Two Week Longevity Reset Complete Guide

Introduction to Longevity Science

The quest to extend human lifespan and healthspan has captivated humanity for millennia. What was once the domain of mythology and pseudoscience is now a legitimate scientific field with real breakthroughs in understanding aging. The Longevity Reset program at our Dubai clinic represents the application of cutting-edge longevity science to help participants kickstart their journey toward longer, healthier lives.

Aging is not an inevitable process of decay but rather a series of modifiable biological processes. Research has identified nine “hallmarks of aging” that drive the progressive functional decline associated with growing older. These include genomic instability, telomere attrition, epigenetic alterations, loss of proteostasis, deregulated nutrient sensing, mitochondrial dysfunction, cellular senescence, stem cell exhaustion, and altered intercellular communication. Each of these hallmarks is potentially modifiable through intervention.

The distinction between lifespan and healthspan is crucial. Longevity追求 is not just about living longer but about extending the years of healthy, functional life. The goal is not merely to extend the period of decline at the end of life but to compress morbidity, achieving a shorter period of disability before death. This is the “rectangularization of the survival curve”—maintaining high function until near the end, then declining rapidly.

The field of geroscience has emerged to study the biological basis of aging and interventions to slow or reverse it. Research in model organisms from yeast to primates has demonstrated that lifespan can be extended through genetic, pharmacological, and lifestyle interventions. Many of these interventions are now being translated to humans.

At our clinic in Dubai, we have developed the Two Week Longevity Reset program to make longevity science accessible. This intensive program combines the most effective evidence-based interventions to jumpstart cellular renewal, metabolic optimization, and systemic rejuvenation. Participants emerge with renewed vitality, improved biomarkers, and a sustainable plan for continued longevity.

The Biology of Aging

Understanding the biological processes of aging helps appreciate how interventions can slow or reverse them.

The Hallmarks of Aging

The nine hallmarks of aging represent the key biological processes that drive aging. Understanding these helps guide effective interventions.

Genomic instability refers to accumulated DNA damage over time. Environmental factors including radiation, chemicals, and even normal metabolism damage DNA. While repair mechanisms exist, they become less effective with age. Accumulated DNA damage causes mutations, epigenetic changes, and cellular dysfunction.

Telomere attrition involves the progressive shortening of chromosome ends (telomeres) with each cell division. When telomeres become too short, cells can no longer divide and enter senescence or die. Telomere length is associated with biological age and mortality risk.

Epigenetic alterations involve changes in gene expression without changes to the DNA sequence itself. DNA methylation patterns, histone modifications, and chromatin remodeling all change with age. These changes alter which genes are turned on or off, contributing to functional decline.

Loss of proteostasis involves impaired protein quality control. Proteins become damaged, misfolded, and aggregated with age. The systems that normally clear damaged proteins—chaperones, autophagy, the ubiquitin-proteasome system—become less effective. Protein aggregation is seen in age-related diseases like Alzheimer’s.

Deregulated nutrient sensing involves the pathways that sense and respond to nutrients. The insulin/IGF-1 pathway, mTOR pathway, and AMPK pathway all influence aging. Caloric restriction extends lifespan partly by downregulating these pathways.

Mitochondrial dysfunction occurs as mitochondria, the cell’s power plants, become less efficient with age. Mitochondrial DNA accumulates mutations, electron transport chain efficiency declines, and reactive oxygen species production increases. This contributes to cellular dysfunction throughout the body.

Cellular senescence involves the accumulation of senescent cells that no longer divide but do not die. Senescent cells secrete inflammatory compounds (senescence-associated secretory phenotype, SASP) that damage surrounding tissue. Clearing senescent cells extends healthspan in animal models.

Stem cell exhaustion involves the decline in stem cell populations and function with age. Stem cells normally regenerate tissues, but their numbers and regenerative capacity decline. This contributes to impaired tissue repair and regeneration.

Altered intercellular communication involves changes in how cells communicate with each other. Hormonal, neural, and immune signaling all change with age. Inflammaging (chronic low-grade inflammation) and hormonal changes contribute to systemic dysfunction.

The Longevity Pathways

Several molecular pathways have been identified that influence aging. These pathways represent potential intervention points.

The mTOR (mechanistic target of rapamycin) pathway senses nutrients, growth factors, and energy status. mTOR activation promotes anabolism (building up) and inhibits autophagy (cleanup). Caloric restriction and rapamycin inhibit mTOR, extending lifespan in many organisms.

