PURPOSE OF REVIEW: The loss of skeletal muscle with injury or critical illness can be dramatic. This review emphasizes the importance of skeletal muscle as a metabolic reserve. Changes in protein metabolism with bed rest alone and during physiological stress are discussed. Nutritional and hormonal interventions that ameliorate the loss of skeletal muscle are highlighted. RECENT FINDINGS: The loss of skeletal muscle that occurs with inactivity alone can be prevented by nutritional supplementation with an essential amino acid formula. Bed rest with accompanying hypercortisolemia produces a threefold greater loss of skeletal muscle than bed rest alone. Essential amino acids stimulate muscle anabolism during acute hypercortisolemia; however, their effects during chronic hypercortisolemia must be explored. SUMMARY: Skeletal muscle loss with trauma or critical illness is due in great part to the interaction of bed rest (muscular inactivity) and stress (hypercortisolemia). Younger individuals respond to nutritional and pharmacological interventions during bed rest alone. Given a lower relative lean mass in the elderly and the importance of skeletal muscle as a metabolic reserve during stress, it is understandable that clinical outcomes are worse in older patients. Countermeasures to the loss of skeletal muscle, especially in the stressed patient, must be developed.
PURPOSE OF REVIEW: The loss of skeletal muscle with injury or critical illness can be dramatic. This review emphasizes the importance of skeletal muscle as a metabolic reserve. Changes in protein metabolism with bed rest alone and during physiological stress are discussed. Nutritional and hormonal interventions that ameliorate the loss of skeletal muscle are highlighted. RECENT FINDINGS: The loss of skeletal muscle that occurs with inactivity alone can be prevented by nutritional supplementation with an essential amino acid formula. Bed rest with accompanying hypercortisolemia produces a threefold greater loss of skeletal muscle than bed rest alone. Essential amino acids stimulate muscle anabolism during acute hypercortisolemia; however, their effects during chronic hypercortisolemia must be explored. SUMMARY: Skeletal muscle loss with trauma or critical illness is due in great part to the interaction of bed rest (muscular inactivity) and stress (hypercortisolemia). Younger individuals respond to nutritional and pharmacological interventions during bed rest alone. Given a lower relative lean mass in the elderly and the importance of skeletal muscle as a metabolic reserve during stress, it is understandable that clinical outcomes are worse in older patients. Countermeasures to the loss of skeletal muscle, especially in the stressed patient, must be developed.
Authors: Michelle E Kho; Alexander D Truong; Roy G Brower; Jeffrey B Palmer; Eddy Fan; Jennifer M Zanni; Nancy D Ciesla; Dorianne R Feldman; Radha Korupolu; Dale M Needham Journal: Phys Ther Date: 2012-03-15
Authors: Mohammed A S Khan; Nita Sahani; Kevin A Neville; Michio Nagashima; Sangseok Lee; Tomoki Sasakawa; Masao Kaneki; J A Jeevendra Martyn Journal: Can J Physiol Pharmacol Date: 2013-08-13 Impact factor: 2.273
Authors: M Sheffield-Moore; E L Dillon; K M Randolph; S L Casperson; G R White; K Jennings; J Rathmacher; S Schuette; M Janghorbani; R J Urban; V Hoang; M Willis; W J Durham Journal: J Cachexia Sarcopenia Muscle Date: 2013-09-06 Impact factor: 12.910
Authors: Charles E Wade; Lisa A Baer; Xiaowu Wu; David T Silliman; Thomas J Walters; Steven E Wolf Journal: Crit Care Date: 2013-10-07 Impact factor: 9.097
Authors: Nadja Scherbakov; Charlotte Pietrock; Anja Sandek; Nicole Ebner; Miroslava Valentova; Jochen Springer; Joerg C Schefold; Stephan von Haehling; Stefan D Anker; Kristina Norman; Karl Georg Haeusler; Wolfram Doehner Journal: J Cachexia Sarcopenia Muscle Date: 2019-01-24 Impact factor: 12.910