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Molecular mechanism of mechanical pressure induced changes in the microenvironment of intervertebral disc degeneration

in Apoptosis / Autophagy / Back pain / Cell death / Degeneration / Degenerative disc disease / Degenerative diseases / Extracellular matrix / Genetics / Inflammation / Inflammatory response / Intervertebral discs / Low back pain / Matrix metalloproteinase / Matrix metalloproteinases / Mechanical properties / Mechanical stimuli / Metalloproteinase / Microenvironments / Molecular modelling / Nucleus pulposus / Oxidative stress / Pyroptosis / Senescence / Social conditions

2024

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Molecular mechanism of mechanical pressure induced changes in the microenvironment of intervertebral disc degeneration

2024

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Molecular mechanism of mechanical pressure induced changes in the microenvironment of intervertebral disc degeneration

2024

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Journal Article

Molecular mechanism of mechanical pressure induced changes in the microenvironment of intervertebral disc degeneration

2024

Overview

BackgroundLower back pain, as a typical clinical symptom of spinal degenerative diseases, is emerging as a major social problem. According to recent researches, the primary cause of this problem is intervertebral disc degeneration (IVDD). IVDD is closely associated with factors such as age, genetics, mechanical stimulation (MS), and inadequate nutrition. In recent years, an increasing number of studies have further elucidated the relationship between MS and IVDD. However, the exact molecular mechanisms by which MS induces IVDD remain unclear, highlighting the need for in-depth exploration and study of the relationship between MS and IVDD.MethodsSearch for relevant literature on IVDD and MS published from January 1, 2010, to the present in the PubMed database.ResultsOne of the main causes of IVDD is MS, and loading modalities have an impact on the creation of matrix metalloproteinase, the metabolism of the cellular matrix, and other biochemical processes in the intervertebral disc. Nucleus pulposus cell death induced by MS, cartilage end-plate destruction accompanied by pyroptosis, apoptosis, iron death, senescence, autophagy, oxidative stress, inflammatory response, and ECM degradation interact with one another to form a cooperative signaling network.ConclusionThis review discusses the molecular mechanisms of the changes in the microenvironment of intervertebral discs caused by mechanical pressure, explores the interaction between mechanical pressure and IVDD, and provides new insights and approaches for the clinical prevention and treatment of IVDD.

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Publisher

Springer Nature B.V

Subject

/ Degenerative disc disease

/ Degenerative diseases