The AMPK (AMP-activated protein kinase) pathway senses cellular energy status. When AMP/ATP ratio increases (low energy), AMPK is activated. AMPK activation promotes autophagy, improves mitochondrial function, and extends lifespan.

The sirtuins are a family of NAD+-dependent deacetylases that regulate many aspects of metabolism and stress resistance. Sirtuin activation (through NAD+ precursors, caloric restriction, or resveratrol) extends lifespan in various organisms.

The insulin/IGF-1 signaling pathway regulates growth, metabolism, and longevity. Reduced signaling (as in caloric restriction) extends lifespan, though the relationship is complex in humans.

Cellular Renewal Processes

The body has natural processes for cellular renewal and cleanup.

Autophagy is the process by which cells break down and recycle their own components. During autophagy, damaged organelles, misfolded proteins, and other debris are engulfed in autophagosomes and delivered to lysosomes for degradation. Autophagy declines with age, and enhancing autophagy extends lifespan in animal models.

Mitophagy is the selective autophagy of mitochondria. It removes damaged mitochondria that would otherwise produce excessive reactive oxygen species. Mitophagy is essential for maintaining mitochondrial quality.

Apoptosis is programmed cell death, which eliminates damaged or unnecessary cells. Appropriate apoptosis prevents accumulation of damaged cells that could become cancerous.

Cellular senescence removal involves clearing senescent cells through the immune system or senolytic therapies. This reduces the inflammatory burden of senescent cells.

The Two Week Longevity Reset Program

The Two Week Longevity Reset program at our Dubai clinic represents a comprehensive, evidence-based approach to longevity optimization. This intensive program combines the most effective interventions to jumpstart the journey toward longer, healthier living.

Program Philosophy

The program is based on several key principles. First, we address multiple hallmarks of aging simultaneously for synergistic effects. Second, we use interventions with the strongest evidence base from human and animal studies. Third, we personalize the program based on individual assessment and goals. Fourth, we emphasize sustainable lifestyle changes rather than quick fixes. Fifth, we combine conventional and complementary approaches for comprehensive care.

The program integrates advanced diagnostics to assess biological age and identify specific areas for intervention. Targeted interventions address cellular renewal, metabolic optimization, stress resilience, and systemic rejuvenation. Lifestyle coaching establishes sustainable habits for continued longevity.

Program Structure

The Two Week Longevity Reset consists of two intensive weeks, followed by ongoing support for lifestyle integration.

Days 1-2 focus on comprehensive assessment, including biological age measurement, metabolic panel, inflammatory markers, body composition analysis, and functional assessments.

Days 3-10 involve intensive interventions including IV nutrient therapy, advanced detoxification, cellular renewal protocols, metabolic reset through nutritional intervention, stress resilience training, and sleep optimization.

Days 11-14 focus on consolidation, lifestyle education, and preparation for transition to maintenance protocols.

Following the intensive program, participants receive 3 months of ongoing support including follow-up consultations, app-based guidance, and community connection.

Advanced Diagnostics

The program begins with comprehensive assessment to establish baseline and identify targets for intervention.

Biological age assessment uses multiple parameters to estimate biological age versus chronological age. This includes telomere length, epigenetic clocks (DNA methylation patterns), inflammatory markers, metabolic markers, and functional assessments.

Comprehensive metabolic panel assesses glucose metabolism, kidney and liver function, electrolytes, and proteins.

Inflammatory markers include high-sensitivity C-reactive protein, homocysteine, and cytokine profiles.

Hormonal assessment includes thyroid function, sex hormones, cortisol rhythm, and growth hormone markers.

Body composition analysis uses advanced methods to assess fat mass, muscle mass, and visceral adiposity.

Cardiovascular assessment includes arterial stiffness, heart rate variability, and endothelial function.

Cognitive assessment evaluates memory, attention, and executive function.

Nutritional status assessment measures levels of key nutrients including vitamin D, B vitamins, omega-3 index, and trace minerals.

Cellular function assessment evaluates mitochondrial function and cellular senescence markers.

Cellular Renewal Interventions

The program includes multiple interventions targeting cellular renewal and cleanup.

Autophagy enhancement through nutritional and pharmacological interventions promotes cellular cleanup. Time-restricted eating, specific compounds, and other interventions activate autophagy.

