Madison Lepore, APRN, began her career caring for critically ill patients in both the Medical and Pediatric Intensive Care Units, where she developed a strong foundation in complex patient care, clinical precision, and compassionate medicine. Her experience in the ICU deepened her passion for understanding the body at a systems level and inspired her commitment to helping patients optimize their health beyond traditional medicine. After earning her Master’s degree as a Nurse Practitioner, Madison achieved her dream of joining Redox Medical Group, where she has the privilege of working directly under Dr. William Seeds, founder of the SSRP Institute and pioneer in the field of Cellular Medicine. Working alongside Dr. Seeds and the Redox team has allowed her to further expand her knowledge through a highly individualized and science-driven approach to patient care. Madison is passionate about helping patients feel heard, supported, and empowered throughout their wellness journey. She believes no patient should feel alone in navigating their health and is dedicated to building meaningful relationships through compassion, education, and individualized care. Her background in critical care and Cellular Medicine allows her to approach patient care with both empathy and science-driven insight.
Madison Lepore
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VIEW ALLDr. Seeds’ Office Hours – Episode 095
1. Sjögren’s, POTS, Mold, Biofilms & Lumbrokinase (0:45)
2. PMDD, Allopregnanolone & Mitochondrial Efficiency (7:28)
3. Retatrutide, Glucagon & Metabolic Flexibility (20:01)
Cellular Optimization for EDS Surgical Support
Dr. Seeds reviews peptide and supplemental considerations for cellular optimization in an EDS patient preparing for orthopedic surgery. (Question Link)
The Phosphatidylcholine Pathway
Dr. Seeds expands on Journal Club Episode 92 to explore the role of phosphatidylcholine in lipid metabolism, methylation, and mitochondrial integrity during aging. He also highlights how estrogen loss may impact this pathway, especially in pre- and post-menopausal women.
Aging-Associated Decline of Phosphatidylcholine Synthesis is a Malleable Trigger of Natural Mitochondrial Aging
Dr. Seeds explores how age-related decline in phosphatidylcholine synthesis may contribute to mitochondrial aging and why that matters in Cellular Medicine. This discussion connects membrane integrity, mitochondrial function, methylation, and metabolic resilience, while highlighting how this pathway may be more modifiable than we once thought.
1. Managing shingles outbreaks in GLP-1 patient through peptides (0:40)
2. Peptide strategies in suspected ALS (15:56)
3. Improving durability in dementia treatment (25:08)