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Umbilical cord mesenchymal stem cells for regenerative treatment of intervertebral disc degeneration

FRONTIERS IN CELL AND DEVELOPMENTAL BIOLOGY (2023)

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Decellularized matrix for repairing intervertebral disc degeneration: Fabrication methods, applications and animal models

Hu Qian et al.

Summary: Intervertebral disc degeneration (IDD) is a common cause of low back pain and poses a burden on public health systems worldwide. Current treatment options, including conservative and surgical approaches, are ineffective in restoring intervertebral disc (IVD) function. Decellularized matrix (DCM), a tissue-engineered biomaterial, has shown promise in IVD regeneration due to its retention of extracellular matrix (ECM) components. Significant progress has been made in the preparation process, mechanistic insights, and application of DCM for IDD repair. This comprehensive review summarizes the roles and applications of DCM in IDD repair, providing novel insights for clinical treatment.

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Elibieta Cecerska-Heryc et al.

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Review Biochemistry & Molecular Biology

The Proteolysis of ECM in Intervertebral Disc Degeneration

Huaizhen Liang et al.

Summary: Intervertebral disc degeneration (IDD) is a common pathological process that leads to lower back pain. Understanding the molecular mechanisms involved in disc degeneration is crucial for the development of lumbar disc intervention strategies. This article explores the relationship between the intervertebral disc and the extracellular matrix (ECM), as well as the role of ECM proteolysis in the degenerative process. Targeting proteases associated with ECM proteolysis could be an effective intervention approach for IDD.

INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES (2022)

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Article Cell Biology

Causes of and Molecular Targets for the Treatment of Intervertebral Disc Degeneration: A Review

Takashi Ohnishi et al.

Summary: Intervertebral disc degeneration (IVDD) is a pathological condition that leads to back pain and neurological deficits. Current treatments focus on preventing cell death. Various forms of cell death, including necroptosis, pyroptosis, and ferroptosis, also play a role in IVDD. Advances have been made in targeted therapy at the RNA level for preventing cell death and future research directions.

CELLS (2022)

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Review Cell & Tissue Engineering

Tissue Engineering of Human Intervertebral Disc: A Concise Review

Nikolaos Gkantsinikoudis et al.

Summary: Degenerative disc disease (DDD) is a common condition in current clinical practice, and existing treatment methods have limited effectiveness. Tissue engineering of the entire intervertebral disc (IVD) has been suggested as a promising therapeutic strategy for DDD, with preliminary data showing the technical feasibility of manufacturing tissue-engineered IVD constructs. This narrative review critically summarizes current evidence on IVD tissue engineering, providing practical knowledge to researchers and informing clinical practitioners about the features and capabilities of this innovative science.

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Review Orthopedics

Treatment of Intervertebral Disc Degeneration

Jingguo Xin et al.

Summary: Intervertebral disc degeneration (IDD) causes various symptoms and signs, and current treatments can only relieve pain but not reverse IDD. Biotherapy, focusing on mesenchymal stem cells (MSCs) and non-coding RNAs (ncRNAs), has shown promise in experiments, but there are challenges in translating it to clinical treatment.

ORTHOPAEDIC SURGERY (2022)

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Article Cell & Tissue Engineering

Transcription regulators differentiate mesenchymal stem cells into chondroprogenitors, and their in vivo implantation regenerated the intervertebral disc degeneration

Shumaila Khalid et al.

Summary: The study suggests that promoting the differentiation of human umbilical cord MSCs into chondrocytes through transcription factors can accelerate cartilage regeneration, providing a new approach for stem cell-based therapy for degenerative disc diseases.

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Tissue physiology revolving around the clock: circadian rhythms as exemplified by the intervertebral disc

Honor Morris et al.

Summary: The circadian clocks play a crucial role in coordinating local physiology in various tissues, including the intervertebral disc (IVD) within the spine. Disruptions to the circadian rhythm may accelerate tissue degeneration, such as IVD degeneration which is a leading cause of lower back pain. Utilizing biological timing mechanisms could potentially improve tissue health and mitigate the risk of degeneration.