Mitophagy support through NAD+ precursors, exercise, and other interventions promotes mitochondrial quality control.

Senolytic support through supplements and lifestyle interventions may help clear senescent cells, though evidence in humans is still developing.

Stem cell support through nutrition, lifestyle, and possibly supplements supports the body’s natural regenerative capacity.

Cellular repair promotion through NAD+ precursors, sirtuin activators, and other interventions supports DNA repair and genomic stability.

Metabolic Optimization

Metabolic health is fundamental to longevity. The program includes comprehensive metabolic interventions.

Nutritional intervention uses time-restricted eating, calorie quality optimization, and specific dietary patterns that promote longevity. The program teaches participants to eat for metabolic health.

Glucose optimization through diet, exercise, and possibly supplements promotes stable blood sugar and insulin sensitivity.

Mitochondrial support through specific nutrients and interventions enhances cellular energy production.

Ketogenic adaptation may be introduced for those who can benefit, as ketone bodies have potential longevity benefits.

Metabolic flexibility training helps the body efficiently switch between glucose and fat as fuel.

Detoxification Protocols

Environmental toxins can accelerate aging. The program includes comprehensive detoxification support.

Liver support through nutrition and supplements enhances Phase I and Phase II detoxification capacity.

Heavy metal chelation support through diet and binders may be included for those with elevated exposure.

Environmental toxin reduction through lifestyle guidance minimizes ongoing exposure.

Lymphatic support through dry brushing, rebounding, and other interventions enhances toxin elimination.

Sauna therapy promotes sweating and elimination of stored toxins.

Stress Resilience Training

Chronic stress accelerates aging through multiple mechanisms. The program includes comprehensive stress management training.

Mindfulness meditation training teaches techniques to reduce stress and enhance stress resilience.

Breathing exercises including specific techniques for stress reduction are taught and practiced.

Stress physiology education helps participants understand and manage stress responses.

Relaxation techniques including progressive muscle relaxation, guided imagery, and other methods are taught.

Nature exposure and ecotherapy are incorporated into the program.

Sleep Optimization

Sleep is fundamental to cellular renewal and longevity. The program includes intensive sleep optimization.

Sleep environment optimization ensures optimal conditions for restorative sleep.

Sleep hygiene training establishes habits that promote quality sleep.

Circadian rhythm alignment optimizes sleep timing for biological rhythms.

Sleep extension for those who are sleep-deprived ensures adequate duration.

Sleep quality enhancement through nutrition, supplements, and other interventions when indicated.

IV Nutrient Therapy

IV therapy delivers nutrients directly to cells for optimal absorption and effects.

NAD+ infusion therapy supports cellular energy production, DNA repair, and sirtuin activation. NAD+ precursors may be used for those who cannot tolerate IV NAD+.

glutathione infusion provides the body’s master antioxidant for detoxification and cellular protection.

Vitamin C infusion supports immune function, collagen production, and antioxidant defense.

B vitamin infusions support energy metabolism and neurological function.

Multi-nutrient Myers’ cocktail provides comprehensive nutritional support.

Lifestyle Coaching

Sustainable lifestyle changes are essential for lasting benefits.

Nutrition education provides the knowledge for longevity-supporting eating patterns.

Exercise coaching develops individualized activity programs for longevity.

Circadian rhythm optimization establishes patterns that support biological rhythms.

Social connection support addresses the importance of relationships for longevity.

Purpose and meaning exploration addresses the psychological dimensions of longevity.

Frequently Asked Questions

Understanding Longevity

1. What is the difference between lifespan and healthspan?

Lifespan is the total number of years lived. Healthspan is the number of years lived in good health, free from chronic disease and functional decline. The goal of longevity medicine is to extend both, with particular emphasis on extending healthspan and compressing morbidity.

2. Can we really extend human lifespan?

Research in model organisms consistently shows that lifespan can be extended through genetic, pharmacological, and lifestyle interventions. Whether these interventions translate to significant human lifespan extension is still being studied, but evidence suggests that healthspan can be meaningfully extended. Some researchers believe that interventions in development could extend human lifespan substantially.

3. What is biological age versus chronological age?

Chronological age is simply the number of years since birth. Biological age reflects the actual condition of the body and may be higher or lower than chronological age. Biological age can be estimated through various markers including telomere length, epigenetic clocks, inflammatory markers, and functional assessments. People with lower biological age have lower mortality risk.

