Developing Educational Resources to Advance Umbilical Cord Blood Banking and Research: A Canadian Perspective.

In 2013 Canadian Blood Services (CBS) launched the National Public Cord Blood Bank (NPCBB), a program to collect, process, test, and store cord blood units donated for use in transplantation. A key component of the creation of the NPCBB is the establishment of a program that enables cord blood not suitable for banking or transplantation to be used for biomedical research purposes. Along with the development of processes and policies to manage the NPCBB and the cord blood research program, CBS-in collaboration with researchers from the Stem Cell Network-have also developed educational tools to provide relevant information for target audiences to aid implementation and operation.

Platelet utilization: a Canadian Blood Services research and development symposium.

Considerable progress has been made in recent years in understanding platelet biology and in strengthening the clinical evidence base around platelet transfusion thresholds and appropriate platelet dosing. Platelet alloimmunization rates have also declined. Nevertheless, controversies and uncertainties remain that are relevant to how these products can best be used for the benefit of platelet transfusion recipients.

MyoD- and nerve-dependent maintenance of MyoD expression in mature muscle fibres acts through the DRR/PRR element.

Background: MyoD is a transcription factor implicated in the regulation of adult muscle gene expression. Distinguishing the expression of MyoD in satellite myoblasts and muscle fibres has proved difficult in vivo leading to controversy over the significance of MyoD expression within adult innervated muscle fibres. Here we employ the MD6.

Distinct roles for Pax7 and Pax3 in adult regenerative myogenesis.

We assessed viable Pax7(-/-) mice in 129Sv/J background and observed reduced growth and marked muscle wasting together with a complete absence of functional satellite cells. Acute injury resulted in an extreme deficit in muscle regeneration. However, a small number of regenerated myofibers were detected, suggesting the presence of residual myogenic cells in Pax7-deficient muscle.

Cellular and molecular regulation of muscle regeneration.

Under normal circumstances, mammalian adult skeletal muscle is a stable tissue with very little turnover of nuclei. However, upon injury, skeletal muscle has the remarkable ability to initiate a rapid and extensive repair process preventing the loss of muscle mass. Skeletal muscle repair is a highly synchronized process involving the activation of various cellular responses.

Aging-related satellite cell differentiation defect occurs prematurely after Ski-induced muscle hypertrophy.

To investigate the cause of skeletal muscle weakening during aging we examined the sequence of cellular changes in murine muscles. Satellite cells isolated from single muscle fibers terminally differentiate progressively less well with increasing age of donor. This change is detected before decline in satellite cell numbers and all histological changes examined here.