Longevity - Start
Longevity - Start Original price was: 345,00 €.Current price is: 293,00 €.
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Brain - Start
Brain - Start Original price was: 209,00 €.Current price is: 178,00 €.

Longevity – Advanced

Building on the Start kit, Longevity Advanced adds the vascular bioregulator Vesugen, the pineal bioregulator Pinealon and the master antioxidant Glutathione for a broader six-peptide approach to aging research. Together they let investigators probe telomere maintenance, immune and vascular regulation, redox balance and NAD metabolism in parallel.

Supplied at research-grade purity. For research purposes only; not for human consumption.

Original price was: 525,00 €.Current price is: 394,00 €.

The complete longevity panel — Epithalon, Thymalin, NAD+, Vesugen, Pinealon and Glutathione for multi-system aging research.

What's included in this stack

Total value: 525,00  You save 131,00  -25%
Telomere Length Research
Epithalon peptide studies

Description

Mechanism of Action​

This advanced research stack explores multifaceted longevity pathways. Epithalon and Pinealon investigate telomere support and neuroendocrine regulation. Thymalin focuses on immune system modulation. NAD+ research examines cellular energy metabolism. Vesugen explores vascular integrity, and Glutathione investigates critical antioxidant defense, offering a comprehensive approach to understanding age-related cellular and systemic functions.

Benefits

  • Cellular Senescence Research – Epithalon’s telomere support.
  • Immune System Modulation – Thymalin’s regulatory role.
  • Metabolic Energy Pathways – NAD+ investigation.
  • Vascular Health Exploration – Vesugen’s peptide research.
  • Neurocognitive Support Studies – Pinealon’s brain peptide.
  • Oxidative Stress Defense – Glutathione’s antioxidant properties.

Research Data​

Epithalon

Study / ModelReported effect
Human somatic cell culture↑ Telomerase activity, ↑ telomere length in dividing cells
Aged mice longevity studiesExtended median lifespan, ↓ age-related tumor incidence
Pineal gland animal modelsRestored melatonin secretion rhythm, normalized circadian markers
Elderly human observational cohortImproved sleep architecture, ↑ nocturnal melatonin levels
Retinal degeneration rat model↓ Photoreceptor loss, preserved retinal pigment epithelium
Oxidative stress in vitro assays↓ Lipid peroxidation, ↑ antioxidant enzyme expression
Immunosenescence rodent studiesRestored T-cell function, normalized thymic activity

Thymalin

Study / ModelReported effect
Aged murine models↑ thymic cellularity, ↑ CD4+/CD8+ ratio, restored T-cell output
Immunocompromised rodent studies↑ IL-2 and interferon-gamma expression, improved lymphocyte proliferation
Elderly human observational cohortsReduced incidence of respiratory infections and improved immune markers
Radiation-exposure animal modelsAccelerated hematopoietic recovery and lymphocyte regeneration
Chronic inflammation models↓ pro-inflammatory cytokines (TNF-α, IL-6), normalized immune balance
In vitro thymocyte culturesEnhanced T-cell maturation and differentiation signaling
Geriatric clinical observationsImproved telomerase activity and extended cellular longevity markers

NAD+

Study/modelReported effect
Human clinical trials (IV NAD+ administration)

↑ plasma NAD+ by 4-6×; improved fatigue and alertness scores

Animal models (aged mice)

Restored mitochondrial function and ↑ lifespan by 15-20%

Cellular aging models

Activation of SIRT1 and PARP1 → enhanced DNA repair and mitochondrial biogenesis

Human observational studies

Correlation between low NAD+ and metabolic dysfunction, insulin resistance

In vitro neuronal cultures

Protection from oxidative and excitotoxic stress; improved neurite outgrowth

Metabolic disorder models

↓ triglycerides and hepatic steatosis via AMPK activation

Exercise recovery studies

↑ muscle NAD+/NADH ratio and improved endurance performance

Brain ischemia models

↓ infarct size and enhanced neuronal survival post-injury

Vesugen

Study / ModelReported effect
Aged rat vascular tissue↑ endothelial regeneration markers; improved capillary density
Human umbilical vein endothelial cell (HUVEC) culture↑ proliferation rate and ↓ senescence-associated markers
Atherosclerosis animal model↓ plaque progression; improved vascular wall integrity
Elderly cohort observational studyImproved microcirculation and reduced markers of vascular aging
In vitro telomere assayTelomerase activity preservation in endothelial lineages
Hypertensive rat model↓ systolic pressure; ↑ nitric oxide bioavailability
Diabetic vascular complication modelReduced endothelial dysfunction and oxidative stress markers

