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Eosinophils (Absolute)

Albumin

RBC (Red Blood Cell Count)

NRBC (Nucleated Red Blood Cells)

Copper Serum

Calcium

Hemoglobin A1C

TSH (Thyroid Stimulating Hormone)

A/G Ratio (Albumin/Globulin Ratio)

UIBC (Unsaturated Iron Binding Capacity)

Vitamin A (Retinol)

Alkaline Phosphatase (ALP)

SHBG (Sex Hormone Binding Globulin)

Lactic Acid

TPO Ab (Thyroid Peroxidase Antibodies)

Fasting Insulin

LDH (Lactate Dehydrogenase)

Platelet Count

Glucose

Lymphocytes (Absolute)

Uric Acid

Sodium

WBC (White Blood Cell Count)

EPA (Eicosapentaenoic Acid)

RBC Magnesium

Fibrinogen

Free Testosterone

ANA (Antinuclear Antibody)

IGF-1 (Insulin-Like Growth Factor 1)

ALT (Alanine Aminotransferase)

Basophils (Absolute)

Hemoglobin

ApoA/ApoB Ratio

DHEA-S (Dehydroepiandrosterone Sulfate)

Ceruloplasmin

Total Testosterone

TNF-α (Tumor Necrosis Factor-alpha)

Bicarbonate

MCHC (Mean Corpuscular Hemoglobin Concentration)

Homocysteine
Optimize longevity by monitoring LDL Cholesterol levels, a key biomarker for heart health and overall wellness. Stay informed, live better.

LDL Cholesterol (calculated)

LDL Cholesterol (calculated) is a critical biomarker used in assessing an individual’s risk for cardiovascular disease and overall longevity. Elevated levels of LDL cholesterol are associated with a higher risk of heart disease, stroke, and other cardiovascular issues, which can significantly impact lifespan. Monitoring and managing LDL cholesterol levels through lifestyle modifications and, when necessary, medical interventions, can improve longevity and reduce the risk of cardiovascular-related mortality. As a longevity expert, I highly recommend regular monitoring of LDL cholesterol and taking proactive steps to maintain it within healthy ranges to support overall health and longevity.

Biomarker Explained

LDL Cholesterol (calculated) is a critical biomarker used in assessing an individual’s risk for cardiovascular disease and overall longevity. Elevated levels of LDL cholesterol are associated with a higher risk of heart disease, stroke, and other cardiovascular issues, which can significantly impact lifespan. Monitoring and managing LDL cholesterol levels through lifestyle modifications and, when necessary, medical interventions, can improve longevity and reduce the risk of cardiovascular-related mortality. As a longevity expert, I highly recommend regular monitoring of LDL cholesterol and taking proactive steps to maintain it within healthy ranges to support overall health and longevity.

Keywords:

LDL Cholesterol, Biomarker, Cardiovascular Disease, Longevity, Lifestyle Modifications, Medical Interventions, Mortality

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Longevity Direct logo in color – promoting personalized longevity insights and AI-driven health optimization

Rapamycin

Metformin

GLP-1

General Longevity
Heart Health
Weight Management
Glucose Control
Cognitive Function
Diabetes Prevention
Mood Support
Energy & Fatigue
Autoimmune Support
Blood Pressure
Chronic Pain & Arthritis
Aging Skin
Men’s Aging
Women’s Aging

Longevity Library
About

get Started
Client portal

Contact

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How does Rapaymcin work?

Rapamycin slows aging by targeting the mTOR pathway, shifting the body’s focus from growth to repair. It promotes cellular recycling, reduces overgrowth linked to disease, and enhances resilience to stress.

Imagine your body as a city, bustling with activity.

Cells are the workers, and mTOR (mechanistic target of rapamycin) is the city planner, deciding where to focus resources – building new structures, cleaning up waste, or repairing old ones.

As we age, mTOR often prioritizes building (cell growth) over maintenance (cellular repair), leading to “clutter” in our bodies that contributes to aging and disease.

This is where Rapamycin comes in.

It acts like a wise advisor to mTOR, convincing it to slow down unnecessary growth projects and focus on clean up and repair instead.

Specifically, Rapamycin:

Activates cellular recycling (autophagy):

Think of autophagy as the city’s waste management system. Damaged parts of cells are broken down and reused, keeping the system efficient and healthy.

Reduces harmful overgrowth:

Overactive mTOR has been linked to diseases such as cancer, cardiovascular disease, and neurodegenerative conditions like Alzheimer’s. By dialing back excessive growth signals, Rapamycin helps prevent these issues.

Supports stress resilience:

When cells are less focused on growing, they’re better equipped to handle stress, repair damage, and maintain long-term health.