regeneration, such as immune regulation and prevention of glial formation; can promote the integration of grafts with host tissues, and support the regeneration process through the secretion of cytokines and growth factors; It can secrete a large amount of NTFs, promote axon regeneration a...

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Application Information

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IPC IPC(8): A61N7/00A61N2/04
CPCA61N2/002A61N2/006A61N2/02A61N7/00A61N2007/0026
Inventor 曲志刚张亚丽宁广智张全王秋雨安阳王志援
Owner TIANJIN UNIVERSITY OF SCIENCE AND TECHNOLOGY
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