Pinealon

Study / ModelReported effect
Aged rat cognitive performance↑ memory retention and learning capacity in Morris water maze tasks
Cultured cortical neurons (in vitro)↓ oxidative stress markers; ↑ neuronal survival under hypoxic conditions
Accelerated aging mouse model (SAMP1)Extended lifespan and preserved cognitive function compared to controls
Human fibroblast culture↑ telomerase activity and ↑ telomere length over multiple passages
Rotenone-induced neurotoxicity modelReduced apoptosis and preserved mitochondrial integrity in dopaminergic neurons
Elderly cognitive decline observational studyImproved attention, memory recall, and psycho-emotional state markers
Ischemia-reperfusion brain injury (rat)↓ infarct volume; ↑ neuroprotective gene expression including Bcl-2
Sleep-deprivation behavioral modelNormalized circadian markers and reduced stress-induced cognitive deficits

Glutathione

Study/modelReported effect
Human trials (oral and IV administration)

↑ Plasma GSH levels, ↓ oxidative biomarkers (MDA, 8-OHdG)

Animal oxidative stress models

↓ Lipid peroxidation and improved mitochondrial GSH:GSSG ratio

Hepatotoxicity models (CCl4, acetaminophen)

↓ ALT/AST, ↓ hepatic necrosis, improved antioxidant enzyme activity

Neurodegenerative disease models

Protection of dopaminergic neurons and ↓ oxidative stress markers

In vitro melanocyte cultures

↓ Tyrosinase activity and melanin synthesis via GSH-mediated inhibition

Inflammatory models

↓ TNF-α, IL-6, and CRP, supporting immunomodulatory roles

Pharmacokinetic assessments

↑ Cellular uptake with liposomal and SubQ formulations

Stack Suggestions​

This research bundle is designed for investigators exploring advanced, multi-faceted longevity pathways. It suits those interested in the synergistic effects of peptides and coenzymes on cellular health, immune function, and neuroprotection within a research context.

Pen Dosage Chart​

Epithalon

Epithalon Pen 20 mg
Volume2 mL
mg/mL10 mg/mL
Click-to-Dose1 click = 0.1 mg
Example(s)10 clicks = 1 mg

Thymalin

Thymalin Pen 20 mg
Volume2 mL
mg/mL10 mg/mL
Click-to-Dose1 click = 0.1 mg
Example(s)10 clicks = 1 mg

NAD+

NAD+ Pen 500 mg
Volume3.0 mL
mg/mL166.67 mg/mL
Click-to-Dose1 click = 1.67 mg
Example(s)30 clicks = 50 mg
NAD+ Pen 1000 mg
Volume3.0 mL
mg/mL333.33 mg/mL
Click-to-Dose1 click = 3.33 mg
Example(s)15 clicks = 50 mg

Vesugen

Vesugen Pen 20 mg
Volume2 mL
mg/mL10 mg/mL
Click-to-Dose1 click = 0.1 mg
Example(s)10 clicks = 1 mg

Pinealon

Pinealon Pen 20 mg
Volume2 mL
mg/mL10 mg/mL
Click-to-Dose1 click = 0.1 mg
Example(s)10 clicks = 1 mg

Glutathione

Glutathione Pen 1500 mg
Volume3 mL
mg/mL500 mg/mL
Click-to-Dose1 click = 5 mg
Example(s)10 clicks = 50 mg

Dosage & Protocols Variations​

Epithalon

Standard Research Protocol

  • Dose: 5 – 10 mg (= 50–100 clicks)
  • Duration: 2 – 3 weeks
  • Frequency: Daily
  • Cycle Interval: 4 – 6 months off before repeating
  • Goal / Description: Baseline protocol used in telomerase activation and cellular aging models.

