$173.00
What’s Included? 3 Vials
Research Note: Pinealon should not be mixed in the same solution with other peptides due to pH incompatibility.
Form: Lyophilized Powder
Purity: ≥ 99% USA Tested, Verified Purity (HPLC Tested)
Verification: Verifiable COA’s (Batch-Matched)
Emerging Research Evidence:
This collection provides a technical framework for studying cognitive clarity and systemic wellness markers in both male and female physiological models. Scientists use these compounds to evaluate the molecular foundations of memory, stress resilience, and sleep architecture, particularly during transitions in hormonal homeostasis. The four-analyte collection facilitates the simultaneous observation of bone density markers, metabolic health, and lean muscle maintenance within a unified experimental protocol focused on aging and cellular integrity.
Keep product in cool, dark place.
Sold for Research Use Only / Not FDA Regulated
Batch-verified inventory. See Individual Products for 3rd Party COA’s
In stock
Neuro-Vitality Midlife Collection Overview
This research collection is designed to support investigation into biological markers related to cognitive function, physiological stability, and systemic regulation in adult laboratory models. Researchers use this compound combination to examine how coordinated peptide signaling influences memory retention, stress resilience, sleep architecture, and metabolic balance during midlife-associated physiological transitions.
By integrating these analytes into a single experimental framework, the collection enables simultaneous evaluation of bone mineral density markers, lipid oxidation pathways, lean tissue maintenance, and cellular signaling associated with metabolic and neurocognitive stability in controlled research environments.
Why these four together?
Coordinated pituitary signaling: Sermorelin (GHRH analog) combined with CJC-1295 + Ipamorelin (GHRH/GHS pathways) enables study of integrated pituitary signaling commonly examined in sleep regulation, body composition, and bone metabolism research.
Neuropeptide complement: Pinealon adds a focused line of inquiry into neuronal signaling, cognitive clarity, and circadian regulation—useful for research models examining attention, mood stability, and neurocognitive performance during midlife.
This colletion is curated to help investigators examine complementary pathways that literature associates with:
Memory, clarity & focus — evaluate neuroplasticity and neuroprotective markers (Pinealon) alongside cognitive measures associated with sleep and GH/IGF-1 signaling.
Age-associated cognitive pathways — study mechanisms linked to oxidative stress responses and mitochondrial signaling relevant to midlife cognitive research.
Sleep architecture — investigate GH-pulse dynamics and slow-wave sleep correlations frequently examined in GHRH/GHS research.
Cellular resilience markers — evaluate pathways connected to cellular stress responses and metabolic regulation.
Sermorelin is a synthetic peptide analogue of growth hormone-releasing hormone (GHRH) investigated for its capacity to stimulate endogenous growth hormone (GH) secretion via the pituitary GHRH receptors. In laboratory settings, research focuses on how this peptide influences the GH/IGF-1 signaling axis and its potential role in modulating biological markers associated with somatopause and age-related physiological decline. Scientists utilize Sermorelin to observe the regulation of metabolic rate, skeletal mineral density, and the maintenance of lean tissue mass while leveraging the body’s natural pulsatile secretion patterns. Ongoing studies further evaluate its influence on sleep architecture and the biochemical pathways of cellular recovery and dermal protein density within controlled experimental models.
The combination of CJC-1295 and Ipamorelin is used in research to investigate the dual-action stimulation of endogenous growth hormone production through complementary molecular pathways. In this protocol, CJC-1295 is studied for its ability to provide sustained secretagogue activity, while Ipamorelin acts as a selective ghrelin receptor agonist to trigger a specific, pulsatile release of GH. Researchers examine this synergistic approach to understand its impact on lipolysis, regenerative signaling, and the acceleration of tissue recovery kinetics. Furthermore, laboratory investigations explore how this combination influences immune system modulation, bone density markers, and neurocognitive focus within models of cellular regeneration.
Pinealon is a short-chain tripeptide bioregulator investigated for its potential neuroprotective properties and its influence on the molecular pathways of memory formation and retrieval. In laboratory and animal models, research focuses on the peptide’s ability to modulate neuronal survival, reduce indicators of cellular damage, and support the regulation of circadian rhythms. Scientific interest centers on its role in promoting telomere stability and enhancing both short-term and long-term memory markers by interacting with neural pathways involved in information retention. While early-stage research suggests potential improvements in behavioral and cognitive markers, ongoing studies aim to clarify the specific mechanisms by which Pinealon supports brain health and mitigates age-related cognitive decline.
Research-only note: These compounds are not FDA-approved for therapeutic use; published effects are primarily preclinical and exploratory.
For Research Use Only — Not for Human or Veterinary Use. Not evaluated or approved by the FDA. Not intended to diagnose, treat, cure, or prevent any disease. All information on this website is provided strictly for laboratory research and educational purposes. Nothing herein constitutes medical, clinical, or legal advice, nor an endorsement of non-laboratory use. Any discussion of specific peptides or potential research findings is informational only and must not be interpreted as guidance for use in or on humans or animals.
