


CJC-1295 No DAC
<p> CJC-1295 No DAC (modified GRF 1-29) is a synthetic growth hormone releasing hormone analogue commonly researched for pulsatile growth hormone signalling, IGF-1 pathway investigations, recovery optimisation models, and peptide-based endocrine research applications. </p> <p> Research involving CJC-1295 No DAC has explored short-acting growth hormone release dynamics, sleep-cycle associated signalling pathways, recovery models, muscle preservation investigations, and metabolic regulation studies under controlled laboratory conditions. </p> <p> CJC-1295 No DAC peptide research is frequently associated with GH pulse optimisation, body composition investigations, recovery-focused peptide stacks, performance pathway studies, and advanced peptide signalling research. </p> <p> This Vital Edge Science batch features Janoshik-verified CJC-1295 (mod GRF 1-29) with a reported purity of 99.855% and independently verified analytical testing. </p> <p> Recommended for reconstitution using bacteriostatic water within controlled laboratory preparation environments. </p> <p> Each vial contains 10mg of high-purity lyophilised CJC-1295 No DAC intended strictly for analytical, laboratory, and scientific research applications. </p> <p> <strong>For research use only. Not for human consumption.</strong> </p>
Available variants
Product description
Product Overview
CJC-1295 No DAC (Modified GRF 1-29) is supplied by Vital Edge Science for growth hormone signalling, recovery pathway, IGF-1, and endocrine research applications. This batch features independent Janoshik verification, Australia and New Zealand fulfilment support, and high-purity lyophilised peptide material for laboratory research use.
Available Formats
- 10mg × 1 vial
- 10mg × 10 vials
- MOQ: 1 vial
- Australia / New Zealand fulfilment
Batch Verification
- Purity: 99.855%
- Tested: 10 NOV 2025
- Task Number: #87211
- Verification Key: CT5UC7T9YWE4
Research Applications
- Growth hormone signalling research
- IGF-1 pathway investigations
- Recovery and regeneration models
- Endocrine system studies
- Body composition research
Verification report