Therapeutic Research Protocol

  • Dose: 10 – 20 mg (= 100–200 clicks)
  • Duration: 10 – 20 days
  • Frequency: Daily or split into two administrations
  • Cycle Interval: 3 – 6 months off before repeating
  • Goal / Description: Higher-dose schedule explored in longevity and pineal signaling research.

Biohacker Protocol (experimental)

  • Dose: 2 – 5 mg (= 20–50 clicks)
  • Duration: 4 – 6 weeks
  • Frequency: 5 days per week
  • Cycle Interval: 2 – 3 months off before repeating
  • Goal / Description: Microdose continuous approach in experimental aging models.

Thymalin

Standard Research Protocol

  • Dose: 5 – 10 mg
  • Duration: 5 – 10 days
  • Frequency: Daily intramuscular administration
  • Cycle Interval: 4 – 6 months before repeating
  • Goal / Description: Baseline immunomodulatory protocol used in aging and immune restoration models.

Therapeutic Research Protocol

  • Dose: 10 – 20 mg
  • Duration: 10 – 14 days
  • Frequency: Daily
  • Cycle Interval: 3 – 6 months off before repeating
  • Goal / Description: Higher-dose protocol applied in immunocompromised and chronic inflammation models.

Biohacker Protocol (experimental)

  • Dose: 2 – 5 mg
  • Duration: 10 – 20 days
  • Frequency: Every other day
  • Cycle Interval: 2 – 3 times per year
  • Goal / Description: Low-dose longevity-oriented schedule explored in epigenetic and thymic regeneration research.

NAD+

Standard Cellular Support

  • Dose: 50 – 100 mg (variant 500 mg pen = 30–60 clicks / variant 1000 mg pen = 15–30 clicks)
  • Duration: 8 – 12 weeks
  • Frequency: Every Other Day
  • Cycle Interval:  4-week rest
  • Goal / Description: Common research design for mitochondrial and energy studies

Intensive Regeneration Protocol

  • Dose: 100 – 250 mg (variant 500 mg pen = 60–150 clicks / variant 1000 mg pen = 30–75 clicks)
  • Duration: 8 – 12 weeks
  • Frequency: 1× daily
  • Cycle Interval: 8-week rest
  • Goal / Description: Applied in models focusing on recovery and DNA repair

Neurocognitive Focus Protocol

  • Dose: 50 mg (variant 500 mg pen = 30 clicks / variant 1000 mg pen = 15 clicks)
  • Duration: 8 – 12 weeks
  • Frequency: 1× daily (morning)
  • Cycle Interval: 4-week rest
  • Goal / Description: Studied for neuronal resilience and alertness optimization

Longevity & Metabolic Protocol

  • Dose: 50 – 150 mg (variant 500 mg pen = 30–90 clicks / variant 1000 mg pen = 15–45 clicks)
  • Duration: 8 – 12 weeks
  • Frequency: Every Other Day
  • Cycle Interval: 8-week rest
  • Goal / Description: Designed for long-term metabolic and aging research

Vesugen

Standard Research Protocol

  • Dose: 100 – 200 mcg
  • Duration: 4 – 6 weeks
  • Frequency: Daily, sublingual or SubQ
  • Cycle Interval: 4 – 8 weeks off before repeating
  • Goal / Description: Baseline protocol for vascular function and endothelial integrity studies.

Therapeutic Research Protocol

  • Dose: 200 – 400 mcg
  • Duration: 6 – 8 weeks
  • Frequency: Daily
  • Cycle Interval: 8 weeks off before repeating
  • Goal / Description: Extended protocol used in models targeting vascular aging and microcirculation.

Biohacker Protocol (experimental)

  • Dose: 50 – 100 mcg
  • Duration: 8 – 12 weeks
  • Frequency: Daily, low-dose sublingual
  • Cycle Interval: Continuous with 2-week pauses every 12 weeks
  • Goal / Description: Microdose approach explored in longevity-oriented vascular research.

Pinealon

Standard Research Protocol

  • Dose: 1 – 3 mg
  • Duration: 2 – 4 weeks
  • Frequency: Daily
  • Cycle Interval: 4 – 8 weeks off before repeating
  • Goal / Description: Baseline protocol for neuroprotection and cognitive support models.

