Sepsis Clinical Trial
Official title:
Dysfunctions of Human Muscle Stem Cells in Sepsis
Severe critical illness is often complicated by Intensive Care Unit - Acquired Weakness (ICU-AW), which is associated with increased in and post-ICU mortality, with delayed weaning from mechanical ventilation and with long-term functional. Several mechanisms have been incriminated in the pathophysiology of ICU-AW, but muscle regeneration has not been well investigated in this context, even though its involvement is suggested by the protracted functional consequences of ICU-AW. Recent data suggest that muscle regeneration could be impaired after sepsis, and that Mesenchymal Stem Cells (MSCs) treatment could improve the post-injury muscle recovery.
Severe critical illness is often complicated by Intensive Care Unit - Acquired Weakness
(ICU-AW), which is clinically characterized by bilateral and symmetrical limb weakness and is
related to a myopathy and/or axonal polyneuropathy. ICU-AW affects between 25% to 60%
mechanically ventilated patients more than 7 days and is associated with increased in and
post-ICU mortality, with delayed weaning from mechanical ventilation and with long-term
functional disability. Most patients who develop an ICU-AW have been admitted for a sepsis
episode and the main risk factors of ICU-AW include the severity of critical illness,
immobilization, hyperglycemia and the use of some medications including steroids and
neuromuscular agents, although this is somewhat controversial.
The pathophysiology of critical illness myopathy is thought to involve the following
mechanisms: 1) impairment of muscular membrane excitability, secondary to an dysregulation of
sodium channel gating, 2) mitochondrial dysfunction leading to bioenergetic failure and
oxidative stress and 3) proteolysis, mainly related an activation of the ubiquitin-proteasome
pathway. These mechanisms can be triggered by various factors, notably systemic inflammatory
mediators, endocrine dysfunction, immobilization, some drugs and electrolyte disturbances.
The protracted functional consequences of ICU-AW indicate that muscle regeneration is also
impaired. Surprisingly, muscle regeneration, which essentially depends on the muscle stem
cells (also called satellite cells), has not been well investigated in the context of
critical illness. The satellite cells (SC), that are located at the periphery of the muscle
fiber, are activated in response to any muscle injury and then proliferate and differentiate
to repair or replace the damaged fibers, but also self-renew to replenish the muscle stem
cells reservoir.
It was recently demonstrated in a murine model of polymicrobial peritonitis that SC
activation, proliferation and expression of myogenic markers were impaired after sepsis,
leading to an impaired muscle regeneration, but that post-sepsis intramuscular administration
of exogenous Mesenchymal Stem Cells (MSCs) could reverse this SC dysfunction. MSC treatment
significantly improved the post-injury muscle recovery with decreasing necrosis and fibrosis
but also increased the force of isolated single fibers.
The objectives of this translational research are to identify the mechanisms of Human SC
dysfunction in patients with severe sepsis, to describe in vitro the effects of MSCs on this
SC dysfunction, and to study hematopoietic cells and their damage in the blood and muscle
consecutively to a sepsis, and their interaction with muscle stem cells.
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