Rachel Yerden scite author profile

The human intervertebral disc (IVD) is a complex organ composed of fibrous and cartilaginous connective tissues, and it serves as a boundary between 2 adjacent vertebrae. It provides a limited range of motion in the torso as well as stability during axial compression, rotation, and bending. Adult IVDs have poor innate healing potential due to low vascularity and cellularity. Degenerative disc disease (DDD) generally arises from the disruption of the homeostasis maintained by the structures of the IVD, and genetic and environmental factors can accelerate the progression of the disease. Impaired cell metabolism due to pH alteration and poor nutrition may lead to autophagy and disruption of the homeostasis within the IVD and thus plays a key role in DDD etiology. To develop regenerative therapies for degenerated discs, future studies must aim to restore both anatomical and biomechanical properties of the IVDs. The objective of this review is to give a detailed overview about anatomical, radiological, and biomechanical features of the IVDs as well as discuss the structural and functional changes that occur during the degeneration process.

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Single-Cell Phenotyping of Complex Heterogeneous Tissue

Kraus

Sipes

et al. 2018

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A quantitative and qualitative RNA expression profiling assay for cell culture with single cell resolution

et al. 2017

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Cells are often characterized by their gene expression profile. However, commonly used methods to detect mRNA require cell pooling and could therefore mask differences in gene expression within heterogeneous cell populations. qPISH allows for the analysis of both qualitative and quantitative (q) gene expression on cultured cells for quality control measures with single cell resolution. qPISH was optimized for the subsequent use of two alkaline phosphatase substrates in combination with a cell nucleus count to allow for accurate quantification of gene expression per cell and simultaneously qualitative assessment of potential culture population drift or heterogeneity. As proof of principle the assay was applied to cell lines derived from different areas of the bovine intervertebral disc, showing significant difference in the expression of Col1a1, Col2a1, Acan and Sox9. Furthermore, the assay served to explore a potential impact on cultured cells when substituting a critical media component, fetal bovine serum (FBS), suggesting no significant difference in gene expression for the biomarkers analyzed. As a tool, qPISH serves as an accurate quality control with single cell resolution for cultured cells.

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Single-Cell Phenotyping of Complex Heterogeneous Tissue

Kraus

Sipes

et al. 2021

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Rachel Yerden

RNA in situ hybridization characterization of non-enzymatic derived bovine intervertebral disc cell lineages suggests progenitor cell potential

Pathomechanism and Biomechanics of Degenerative Disc Disease: Features of Healthy and Degenerated Discs

Single-Cell Phenotyping of Complex Heterogeneous Tissue

A quantitative and qualitative RNA expression profiling assay for cell culture with single cell resolution

Single-Cell Phenotyping of Complex Heterogeneous Tissue

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