Menu
Peptide Database
Results
No peptides found
Featured

Use search to browse all 100+ peptides

Retatrutide

LY3437943, LY-3437943

Quick Stats
Studies 83
Trials 32
Score 4
2024 pubmed 60 citations

The impact of weight loss on fat-free mass, muscle, bone and hematopoiesis health: Implications for emerging pharmacotherapies aiming at fat reduction and lean mass preservation.

Stefanakis. Konstantinos K; Kokkorakis. Michail M; Mantzoros. Christos S CS

Key Findings

  • Incretin receptor agonists cause substantial weight loss but also lead to ~25% loss of fat‑free mass (muscle, bone, blood).
  • The myostatin‑activin‑follistatin pathway drives muscle breakdown during calorie deficit; blocking it can preserve lean tissue.
  • Experimental agents that inhibit myostatin/activin (Bimagrumab, Trevogrumab, Garetosmab) have shown promise in preventing muscle loss while still promoting fat loss.

Practical Outcomes

  • When using powerful weight‑loss peptides like retatrutide, monitor your muscle and bone health (e.g., DEXA scans, strength tests). Consider adding a myostatin/activin blocker or a supplement that supports the follistatin pathway if you’re older or pre‑frail. Pairing these agents may let you lose fat without sacrificing muscle, improving overall metabolic health and performance.

Summary

Big weight‑loss drugs like tirzepatide (and the newer retatrutide) can drop 15‑25% of body weight, but about a quarter of that loss is muscle and bone, which can hurt health, especially as you age. New drugs that block myostatin/activin (e.g., Bimagrumab, Trevogrumab, Garetosmab) may help keep muscle and bone while you lose fat, and combining them with incretin agonists could give a better body‑composition outcome.

Abstract

Similar to bariatric surgery, incretin receptor agonists have revolutionized the treatment of obesity, achieving up to 15-25 % weight loss in many patients, i.e., at a rate approaching that achieved with bariatric surgery. However, over 25 % of total weight lost from both surgery and pharmacotherapy typically comes from fat-free mass, including skeletal muscle mass, which is often overlooked and can impair metabolic health and increase the risk of subsequent sarcopenic obesity. Loss of muscle and bone as well as anemia can compromise physical function, metabolic rate, and overall health, especially in older adults. The myostatin-activin-follistatin-inhibin system, originally implicated in reproductive function and subsequently muscle regulation, appears to be crucial for muscle and bone maintenance during weight loss. Activins and myostatin promote muscle degradation, while follistatins inhibit their activity in states of negative energy balance, thereby preserving lean mass. Novel compounds in the pipeline, such as Bimagrumab, Trevogrumab, and Garetosmab-which inhibit activin and myostatin signaling-have demonstrated promise in preventing muscle loss while promoting fat loss. Either alone or combined with incretin receptor agonists, these medications may enhance fat loss while preserving or even increasing muscle and bone mass, offering a potential solution for improving body composition and metabolic health during significant weight loss. Since this dual therapeutic approach could help address the challenges of muscle and bone loss during weight loss, well-designed studies are needed to optimize these strategies and assess long-term benefits. For the time being, considerations like advanced age and prefrailty may affect the choice of suitable candidates in clinical practice for current and emerging anti-obesity medications due to the associated risk of sarcopenia.

Study Information

Provider

pubmed

Year

2024

Date

2024-10-30T00:00:00.000Z

DOI

10.1016/j.metabol.2024.156057

Citations

60

References

256