BIOENERGETIC-ACTIVE MATERIAL AND USE THEREOF

Organization Name

SHENZHEN INSTITUTES OF ADVANCED TECHNOLOGY

Inventor(s)

Jian Li of Guangdong (CN)

Peng Zhang of Guangdong (CN)

BIOENERGETIC-ACTIVE MATERIAL AND USE THEREOF - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240299620 titled 'BIOENERGETIC-ACTIVE MATERIAL AND USE THEREOF

Simplified Explanation

The patent application describes a bioenergetic-active material, specifically a biodegradable polymer, that can be broken down into metabolic intermediates to provide bioenergy for tissue cells.

• The bioenergetic-active material is a biodegradable polymer.
• Degradation products can be converted into metabolic intermediates via the tricarboxylic acid cycle or glycolysis pathway.
• The material can improve the stability of ATP in cells and related biomass activity.
• The bioenergetic-active material has potential applications in bone tissue regeneration, especially for repairing large bone defects.

Key Features and Innovation

• Bioenergetic-active material is a biodegradable polymer.
• Degradation products can provide bioenergy for tissue cells.
• Improves stability of ATP in cells and related biomass activity.
• Potential application in bone tissue regeneration, particularly for large bone defect repair.

Potential Applications

The technology can be applied in:

• Bone tissue regeneration
• Repairing large bone defects
• Biomedical engineering

Problems Solved

• Traditional biodegradable materials cannot continuously improve the stability of ATP in cells.
• Activity of related biomass is enhanced.
• Provides bioenergy for tissue cells.

Benefits

• Enhanced stability of ATP in cells.
• Improved activity of related biomass.
• Potential for large bone defect repair.

Commercial Applications

1. 1. 1. Bioenergetic-Active Material: Enhancing Bone Tissue Regeneration

The technology has potential commercial applications in the field of bone tissue regeneration, particularly for repairing large bone defects. This innovation can revolutionize the way bone defects are treated, offering a more effective and sustainable solution for patients.

Questions about Bioenergetic-Active Material

How does the bioenergetic-active material provide bioenergy for tissue cells?

The bioenergetic-active material, a biodegradable polymer, can be broken down into metabolic intermediates via the tricarboxylic acid cycle or glycolysis pathway, which then provide bioenergy for tissue cells.

What are the potential applications of the bioenergetic-active material?

The bioenergetic-active material has potential applications in bone tissue regeneration, particularly for repairing large bone defects. It can improve the stability of ATP in cells and enhance the activity of related biomass.

Original Abstract Submitted

a bioenergetic-active material and use thereof are provided, and in particular to a bioenergetic-active material is a biodegradable polymer. a degradation product of the bioenergetic-active material is a metabolic intermediate via a tricarboxylic acid cycle and/or a glycolysis pathway, or a polymer monomer capable of being converted into a metabolic intermediate via a tricarboxylic acid cycle and/or a glycolysis pathway, or a polymer monomer capable of being converted into acetyl-coenzyme a. the degradation product of the bioenergetic-active material provides bioenergy for tissue cells via a tricarboxylic acid metabolic cycle or a glycolysis pathway, so that the problem that the traditional biodegradable material cannot continuously improve the stability of atp in cells and the activity of related biomass is solved, and the bioenergetic-active material has a wide application prospect in the field of bone tissue regeneration, particularly in the aspect of large-sized bone defect repair.