4. How fast do we age biologically?

Aging rate varies between individuals and can be influenced by genetics, lifestyle, and environment. Some people show accelerated biological aging due to poor lifestyle habits, chronic stress, or disease. Others show slower aging with healthy lifestyles and good self-care. Biological age can be measured and tracked over time.

5. At what age should I start focusing on longevity?

It’s never too early or too late to start focusing on longevity. Prevention is always better than intervention, so younger people benefit from establishing healthy habits. However, older adults can also benefit significantly from lifestyle changes and targeted interventions. The biological processes of aging can be modified at any age.

Questions About the Program

6. What does the Two Week Longevity Reset include?

The program includes comprehensive assessment, IV nutrient therapy, detoxification protocols, cellular renewal interventions, metabolic optimization, stress resilience training, sleep optimization, lifestyle coaching, and 3 months of follow-up support. Specific interventions are personalized based on assessment findings.

7. Who is a good candidate for the program?

Adults of any age seeking to optimize their health and longevity are candidates. The program is particularly valuable for those experiencing age-related decline, those with risk factors for age-related diseases, those seeking to improve vitality and energy, and those wanting a comprehensive health reset.

8. What results can I expect?

Results vary based on individual factors and commitment. Commonly reported benefits include increased energy, improved sleep, enhanced mental clarity, reduced inflammation, improved metabolic markers, weight loss, and overall sense of wellbeing. Many participants report feeling years younger.

9. Is the program suitable for older adults?

Yes, the program is beneficial at any age and can be modified for individual needs. Older adults often show dramatic improvements in energy, function, and quality of life. The program is adjusted based on individual health status and goals.

10. Can I continue my regular activities during the program?

Most activities can continue, though the program involves significant time commitment for treatments and training. Work and family responsibilities can generally be maintained. Some participants take time off work for the intensive program; others maintain regular schedules.

Questions About Interventions

11. What is NAD+ and why is it important for longevity?

NAD+ (nicotinamide adenine dinucleotide) is a coenzyme essential for cellular energy production and DNA repair. NAD+ levels decline with age, contributing to mitochondrial dysfunction and cellular aging. NAD+ supplementation may restore more youthful cellular function.

12. What are senolytics and do they work in humans?

Senolytics are compounds that selectively kill senescent cells. They have shown dramatic benefits in animal models, extending healthspan and sometimes lifespan. Human research is ongoing, and some senolytic protocols show promise. The program may include senolytic-supportive compounds.

13. Does autophagy really extend lifespan?

Autophagy, the cellular cleanup process, is strongly associated with longevity. Enhancing autophagy extends lifespan in many organisms. In humans, autophagy activation through caloric restriction, fasting, and certain compounds may contribute to healthspan extension.

14. What role does exercise play in longevity?

Exercise is one of the most powerful longevity interventions. Regular physical activity extends lifespan, reduces chronic disease risk, maintains function, and improves quality of life. The program includes exercise coaching to develop sustainable activity patterns.

15. How does sleep affect longevity?

Adequate, quality sleep is essential for cellular repair, memory consolidation, hormone regulation, and immune function. Sleep deprivation accelerates aging and increases mortality risk. Sleep optimization is a core component of the longevity program.

Questions About Diet

16. What diet is best for longevity?

Research suggests several dietary patterns support longevity. Caloric restriction (without malnutrition) extends lifespan in many organisms. The Mediterranean diet is strongly associated with longevity in humans. Plant-forward diets rich in vegetables, fruits, whole grains, legumes, nuts, and healthy fats support longevity. Time-restricted eating may provide benefits beyond calorie reduction.

17. Does fasting extend lifespan?

Fasting and time-restricted eating activate autophagy, improve metabolic health, and may extend healthspan. Intermittent fasting has shown benefits in human studies for metabolic health and weight management. Research on lifespan extension in humans is ongoing, but benefits for healthspan are well-documented.

18. Should I do the program if I’m already eating healthy?

Even people eating healthy diets can benefit from the program’s intensive interventions. IV therapies, detoxification, and cellular renewal protocols provide benefits beyond what diet alone can achieve. The program also helps optimize and personalize dietary approaches.

19. What supplements are recommended for longevity?

Key supplements for longevity may include NAD+ precursors (NMN, NR), resveratrol, omega-3 fatty acids, vitamin D, magnesium, and various anti-inflammatory compounds. Specific recommendations depend on individual assessment and needs.

