Hormone Regulation

Biologic therapies in hormone regulation optimize endocrine function by promoting cellular repair, reducing inflammation, and improving mitochondrial health. Stem cells play a key role in restoring balance by rejuvenating hormone-producing tissues.

Common Conditions Treated

Thyroid Dysfunction: Hypothyroidism or hyperthyroidism.
Adrenal Fatigue: Chronic stress impacting cortisol levels.
Menopause and Andropause: Hormonal imbalances due to aging.
Insulin Resistance: Dysregulated blood sugar affecting hormone health.

Role of Stem Cells and Mitochondria

High-quality MSCs help rejuvenate hormone-producing organs such as the adrenal glands, thyroid, and pancreas. By enhancing mitochondrial function, stem cells improve energy production, enabling these glands to function more effectively.

Treatment Modalities

Mesenchymal Stem Cell (MSC) Therapy: High-quality MSCs repair damaged endocrine tissues.
Exosome Therapy: Modulates inflammation and supports cellular regeneration.
Platelet-Rich Plasma (PRP): Helps regenerate localized areas of hormone production.

Procedure Overview

Patient Selection:

Ideal Candidates: Patients with chronic fatigue, mood swings, or age-related hormonal decline.
Contraindications: Active malignancies or poorly controlled autoimmune conditions.

Preparation:

Endocrine Assessment: Comprehensive hormone panels.
Informed Consent: Discuss the role of biologics in improving endocrine health.

Administration:

Targeted Injections: Biologics delivered to specific glands or tissues.
Systemic Support: IV infusion of exosomes for widespread effects.

Post-Treatment Care:

Promote lifestyle interventions such as regular exercise and balanced diets to support mitochondrial health.
Regular hormone monitoring and adjustments.

Supporting Studies

MSC Therapy for Endocrine Disorders: Reviews improvements in thyroid and adrenal health. Read study
Exosome Therapy in Hormone Regulation: Demonstrates improved endocrine function through regenerative factors. Read study