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Vitale Miceli et al.

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INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES (2021)

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Role of Human Mesenchymal Stem Cells in Regenerative Therapy

Jayavardini Vasanthan et al.

Summary: Mesenchymal stem cells (MSCs) are multipotent cells with the potential for tissue regeneration, can be easily isolated and cultured in vitro, and have been proven to be valuable for therapy. Quality control parameters, mechanisms of action, and applications in regenerative medicine and tissue engineering are important aspects to consider when utilizing MSCs.

CELLS (2021)

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Cell-based strategies for IVD repair: clinical progress and translational obstacles

Abbie L. A. Binch et al.

Summary: Intervertebral disc degeneration is a common cause of low back pain, with current lack of approved pharmacological interventions to prevent its progression. Cell-based therapies are emerging as promising approaches for repairing the degenerated discs, but face various challenges in terms of understanding disease mechanisms, standardizing preclinical testing, and defining guidelines for clinical trials.

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Human umbilical cord-derived mesenchymal stem cells and their chondroprogenitor derivatives reduced pain and inflammation signaling and promote regeneration in a rat intervertebral disc degeneration model

Sobia Ekram et al.

Summary: This study successfully differentiated human umbilical cord mesenchymal stem cells into chondrocyte-like cells, showing better regeneration potential and lower expression of pain and inflammation genes in the degenerated intervertebral disc rat model.

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Recent Trends in the Development of Bone Regenerative Biomaterials

Guoke Tang et al.

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FRONTIERS IN CELL AND DEVELOPMENTAL BIOLOGY (2021)

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Article Biochemistry & Molecular Biology

Human umbilical cord mesenchymal stem cells deliver exogenous miR-26a-5p via exosomes to inhibit nucleus pulposus cell pyroptosis through METTL14/NLRP3

Xiaoqiu Yuan et al.

Summary: The study revealed that human umbilical cord mesenchymal stem cell exosomes could protect nucleus pulposus cells from pyroptosis by targeting METTL14, thereby preventing intervertebral disc degeneration.

MOLECULAR MEDICINE (2021)

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A comparative study of mesenchymal stem cell transplantation and NTG-101 molecular therapy to treat degenerative disc disease

Ajay Matta et al.

Summary: The study demonstrated that NTG-101 has superior therapeutic effects for DDD compared to stem cell transplantation, reducing inflammation, inhibiting catabolic gene expression, and promoting activation of anabolic genes within the intervertebral disc.

SCIENTIFIC REPORTS (2021)

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Targeted therapy for intervertebral disc degeneration: inhibiting apoptosis is a promising treatment strategy

Xiao-bo Zhang et al.

Summary: Intervertebral disc degeneration (IDD) is a multifactorial pathological process associated with low back pain, with the main pathological changes being IVD cell apoptosis and extracellular matrix degradation. Targeting apoptotic pathway genes or drug inhibition may be effective in inhibiting IVD cell apoptosis and slowing IDD progression. Targeted apoptotic pathway inhibition could be an effective strategy to alleviate IDD at the gene level.

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THE NUCLEUS PULPOSUS MICROENVIRONMENT IN THE INTERVERTEBRAL DISC: THE FOUNTAIN OF YOUTH?

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Small molecule-based treatment approaches for intervertebral disc degeneration: Current options and future directions

Amir Kamali et al.

Summary: Low back pain is a major cause of disability, with symptomatic intervertebral disc degeneration contributing to a significant portion of cases. Current treatments often fail to address the root problem, leading to a need for novel therapies. Small molecule-based therapy shows potential in treating intervertebral disc degeneration, but is still in its early stages of development.

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An Injectable Hyaluronan-Methylcellulose (HAMC) Hydrogel Combined with Wharton's Jelly-Derived Mesenchymal Stromal Cells (WJ-MSCs) Promotes Degenerative Disc Repair

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