20. How much protein should I eat for longevity?

Protein needs vary by age and activity level. Some research suggests that moderate protein intake (0.8-1.2 g/kg body weight) may be optimal for longevity, while very high protein intake may have negative effects. Protein quality and timing also matter.

Questions About Testing

21. What tests are included in the program?

Testing includes biological age assessment (epigenetic clock, telomere length), comprehensive metabolic panel, inflammatory markers, hormonal assessment, body composition analysis, cardiovascular assessment, cognitive assessment, nutritional status assessment, and cellular function assessment.

22. What is biological age testing?

Biological age testing uses various biomarkers to estimate the actual biological condition of the body rather than just chronological age. Methods include DNA methylation clocks (epigenetic age), telomere length analysis, inflammatory markers, metabolic markers, and functional assessments.

23. How is biological age measured?

Multiple methods can estimate biological age. DNA methylation patterns (epigenetic clocks) are considered the most accurate. Telomere length provides additional information. Inflammatory markers, metabolic markers, and functional assessments contribute to the picture.

24. Can I track my progress with testing?

Yes, baseline and end-of-program testing allows objective assessment of improvement. Follow-up testing at 3 and 6 months can assess sustained benefits. Many biological age markers can improve within weeks to months of intensive intervention.

25. What if testing shows significant problems?

If testing reveals significant abnormalities, appropriate medical referral or treatment will be recommended. The program addresses functional optimization; serious medical conditions require conventional medical management alongside or instead of the longevity program.

Questions About Lifestyle

26. How much exercise should I do for longevity?

Research suggests that regular aerobic exercise (150+ minutes moderate or 75+ minutes vigorous weekly) and resistance training (2+ sessions weekly) support longevity. More exercise provides additional benefits up to a point. The program helps establish sustainable exercise habits.

27. Does stress really affect aging?

Chronic stress accelerates aging through multiple mechanisms including increased inflammation, telomere shortening, cortisol dysregulation, and unhealthy behaviors. Stress management is essential for longevity.

28. How does social connection affect longevity?

Strong social connections are associated with significantly longer lifespan. Loneliness and social isolation increase mortality risk comparable to smoking. The program addresses social connection as a component of longevity.

29. Does purpose in life affect longevity?

Having a sense of purpose and meaning in life is associated with better health outcomes and longer lifespan. This may be through psychological, behavioral, and physiological pathways. The program explores purpose and meaning as components of longevity.

30. How does alcohol affect longevity?

Excessive alcohol consumption shortens lifespan and increases disease risk. Moderate alcohol consumption is controversial; some studies suggest possible benefits of light to moderate intake, while others suggest no safe level. The program provides guidance based on current evidence.

Dubai-Specific Questions

31. Can international visitors participate in the program?

Yes, visitors to Dubai can participate in the Two Week Longevity Reset. The intensive two weeks require presence in Dubai; follow-up support can be provided remotely. Contact us to discuss logistics.

32. What makes Dubai a good location for longevity programs?

Dubai offers access to world-class healthcare facilities, a multicultural environment, and the resources for comprehensive programs. The city’s focus on wellness and innovation creates an supportive ecosystem for longevity optimization.

33. Are there environmental factors in Dubai affecting longevity?

Dubai’s climate requires adaptation including sun protection and hydration management. Air quality can be a concern, which the program addresses through detoxification support. The program’s recommendations are adapted to the local environment.

34. What local amenities support the program?

Dubai offers excellent facilities including spas, fitness centers, and restaurants supporting various dietary approaches. Access to high-quality healthcare services and supplements supports program implementation.

35. How does Dubai’s multicultural population affect longevity approaches?

Dubai’s diverse population includes people from many cultural backgrounds with different dietary traditions and health practices. The program is adapted to respect cultural preferences while optimizing for longevity.

Practical Questions

36. How do I get started with the Two Week Longevity Reset?

Contact our clinic to schedule an initial consultation. We will discuss your health history and goals, explain the program, and determine if it’s appropriate for you.

37. How much does the program cost?

Costs vary based on the extent of testing and interventions. Package pricing is available. Contact our clinic for current pricing information. Many find the investment worthwhile given the comprehensive nature and lasting benefits.

38. What is the time commitment for the program?

The intensive two weeks require significant time commitment, with daily treatments and training sessions. Participants should plan for approximately 4-6 hours daily for treatments and education. Follow-up is less time-intensive.

