Assessment of Skeletal Muscle Contractile Properties by Radial Displacement: The Case for Tensiomyography

Skeletal muscle operates as a near-constant volume system; as such muscle shortening during contraction is transversely linked to radial deformation. Therefore, to assess contractile properties of skeletal muscle, radial displacement can be evoked and measured. Mechanomyography measures muscle radial displacement and during the last 20 years, tensiomyography has become the most commonly used and widely reported technique among the various methodologies of mechanomyography. Tensiomyography has been demonstrated to reliably measure peak radial displacement during evoked muscle twitch, as well as muscle twitch speed. A number of parameters can be extracted from the tensiomyography displacement/time curve and the most commonly used and reliable appear to be peak radial displacement and contraction time. The latter has been described as a valid non-invasive means of characterising skeletal muscle, based on fibre-type composition. Over recent years, applications of tensiomyography measurement within sport and exercise have appeared, with applications relating to injury, recovery and performance. Within the present review, we evaluate the perceived strengths and weaknesses of tensiomyography with regard to its efficacy within applied sports medicine settings. We also highlight future tensiomyography areas that require further investigation. Therefore, the purpose of this review is to critically examine the existing evidence surrounding tensiomyography as a tool within the field of sports medicine

Assignment of genes encoding GABAA receptor subunits alpha 1, alpha 6, beta 2, and gamma 2 to a YAC contig of 5q33.

A gene cluster consisting of the four gamma-aminobutyric acidA (GABAA) receptor subunit genes GABRA1, GABRA6, GABRAB2, and GABRG2 was assigned to a yeast artificial chromosome (YAC) contig of 5q33. Two of the 26 YACs of the contig are positive for all four subunit genes. The order of the GABR subunit genes with respect to known anonymous gene loci is cen-D5S380 - D5S403 - D5S529 - GABRB2 - GABRA1/A6 - GABRG2-D 5S422-tel. This novel YAC contig lies between known YAC contigs of 5q34/q35 and 5q31-q33

Consortium fine localization of X-linked Charcot-Marie-Tooth disease (CMTX1): additional support that connexin32 is the defect in CMTX1.

Charcot-Marie-Tooth (CMT) disease is the most common form of inherited motor and sensory neuropathy. X-linked CMT (CMTX1) has been localized to the pericentric region of the X chromosome. Recently, mutations have been defined in the connexin32 gene that cosegregate with the CMTX1 phenotype in several families. The present paper presents the results of an international consortium to fine map the gene for CMTX1 to a small segment of Xq12-13. The linkage data, together with the molecular genetic studies, support the hypothesis that connexin32 is the genetic defect in CMTX1

Integrated physical and transcript map of 5q31.3-qter

We have constructed a physical and transcript map of 5q31.3-qter. The contig comprises 173 yeast artificial chromosomes (YACs) to which 159 sequence tagged sites (STSs), 47 expressed sequence tags (ESTs), and 32 genes were assigned. Previously published partial YAC contigs of the region have been refined and integrated. Given that the region contains 25 Mbp of DNA the average spacing of markers is approximately 100 kb

Integrated physical and transcript map of 5q31.3-qter.

We have constructed a physical and transcript map of 5q31.3-qter. The contig comprises 173 yeast artificial chromosomes (YACs) to which 159 sequence tagged sites (STSs), 47 expressed sequence tags (ESTs), and 32 genes were assigned. Previously published partial YAC contigs of the region have been refined and integrated. Given that the region contains 25 Mbp of DNA the average spacing of markers is approximately 100 kb

Consortium fine localization of X-linked Charcot-Marie-Tooth disease (CMTX1): additional support that connexin32 is the defect in CMTX1.

Charcot-Marie-Tooth (CMT) disease is the most common form of inherited motor and sensory neuropathy. X-linked CMT (CMTX1) has been localized to the pericentric region of the X chromosome. Recently, mutations have been defined in the connexin32 gene that cosegregate with the CMTX1 phenotype in several families. The present paper presents the results of an international consortium to fine map the gene for CMTX1 to a small segment of Xq12-13. The linkage data, together with the molecular genetic studies, support the hypothesis that connexin32 is the genetic defect in CMTX1