Hans Chaudhry scite author profile

Abstract-Dynamic posturography has become an important tool for understanding standing balance in clinical settings. A key test in the NeuroCom International (Clackamas, Oregon) dynamic posturography system, the Sensory Organization Test (SOT), provides information about the integration of multiple components of balance. The SOT test leads to an outcome measure called the "equilibrium score" (ES), which reflects the overall coordination of the visual, proprioceptive, and vestibular systems for maintaining standing posture. Researchers, therapists, and physicians often use the ES from the SOT as a clinically relevant measure of standing balance. We discuss here the formula used for evaluating the ES and propose an additional measure of postural stability, called the Postural Stability Index (PSI), that accounts for shear force and individual anthropomorphic measures. We propose that this new measure provides a clinically important adjunct to the current SOT and can be calculated from data already collected by the NeuroCom forceplate during the SOT.

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Microscale Versus Nanoscale Scaffold Architecture for Mesenchymal Stem Cell Chondrogenesis

Shanmugasundaram

Chaudhry

Arinzeh

2011

Tissue Engineering Part A

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Nanofiber scaffolds, produced by the electrospinning technique, have gained widespread attention in tissue engineering due to their morphological similarities to the native extracellular matrix. For cartilage repair, studies have examined their feasibility; however these studies have been limited, excluding the influence of other scaffold design features. This study evaluated the effect of scaffold design, specifically examining a range of nano to micron-sized fibers and resulting pore size and mechanical properties, on human mesenchymal stem cells (MSCs) derived from the adult bone marrow during chondrogenesis. MSC differentiation was examined on these scaffolds with an emphasis on temporal gene expression of chondrogenic markers and the pluripotent gene, Sox2, which has yet to be explored for MSCs during chondrogenesis and in combination with tissue engineering scaffolds. Chondrogenic markers of aggrecan, chondroadherin, sox9, and collagen type II were highest for cells on micron-sized fibers (5 and 9 μm) with pore sizes of 27 and 29 μm, respectively, in comparison to cells on nano-sized fibers (300 nm and 600 to 1400 nm) having pore sizes of 2 and 3 μm, respectively. Undifferentiated MSCs expressed high levels of the Sox2 gene but displayed negligible levels on all scaffolds with or without the presence of inductive factors, suggesting that the physical features of the scaffold play an important role in differentiation. Micron-sized fibers with large pore structures and mechanical properties comparable to the cartilage ECM enhanced chondrogenesis, demonstrating architectural features as well as mechanical properties of electrospun fibrous scaffolds enhance differentiation.

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Three-Dimensional Mathematical Model for Deformation of Human Fasciae in Manual Therapy

Chaudhry¹,

Schleip²,

Ji³

et al. 2008

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Optimal patterns for suturing wounds

Chaudhry

Bukiet

Siegel

et al. 1998

Journal of Biomechanics

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Residual stresses in oscillating thoracic arteries reduce circumferential stresses and stress gradients

Chaudhry

Bukiet

Davis

et al. 1997

Journal of Biomechanics

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Optimal patterns for suturing wounds of complex shapes to foster healing

Lott-Crumpler

Chaudhry

2001

Journal of Biomechanics

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Fascia research – A narrative review

Findley

Chaudhry

Stecco

et al. 2012

Journal of Bodywork and Movement Therapies

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Hans Chaudhry

Measurement of balance in computer posturography: Comparison of methods—A brief review

Measures of postural stability

Microscale Versus Nanoscale Scaffold Architecture for Mesenchymal Stem Cell Chondrogenesis

Three-Dimensional Mathematical Model for Deformation of Human Fasciae in Manual Therapy

Optimal patterns for suturing wounds

Residual stresses in oscillating thoracic arteries reduce circumferential stresses and stress gradients

Optimal patterns for suturing wounds of complex shapes to foster healing

Fascia research – A narrative review

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