39. Can I work during the program?

Most participants can maintain light work schedules during the program, though some prefer to take time off for full immersion. The program can be adapted to individual schedules.

40. What support do I receive after the program?

Participants receive 3 months of follow-up support including check-in consultations, app-based guidance, educational content, and access to community. Some participants continue with ongoing maintenance programs.

Deeper Questions

41. Can longevity interventions reverse aging?

Some interventions may partially reverse aspects of aging at the cellular level. Senolytic therapies clear senescent cells. NAD+ supplementation may restore more youthful cellular function. Epigenetic reprogramming shows remarkable reversal of aging markers in animal studies. Human applications are still developing.

42. What is the relationship between metabolism and aging?

Metabolic rate and metabolic health are strongly associated with longevity. The metabolic theory of aging proposes that aging results from accumulated damage from metabolic processes. Caloric restriction extends lifespan partly by reducing metabolic rate and oxidative damage.

43. How do hormones affect aging?

Hormonal changes with age contribute to many aspects of functional decline. Declining growth hormone, testosterone, estrogen, and thyroid hormone affect body composition, energy, and function. Horm optimization is a component of some longevity programs, though evidence for anti-aging effects is mixed.

44. What is the role of stem cells in aging?

Stem cell exhaustion is a hallmark of aging. Declining stem cell function contributes to impaired tissue repair and regeneration. Some interventions may support stem cell function, though stem cell therapies for aging remain experimental.

45. How does the microbiome affect longevity?

The gut microbiome influences metabolism, immunity, inflammation, and even brain function. Microbiome composition affects healthy aging, with certain bacterial profiles associated with longevity. Interventions targeting the microbiome may support longevity.

Questions About Expectations

46. How much can I expect to improve my biological age?

Improvement varies based on individual factors and baseline status. Some participants show significant improvements in biological age markers within the two-week program. Others show more modest changes. Continued improvement is expected with sustained lifestyle changes.

47. Will I feel different after the program?

Most participants report significant improvements in energy, mental clarity, sleep quality, and overall wellbeing. Some effects are immediate (from IV therapies); others develop over weeks to months as cellular renewal progresses.

48. How long do program benefits last?

Benefits are sustained with continued lifestyle optimization. The program establishes habits that support ongoing benefits. Participants who maintain the lifestyle practices taught in the program continue to see benefits. Periodic maintenance visits can support continued optimization.

49. Can I repeat the program?

The intensive program can be repeated, though most benefits are achieved with one intensive round followed by maintenance. Some participants return annually for a “refresh” and reassessment.

50. What is the future of longevity medicine?

The field is advancing rapidly. Senolytic therapies, NAD+ precursors, epigenetic reprogramming, and other interventions are being developed and refined. Gene therapy and cellular therapies may eventually provide more dramatic lifespan extension. The Longevity Reset program incorporates current best practices while remaining open to emerging evidence.

Medical Disclaimer

The information provided in this guide is for educational purposes only and is not intended as a substitute for professional medical advice, diagnosis, or treatment. While we strive to provide accurate and up-to-date information, the field of longevity science is rapidly evolving, and individual health situations vary significantly.

Always seek the advice of your physician or other qualified health provider with any questions you may have regarding a medical condition. Never disregard professional medical advice or delay in seeking it because of something you have read in this guide or on our website.

The Two Week Longevity Reset program and related services are not intended to diagnose, treat, cure, or prevent any disease. Results may vary depending on individual factors, commitment to recommended protocols, and other variables.

If you are experiencing a medical emergency, please call emergency services or go to the nearest emergency room immediately.

This guide is not intended to diagnose, treat, cure, or prevent any disease. Before starting any new diet, supplement, exercise, or treatment regimen, please consult with qualified healthcare providers.

Individuals with serious health conditions, on multiple medications, or with specific health concerns should consult with their healthcare providers before participating in intensive wellness programs.

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Related Services at Healers Clinic

• NLS Health Screening - Comprehensive biological age assessment
• Nutritional Consultation - Longevity-supportive dietary guidance
• IV Nutrition Therapy - NAD+ and cellular renewal nutrients
• Detoxification Programs - Environmental toxin reduction
• Two Week Longevity Reset Program - Comprehensive anti-aging program
• Book Your Consultation - Schedule your longevity consultation today

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This guide was last updated on January 27, 2026. For the most current information about the Two Week Longevity Reset program and longevity services, please contact our clinic directly.