Therapeutic Research Protocol

  • Dose: 3 – 5 mg
  • Duration: 3 – 4 weeks
  • Frequency: Daily
  • Cycle Interval: 8 – 12 weeks off before repeating
  • Goal / Description: Higher-dose regimen used in studies targeting age-related cognitive decline and oxidative stress.

Biohacker Protocol (experimental)

  • Dose: 0.5 – 1 mg
  • Duration: 6 – 8 weeks
  • Frequency: 5× per week
  • Cycle Interval: 4 weeks off before repeating
  • Goal / Description: Low-dose continuous exposure for longevity and cellular preservation research.

Glutathione

Standard Antioxidant Protocol

  • Dose: 200 – 400 mg (= 40–80 clicks)
  • Duration: 4 – 8 weeks
  • Frequency: 3× weekly
  • Cycle Interval: 4-week rest
  • Goal / Description: ↑ Systemic antioxidant capacity, baseline redox support

Intensive Detoxification Protocol

  • Dose: 500 – 600 mg (= 100–120 clicks)
  • Duration: 4 weeks
  • Frequency: 5× weekly
  • Cycle Interval: 8-week rest
  • Goal / Description: Rapid ↑ GSH levels for detoxification models, tissue saturation

Maintenance Protocol

  • Dose: 150 mg (= 30 clicks)
  • Duration: 8 – 12 weeks
  • Frequency: 3× weekly
  • Cycle Interval: 8-week rest
  • Goal / Description: Long-term maintenance of improved GSH status

Possible Side Effects​

Epithalon

Epithalon is generally well-tolerated in preclinical and limited human observational studies.

Reported side effects are rare and typically mild:

  • Transient drowsiness or mild fatigue following administration.
  • Localized irritation, redness, or tenderness at injection site.
  • Occasional mild headache during initial dosing periods.
  • Temporary changes in sleep patterns linked to pineal signaling modulation.

No evidence of hormonal, hepatic, or systemic adverse effects has been observed in available research data.

Thymalin

Thymalin is generally well-tolerated in clinical and preclinical studies involving elderly and immunocompromised populations.

Reported side effects are infrequent and mild:

  • Transient redness or mild swelling at the injection site.
  • Occasional low-grade fever during initial dosing in immunocompromised models.
  • Mild fatigue or drowsiness reported in early administration phases.
  • Rare allergic-type reactions in sensitive subjects.

No evidence of hepatic, endocrine, or systemic toxicity has been observed in available research data.

NAD+

NAD+, as a research coenzyme boosting metabolism, may induce mild side effects in experimental models, primarily during initial administration. These are dose-dependent and often transient. It’s crucial to monitor for subcutaneous reactions.

Headache: Commonly observed at higher doses, manifesting as mild pressure, linked to vascular changes. It typically resolves within days.
Nausea: Occasional gastrointestinal upset, especially with rapid escalation. Frequency decreases with slower protocols.
Dizziness: Lightheadedness reported early on, possibly from energy shifts. Resolves as models adapt.
Flushing: Warm sensation or skin redness, attributed to niacin-like effects.
Fatigue: Paradoxical tiredness initially, due to metabolic adjustments.

Most side effects are minor and manageable through dose titration. Prolonged exposure warrants vigilance for rare issues like hypersensitivity, though uncommon in controlled settings.

Vesugen

Vesugen is generally well-tolerated in preclinical and limited observational studies.

Reported side effects are rare and mild:

  • Mild localized irritation at the injection site.
  • Transient headache during initial dosing periods.
  • Occasional digestive sensitivity in sensitive subjects.
  • Slight fatigue reported in early observational use.

No evidence of hormonal, hepatic, or systemic adverse effects has been observed in available research data. As a short tripeptide bioregulator, Vesugen is structurally similar to endogenous peptide fragments, which is associated with its low reported toxicity profile in experimental models.

Pinealon

Pinealon is generally well-tolerated in animal studies and limited human observational research.

Reported side effects are infrequent and mild:

  • Transient mild headache during initial dosing.
  • Localized irritation or redness at injection site.
  • Occasional drowsiness or altered sleep patterns.
  • Mild gastrointestinal discomfort in sensitive subjects.

