Description
100 in stock
What Is the Performance Research Stack?
The Performance Research Stack is formulated exclusively for laboratory research and investigational use. This stack brings together three well-characterized research peptides commonly studied for their roles in growth hormone signaling dynamics, recovery-associated pathways, and mitochondrial metabolic regulation studies based on or around high-output and in factors where the study’s need to stay strong, recover efficiently, and perform consistently between intense training cycles..
Original price was: $100.00.$90.00Current price is: $90.00.
| Peptide | Individual Price |
|---|---|
| CJC-1295 (No DAC) | $00.00 |
| Ipamorelin | $00.00 |
| MOTS-c | $00.00 |
| TOTAL (If Purchased Separately) | $00.00 |
| BUNDLE PRICE (20% OFF) | $00.00 |
| YOU SAVE | $00.00 |
100 in stock
Buy 5 and save 5%
$00.00 each
Buy 10 and save 10%
$000.00 each
Pairs well with
Peptides are not ready to use. Must purchase BAC water for reconstitution.
Performance Research
Stack
EXPLORE PERFORMANCE
RESEARCH STACK
WHAT’S INCLUDED (3
Peptides)
CJC-1295 (No DAC)
10mg vial – Quantity: 1 (12-week research allocation)
Research Focus: Growth Hormone Signaling Modulation
Description: CJC-1295 (No DAC) is a growth hormone–releasing hormone (GHRH) analog commonly used in research settings to examine pulsatile GH signaling patterns without sustained receptor activation.
Research Attributes:
Research Focus: Growth Hormone Signaling Modulation
Description: CJC-1295 (No DAC) is a growth hormone–releasing hormone (GHRH) analog commonly used in research settings to examine pulsatile GH signaling patterns without sustained receptor activation.
Research Attributes:
- Short-acting GHRH pathway activation
- Supports investigation of GH pulse dynamics
- Commonly used in longevity and recovery signaling studies
- No DAC modification for transient signaling analysis
Ipamorelin
What it is: A pentadecapeptide composed of 15 amino acids, often researched for its potent regenerative properties.
How it works: It is studied for its ability to accelerate the healing of various tissues, including tendons, ligaments, and muscle, by promoting angiogenesis and modulating the body's natural repair mechanisms.
How it works: It is studied for its ability to accelerate the healing of various tissues, including tendons, ligaments, and muscle, by promoting angiogenesis and modulating the body's natural repair mechanisms.
MOTS-c
What it is: A pentadecapeptide composed of 15 amino acids, often researched for its potent regenerative properties.
How it works: It is studied for its ability to accelerate the healing of various tissues, including tendons, ligaments, and muscle, by promoting angiogenesis and modulating the body's natural repair mechanisms.
How it works: It is studied for its ability to accelerate the healing of various tissues, including tendons, ligaments, and muscle, by promoting angiogenesis and modulating the body's natural repair mechanisms.
KEY RESEARCH
HIGHLIGHTS
Synergistic Growth Signaling
Utilizing the gold-standard combination of CJC-1295 (No DAC) and Ipamorelin to investigate the amplification of natural Growth Hormone pulses. This pairing is studied for its ability to enhance anabolic signaling without the receptor desensitization common in sustained-release models.
Title
Utilizing the synergistic combination of Ipamorelin (10mg) and CJC-1295 Without DAC (10mg) to study natural growth hormone release for research into muscle hypertrophy and metabolic regulation.
Metabolic Flexibility & Resilience
Utilizing the synergistic combination of Ipamorelin (10mg) and CJC-1295 Without DAC (10mg) to study natural growth hormone release for research into muscle hypertrophy and metabolic regulation.
Selective Endocrine Precision
Utilizing the synergistic combination of Ipamorelin (10mg) and CJC-1295 Without DAC (10mg) to study natural growth hormone release for research into muscle hypertrophy and metabolic regulation.
