Key Takeaways:
- SARMs and peptides mechanisms of action
- Areas of growth and tissue repair that researchers are investigating for potential benefits associated with SARMs and peptides
- The current legal standing regarding the use and distribution of SARMs and peptides?
- How to decide between SARMs and peptides as a focus of study.
SARMs have been attracting researchers for years due to their potential health benefits. Selective androgen receptor modulators, SARMs for short, have anabolic properties, but are not anabolic steroids. However, they have been shown to be effective for rebuilding muscle, healing tissue, and other benefits.
Peptides are naturally occurring chains of amino acids found in the body. They are used to support many necessary functions and processes such as supporting joints and overall health.
Synthetic peptide derivatives do a great job of mimicking the effects of natural peptides. They may be beneficial for growth and healing within the body. For example, there are growth hormones releasing peptides, and peptides that have an effect on muscle building.
It’s essential to understand the differences between SARMs and peptides to avoid any confusion about them and understand how researchers can apply them to the growth and repair of tissue in their studies.
This guide highlights the key differences between SARMs and peptides, their applications, and currently available research.
What Are SARMs?
SARMs are not anabolic steroids. They are investigational compounds only, with researchers working to determine the extent of their benefits to the human body. Research on SARMs has expanded in recent years, but scientific backing on the topic still has a long way to go.
As ligands of the androgen receptors (ARs), SARMs interact with ARs on a selective basis as agonists or antagonists. This is a core element of what separates and differentiates them from steroids and natural androgens.
SARMs have the ability to target different androgen receptors in specific tissues. They can also be engineered to avoid other androgen receptors in the same process, which helps limit unwanted side effects. This is what has researchers looking toward targeting growth and tissue repair applications.
Preliminary research has also displayed numerous benefits associated with various SARMs compounds. The anabolic properties of SARMs have been shown to increase muscle mass and boost endurance, which also indicates their efficacy in tissue healing and muscle recovery.
Current research focuses on the potential benefits of administering SARMs for a variety of health conditions.
This includes the following:
- Muscle atrophy
- Osteoporosis
- Metabolism disorders
- Neurologic conditions
The available research on SARMs may be relatively limited, but current findings bode well for the future development of SARMs compounds. The tissue-selective nature of different SARMs allows researchers to create SARMs products to specifically target various types of tissue growth and recovery.
The use cases and potential health benefits of SARMs must be differentiated from peptides, which have an entirely distinct focus.
What Are Peptides?
Peptides are short chains of amino acids linked by peptide bonds. It’s important to note the distinction that longer amino acid sequence chains are known as proteins. Some polypeptide chains comprising 50 or fewer amino acids have shown clinical significance in helping burn fat and build muscle.
Peptides naturally occur in the body, but researchers also focus on SP functionality and health benefits.
Research has so far indicated that certain peptides help to increase the release of growth hormones, among other mechanisms that are beneficial for tissue growth and repair.
The application of SP may not only enhance cell attachment but also induce cell signaling pathways, promoting many modulatory biochemical responses in the body.
SARMs vs Peptides
SARMs and peptides are both research chemicals, but their chemical composition is one of their core differences. SARMs are small molecules that are able to selectively bind to different androgen receptors in the body.
Peptides operate a bit differently, as they’re short amino acids chains that can act as signaling molecules. This process helps regulate and improve various cellular functions, such as tissue repair. Both can promote things such as muscle tissue, in their own ways, and their associated potential benefits include the following:
Tissue Repair Promoted by SARMs
What makes SARMs unique regarding tissue growth, and repair is their tissue selectivity. Varying compounds of SARMs can be created to target different use cases by activating androgenic signaling.
Their ability to be tissue-selective requires further research, but findings are promising across the board. From wound healing tissue and muscle repair, the applications for SARMs continue to widen as more research is performed.
Tissue Repair Promoted by Peptides
There are various ways synthetic peptides may prompt tissue repair – whether through the production of extracellular matrix proteins or inducing angiogenesis, peptides are relatively adaptable. There are also a variety of peptides for injury recovery available at this time, some with demonstrated positive effects.
Peptides are able to mimic the functionality and structure of natural growth processes, which may benefit the action of tissue growth and repair.
The similarities and differences of SARMs and peptides for muscle growth and tissue repair is essential information when choosing between SARMs and peptides for research, as their various compounds serve specific purposes.
Choosing Between SARMs and Peptides
It’s essential to consider the outcome you’re testing for when choosing between SARMs and peptides. Research is heavily underway for both, but researchers should also consider the desired results and their cost.
Some of the peptides that have been researched specifically for muscle growth and tissue repair benefits include the following:
- Ipamorelin
- BPC-157
- MOTS-c
There are various SARMs that are excellent candidates for research on tissue growth and repair, including these:
- Ostarine (MK-2866)
- Testolone (RAD-140)
There is a great deal of research available on these compounds, and scientists are coming across new discoveries and applications with each passing year. It’s important to thoroughly understand the research surrounding SARMs and peptides before deciding which is best for your research purposes.
GHK-cu and collagen synthesis
Another peptide that is known for improving collagen synthesis and may potentially be added to the list of peptides for tissue healing is GHK cu. The structure and mechanism of action of GHK cu may play a role in it’s contribution towards protein synthesis but think link remains to be observed.
- TB500 5mg$69.99
- BPC 157 5mg$59.99
- Ostarine MK-2866 (liquid) – 25MG/ML$54.99
Visit Sports Technology Labs for SARMs and Peptides Research Products
The research is becoming increasingly clearer regarding the wide variety of potential benefits SARMs and peptides have to offer, but more research must be conducted to validate these findings.
From a research standpoint, having a few questions is understandable, especially if you’re looking for specific research outcomes from different compounds.
Visit the Sports Technology Labs blog for current news, scientific literature, product updates, industry news, and additional information on SARMs vs peptides. Sports Technology Labs has everything you might need if you’re looking for high-quality compounds of SARMs and peptides.
Scientific References:
1. Zachary J. Solomon, Jorge Rivera Mirabal, M.D., Daniel J. Mazur, M.D., Taylor P. Kohn, Larry I. Lipshultz, M.D., and Alexander W. Pastuszak, M.D. Ph.D. P. (Nov. 30, 2018). Selective Androgen Receptor Modulators (SARMs) – Current Knowledge and Clinical Applications. National Library of Medicine.
2. S. BHASIN P. (July 10, 2018). Selective Androgen Receptor Modulators as Function Promoting Therapies. National Library of Medicine 2018
3. Katsuhiro Hosoyama, Caitlin Lazurko, Marcelo Muñoz, Christopher D. McTiernan, and Emilio I. Alarcon. P. (Aug. 23, 2019). Peptide-Based Functional Biomaterials for Soft-Tissue Repair. National Library of Medicine. 2019
4. Puskas, J. (2022). Pre-clinical assessment of the selective androgen receptor modulator RAD140 to increase muscle mass and bone mineral density (Doctoral dissertation).
5. Braverman, E. R., Pfeiffer, C. C., Blum, K., & Smayda, R. (2003). The healing nutrients within: facts, findings, and new research on amino acids.Basic Health Publications, Inc.