Muscular tissue repairing material and preparation method thereof
A technology for repairing materials and muscle tissue, applied in medical science, prostheses, etc., can solve the problems of artificial muscles consuming large amounts of energy and unable to repair themselves, achieving the effect of no toxic side effects and strong repair ability
- Summary
- Abstract
- Description
- Claims
- Application Information
AI Technical Summary
Problems solved by technology
Method used
Examples
Embodiment 1
[0024] A muscle tissue repair material, mainly made of the following raw materials according to the ratio of parts by mass: 25 parts of actin, 16 parts of myosin, 12 parts of aminodextran, 8 parts of hyaluronic acid, and 6 parts of chitosan , 2 parts of fibronectin, 8 parts of keratin, 5 parts of valine, 3 parts of proline, 4 parts of glycine, 35 parts of double distilled water.
[0025] A method for preparing a muscle tissue repair material, comprising the following steps:
[0026] (1) Dissolve actin, fibronectin, valine and proline in double distilled water, heat to 25°C to make slurry 1; deposit slurry 1 in a mold, cool until slurry 1 transforms is the temperature of multiple crystals or particles;
[0027] (2) heating the crystals or particles obtained in step (1) to 62°C to obtain the porous composite material 1, and taking the material out of the mold;
[0028] (3) Dissolve myosin, keratin, hyaluronic acid and glycine in double distilled water, heat to 25°C to make slu...
Embodiment 2
[0031] A muscle tissue repair material, which is mainly made of the following raw materials in proportion by mass: 34 parts of actin, 32 parts of myosin, 23 parts of aminodextran, 19 parts of hyaluronic acid, and 21 parts of chitosan , 12 parts of fibronectin, 21 parts of keratin, 13 parts of valine, 8 parts of proline, 7 parts of glycine, 54 parts of double distilled water.
[0032] A method for preparing a muscle tissue repair material, comprising the following steps:
[0033] (1) Dissolve actin, fibronectin, valine and proline in double-distilled water, heat to 34°C to make slurry 1; deposit slurry 1 in a mold, cool until slurry 1 transforms is the temperature of multiple crystals or particles;
[0034] (2) heating the crystals or particles obtained in step (1) to 79°C to obtain the porous composite material 1, and taking the material out of the mold;
[0035] (3) Dissolve myosin, keratin, hyaluronic acid and glycine in double distilled water, heat to 34°C to make slurry ...
Embodiment 3
[0038] A muscle tissue repair material, mainly made of the following raw materials according to the ratio of parts by mass: 40 parts of actin, 38 parts of myosin, 30 parts of aminodextran, 25 parts of hyaluronic acid, and 26 parts of chitosan , 15 parts of fibronectin, 27 parts of keratin, 17 parts of valine, 12 parts of proline, 11 parts of glycine, 65 parts of double distilled water.
[0039] A method for preparing a muscle tissue repair material, comprising the following steps:
[0040] (1) Dissolve actin, fibronectin, valine and proline in double distilled water and heat to 38°C to make slurry 1; deposit slurry 1 in a mold and cool until slurry 1 transforms is the temperature of multiple crystals or particles;
[0041] (2) heating the crystals or particles obtained in step (1) to 89°C to obtain the porous composite material 1, and taking the material out of the mold;
[0042] (3) Dissolve myosin, keratin, hyaluronic acid and glycine in double distilled water, heat to 38°...
PUM
Abstract
Description
Claims
Application Information
- R&D Engineer
- R&D Manager
- IP Professional
- Industry Leading Data Capabilities
- Powerful AI technology
- Patent DNA Extraction
Browse by: Latest US Patents, China's latest patents, Technical Efficacy Thesaurus, Application Domain, Technology Topic, Popular Technical Reports.
© 2024 PatSnap. All rights reserved.Legal|Privacy policy|Modern Slavery Act Transparency Statement|Sitemap|About US| Contact US: help@patsnap.com