Ce fut un grand bonheur de travailler avec lui dans
ses différentes fonctions tout Ruxolitinib solubility dmso en étant un challenge permanent dans la quête de l’excellence. Il nous manque beaucoup. Nous présentons nos condoléances attristées à sa compagne et à sa famille. “
“En page 89 de l’article, dans le paragraphe 4.2 « Prise en charge du syndrome de renutrition inappropriée », il faut lire « Il est proposé : • De couvrir les besoins moyens de 800 mg/j de phosphore avec des produits laitiers ou une supplémentation orale en phosphore lors d’une renutrition orale/entérale ou avec 15 mmol/L (465 mg/L) (et non 45 mg/L) de phosphore intraveineux lors d’une nutrition parentérale. “
“La fiche « Prévention et traitement de la thrombose sur cathéter veineux central en nutrition parentérale » associée à cet article a été omise dans le no 3-2012 de la Revue. Vous la trouverez publiée dans les pages suivantes. Nous prions les auteurs et nos lecteurs de nous excuser pour cette erreur. “
“Myostatin/growth and differentiation
factor 8 (Mstn/GDF8) is a member of the bone morphogenetic protein/transforming growth factor-β (BMP/TGFβ) superfamily of secreted differentiation factors. Myostatin null mice (Mstn−/−) develop muscles that are 100–200% larger than littermate controls due to a combination selleck screening library of muscle fiber hyperplasia and hypertrophy [1]. Consistent with its role in mice, genetic loss of myostatin has been associated with increased muscle mass in many different species including sheep [2], cattle [3], [4] and [5], zebrafish [6] and [7], dogs eltoprazine [8] and [9] and humans [9]. Importantly, dogs with only a single functional myostatin allele have improved muscle function [9]. Pharmacological inhibition of myostatin activity in rodents by administration of either neutralizing myostatin antibodies, mutant myostatin propeptides or decoy myostatin receptor-fusion proteins results in increased muscle mass and improved muscle function in both normal and dystrophic animals [11]. In addition, a soluble decoy receptor administered in a single ascending dose study in humans resulted
in increased muscle mass as measured by MRI [12]. Collectively, the data imply that inhibiting myostatin activity in humans may result in increased muscle mass and function in a variety of muscle disorders including muscular dystrophy, cancer cachexia, disuse atrophy and sarcopenia. The biological function of myostatin in skeletal muscle is well studied and new roles for myostatin in other physiological systems are beginning to emerge. Myostatin has been viewed as a myokine [13] and [14] and its expression has been detected in white fat, cardiomyocytes and bone, suggesting that myostatin may regulate homeostasis in all of these tissues [15] and [16]. Myostatin was shown to inhibit adipogenesis in primary pre-adipocyte bovine cultures and has been implicated in adipocyte proliferation [17].