No evidence of hormonal, hepatic, or neurotoxic adverse effects has been observed in available preclinical data. As a short tripeptide, Pinealon is rapidly metabolized into its constituent amino acids, which contributes to its favorable tolerability profile in experimental models.

Glutathione

Glutathione supplementation is generally well-tolerated due to its endogenous nature, but some individuals may experience side effects, particularly with higher doses or sensitive constitutions. The most common adverse reactions are related to gastrointestinal adjustments and administration site responses with subcutaneous injection protocols.

Gastrointestinal Effects: Mild nausea, abdominal cramping, bloating, and flatulence may occur, especially during the initial supplementation period. These symptoms typically resolve as the body adapts to increased glutathione levels. Some users report a metallic or sulfur-like taste, which is attributed to the cysteine component of the molecule.

Injection Site Reactions: With subcutaneous administration, mild redness, swelling, or irritation at the injection site may occur. These reactions are typically transient and resolve within 24-48 hours. Proper injection technique and site rotation can minimize these effects.

Allergic Reactions: Although rare, some individuals may experience allergic responses including skin rashes, hives, or in severe cases, difficulty breathing. Those with known sensitivities to sulfur-containing compounds should exercise particular caution.

Respiratory Considerations: Individuals with asthma or respiratory sensitivities should avoid inhaled forms, as glutathione may trigger bronchospasms or respiratory distress in predisposed individuals.

Headaches and Fatigue: Some users report mild headaches or temporary fatigue during initial supplementation, likely related to detoxification processes and cellular adjustments to enhanced antioxidant capacity.

It is important to note that most side effects are mild, transient, and resolve with continued use or dosage adjustment. However, individuals should discontinue use and consult healthcare providers if adverse reactions persist or worsen.

Product Attributes​

Scientific References​

Epithalon

Thymalin

NAD+

Vesugen

Pinealon

Glutathione

Included In The Box

Every product arrives in a premium, custom-designed PEPTIDE.Power box, engineered for convenience, hygiene, and safe storage in your refrigerator. Inside, you will find everything needed for your full research protocol:

  • 1× Disposable Pre-Mixed Injection Pen
  • Powered by our proprietary PSM Technology™ – precision stabilization & mixing system for consistent potency
  • 10× Ultra-thin Needles (33G, 4 mm)
  • 10× Alcohol Pads for sterile preparation
  • Internal Stabilizing Foam Insert to prevent shaking during transport
  • Instruction Panel printed on the inside of the box for quick reference
  • Security Seal Sticker ensuring the package has not been opened or tampered with

Store the product in a refrigerator at 1 – 8°C immediately upon delivery. To maintain optimal stability, keep the pen away from light, and do not expose it to repeated temperature changes.

Once reconstituted (all our pens come pre-mixed), research compounds remain stable for 6 – 8 weeks under proper refrigeration.

Do not freeze after reconstitution. Always keep the box closed so the pen, needles, and alcohol pads stay clean and protected.

For best results, use the product consistently within the recommended time window and always follow your research protocol.

We ship with Next-Day EU Delivery via DHL Express or UPS Express.

All orders are prepared fresh on the day of dispatch, placed in EPS Cold-Chain Transport Boxes, and shipped with cooling elements to maintain a stable temperature throughout the journey.

Our logistics process is designed so the package arrives overnight, avoiding customs delays inside the European Union.

Products are shipped from our EU facility, ensuring no import duties, no customs clearance, and always fast and secure delivery.

Due to the nature of research peptides and the high-risk category assigned by payment processors, credit card companies do not generally support merchants in this field.

For this reason, we accept mainly Bank Transfers.

We also work with a crypto payment provider, and from time to time, card payments may be available depending on processor availability.

Within the European Union, SEPA transfers are fast, low-cost, and usually arrive within minutes to a few hours, making the payment process smooth and simple.

Once the transfer is received, your order is prepared immediately and dispatched the same day, depending on the daily cut-off time.

Please note that we do not dispatch shipments on Fridays or on days before official public holidays. This is done to ensure that parcels can be delivered on the next working day and are not held in transit over weekends or holidays.

This method ensures compliance, security, and continuity of service for all customers across the EU.

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