RAD-140 and SLU-PP-332 Interaction

Avoid
Mechanism-based 53% confidence

RAD-140 and SLU-PP-332 have a potentially harmful interaction with 53% confidence. Both RAD-140 and SLU-PP-332 carry hepatotoxic risk. Combining hepatotoxic compounds significantly increases liver damage potential. If unavoidable, include liver support (TUDCA/NAC) and monitor ALT/AST frequently. These compounds primarily affect different organ systems.

Compound Profiles

RAD-140

Selective Androgen Receptor Modulator | Investigational SARM

RAD-140 binds to the androgen receptor (AR) with high affinity and selectivity, functioning as a full agonist in muscle and bone tissue while exhibiting minimal agonist activity in the prostate and other androgen-sensitive tissues. This tissue selectivity is achieved through differential cofactor recruitment: upon binding to the AR, RAD-140 induces a conformational change that favors interaction with coactivators predominantly expressed in skeletal muscle and bone, rather than those prevalent in prostate or sebaceous glands.

Half-life: ~60 hours Typical dose: 10-20 mg/day sarm, anabolic
androgen receptorepo receptor androgenicblood pressure raisingcarcinogenic riskcrosses bbb
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SLU-PP-332

Synthetic Pan-ERR Agonist | Exercise Mimetic & Metabolic Modulator

Binds and activates ERRα/β/γ which regulate energy metabolism gene expression. Upregulates PGC-1α (mitochondrial biogenesis master regulator), activates AMPK pathway, increases mitochondrial density to 1.

Half-life: Under investigation (no human PK data) Typical dose: NO HUMAN DOSE ESTABLISHED (animal studies: 50 mg/kg IP) metabolic, longevity
ampk hepatotoxicinsulin disrupting
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Combined Organ Load

Gonads
moderate
Liver
moderate
Heart
low
Pancreas
low

Shared Safety Flags

2x 2 hepatotoxic compounds (RAD-140, SLU-PP-332). Liver damage risk significantly increased. Include liver support (TUDCA/NAC) and monitor ALT/AST.

Frequently Asked Questions

Can I take RAD-140 with SLU-PP-332?

Combining RAD-140 with SLU-PP-332 is not recommended. Both RAD-140 and SLU-PP-332 carry hepatotoxic risk. Combining hepatotoxic compounds significantly increases liver damage potential. If unavoidable, include liver support (TUDCA/NAC) and monitor ALT/AST frequently.

Is RAD-140 and SLU-PP-332 safe together?

This combination carries significant risk. Both RAD-140 and SLU-PP-332 carry hepatotoxic risk. Combining hepatotoxic compounds significantly increases liver damage potential. If unavoidable, include liver support (TUDCA/NAC) and monitor ALT/AST frequently. Consult a healthcare professional before combining.

What are the interactions between RAD-140 and SLU-PP-332?

Both RAD-140 and SLU-PP-332 carry hepatotoxic risk. Combining hepatotoxic compounds significantly increases liver damage potential. If unavoidable, include liver support (TUDCA/NAC) and monitor ALT/AST frequently. This assessment has 53% confidence and is inferred from pharmacological mechanism analysis.

How should I time RAD-140 and SLU-PP-332?

RAD-140 has a half-life of ~60 hours and SLU-PP-332 has a half-life of Under investigation (no human PK data). No specific timing requirements identified for this combination, but separating administration can help monitor individual effects.

Check this pair in the full Interaction Checker Full comparison: RAD-140 vs SLU-PP-332

This interaction analysis is compiled from research literature and pharmacological mechanism data. This assessment is inferred from known mechanisms and may not reflect all real-world outcomes. Always consult a healthcare professional before combining compounds.