Accelerated Recovery Signaling
Utilizing the synergistic combination of Ipamorelin (10mg) and CJC-1295 Without DAC (10mg) to study natural growth hormone release for research into muscle hypertrophy and metabolic regulation.
RESEARCH STACK RATIONALE
This research stack is designed to explore the interaction between:
- Hormonal signaling modulation (CJC-1295 no DAC)
- Recovery-associated and sleep-linked pathways (Ipamorelin)
- Mitochondrial metabolic efficiency mechanisms (MOTS-c)
Together, these compounds provide a structured framework for advanced metabolic and performance-adjacent research without chronic pathway overstimulation.
12-WEEK RESEARCH FRAMEWORK
Study Structure Overview:
- CJC-1295 (No DAC): Short-acting signaling exposure, 5x per week
- Ipamorelin: Selective recovery-pathway exposure, 5x per week
- MOTS-c: Metabolic signaling exposure, 2x per week
Research Allocation Summary:
- CJC-1295 (No DAC) 10mg × 1 vial
- Ipamorelin 10mg × 1 vial
- MOTS-c 40mg × 3 vials
INTENDED RESEARCH APPLICATIONS
This Research Stack May Be Relevant For:
- Advanced metabolic efficiency studies
- Mitochondrial signaling investigations
- Recovery-pathway and sleep-cycle research
- Longevity-oriented metabolic models
- Performance-adjacent signaling research
IMPORTANT DISCLAIMER
Research Use Only. Not for Human Consumption.
These compounds are intended exclusively for laboratory research and investigational purposes. Not intended to diagnose, treat,
cure, or prevent any disease.
FAQs
What is the Performance Research Stack?
Multi-Receptor Metabolic Activation Utilizing GLP-3 RT (10mg) to research the activation of receptor signaling pathways involved in glucose-dependent insulin secretion and appetite regulation.
Why are CJC-1295 (No DAC) and Ipamorelin paired together?
Multi-Receptor Metabolic Activation Utilizing GLP-3 RT (10mg) to research the activation of receptor signaling pathways involved in glucose-dependent insulin secretion and appetite regulation.
What makes the MOTS-c in this stack unique?
Multi-Receptor Metabolic Activation Utilizing GLP-3 RT (10mg) to research the activation of receptor signaling pathways involved in glucose-dependent insulin secretion and appetite regulation.
Does CJC-1295 contain DAC?
Multi-Receptor Metabolic Activation Utilizing GLP-3 RT (10mg) to research the activation of receptor signaling pathways involved in glucose-dependent insulin secretion and appetite regulation.
How does MOTS-c support metabolic research?
Multi-Receptor Metabolic Activation Utilizing GLP-3 RT (10mg) to research the activation of receptor signaling pathways involved in glucose-dependent insulin secretion and appetite regulation.
What is the recommended storage for this stack?
Multi-Receptor Metabolic Activation Utilizing GLP-3 RT (10mg) to research the activation of receptor signaling pathways involved in glucose-dependent insulin secretion and appetite regulation.
Are these products ready for immediate use?
Multi-Receptor Metabolic Activation Utilizing GLP-3 RT (10mg) to research the activation of receptor signaling pathways involved in glucose-dependent insulin secretion and appetite regulation.
What quality verification is provided?
Multi-Receptor Metabolic Activation Utilizing GLP-3 RT (10mg) to research the activation of receptor signaling pathways involved in glucose-dependent insulin secretion and appetite regulation.
Is this stack intended for human use?
Multi-Receptor Metabolic Activation Utilizing GLP-3 RT (10mg) to research the activation of receptor signaling pathways involved in glucose-dependent insulin secretion and appetite regulation.
How do I manage the different reconstitution ratios in this stack?
Multi-Receptor Metabolic Activation Utilizing GLP-3 RT (10mg) to research the activation of receptor signaling pathways involved in glucose-dependent insulin secretion and appetite regulation.
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