The use of anabolic agents in catabolic states

. 2007 Feb 12:6:e2.

The use of anabolic agents in catabolic states

Robert Demling¹

Affiliations

PMID: 17364003
PMCID: PMC1804253

The use of anabolic agents in catabolic states

Robert Demling. J Burns Wounds. 2007.

. 2007 Feb 12:6:e2.

Author

Robert Demling¹

Affiliation

¹ Brigham and Women's Hospital, Harvard Medical School, Boston, MA, USA. rhdemling@partners.org

PMID: 17364003
PMCID: PMC1804253

Abstract

Objective: We plan to review the current problem of lean mass erosion in catabolic states, caused by injury and critical illness. This protein loss is driven by the hormonal imbalance and excess inflammation referred to as the "stress response to injury." We then plan to provide the current concepts on the use of available anabolic agents to attenuate the excess catabolism.

Data source: The available published literature on the pathogenesis of acute catabolic states and the use of anabolic and anticatabolic agents, their indications, mechanism of action, and potential complications was reviewed.

Data extraction: The current understanding and experience of the available anabolic and anticatabolic agents as well as the rationale for the use of each anabolic agent are described.

Conclusion: We conclude that the preservation of lean body mass (body protein) is extremely important in the management of critical care populations, as lean mass loss leads to severe morbidity and increased mortality. Essentially, all of the available anabolic agents stimulate protein synthesis and decrease protein breakdown, but all have different mechanisms of action. Adequate nutrition, especially protein intake, is essential for any anabolism to occur. Combined anabolic therapy also appears to be advantageous. Although controlling the inflammatory response would also be of major benefit in further controlling protein loss, effective and safe anti-inflammatory agents have not yet become clinically available for this purpose.

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References

1. Cuthbertson D. Observations on disturbances in metabolism produced by injury to the limbs. Q J Med. 1932;25:233–243.
1. Cuthbertson D. The physiology of convalescence after injury. Br Med Bull. 1945;4:96–102.
1. Bessy PQ. Metabolic response to critical illness. ACS Surg Principles Pract. 2002:1495.
1. Biols G, Toigo G, Ciocechi B, et al. Metabolism response to injury and sepsis: changes in protein metabolism. Nutrition. 1997;13:52–57. - PubMed
1. Yao YM, Redl H, Bahrami S, Schlag G. The inflammatory basis of trama/shock-associated multiple organ failure. Inflamm Res. 1998;47:201–210. - PubMed

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[1] Cuthbertson D. Observations on disturbances in metabolism produced by injury to the limbs. Q J Med. 1932;25:233–243.

[2] Cuthbertson D. Observations on disturbances in metabolism produced by injury to the limbs. Q J Med. 1932;25:233–243.

[3] Cuthbertson D. The physiology of convalescence after injury. Br Med Bull. 1945;4:96–102.

[4] Cuthbertson D. The physiology of convalescence after injury. Br Med Bull. 1945;4:96–102.

[5] Bessy PQ. Metabolic response to critical illness. ACS Surg Principles Pract. 2002:1495.

[6] Bessy PQ. Metabolic response to critical illness. ACS Surg Principles Pract. 2002:1495.

[7] Biols G, Toigo G, Ciocechi B, et al. Metabolism response to injury and sepsis: changes in protein metabolism. Nutrition. 1997;13:52–57. - PubMed

[8] Biols G, Toigo G, Ciocechi B, et al. Metabolism response to injury and sepsis: changes in protein metabolism. Nutrition. 1997;13:52–57. - PubMed

[9] Yao YM, Redl H, Bahrami S, Schlag G. The inflammatory basis of trama/shock-associated multiple organ failure. Inflamm Res. 1998;47:201–210. - PubMed

[10] Yao YM, Redl H, Bahrami S, Schlag G. The inflammatory basis of trama/shock-associated multiple organ failure. Inflamm Res. 1998;47:201–210. - PubMed

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The use of anabolic agents in catabolic states

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The use of anabolic agents in catabolic states

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