Dr. Hausman-Cohen has been in the field of integrative medicine for over 25 years. She is the co-author of publications on a range of topics including nutrigenomics, utilization of genomics for improving outcomes in Autism and dementia, and a textbook chapter relating to using genomics to identify modifiable contributing causes and improve outcomes in cognitive decline. She is the co-founder of both Resilient Health Austin and IntellxxDNA® – a genomics clinical decision support tool being used across the county, that empowers clinicians to practice precision medicine in both academic and private practice settings. She and her co-founder developed IntellxxDNA as an answer to an unmet need in the medical community; the need for an accurate, evidence-based genomics tool geared at helping clinicians practice true root cause medicine, whether the patient has mental health concerns, cognitive decline, autism, or medical mysteries. Dr. Hausman-Cohen received both her master’s degree and medical degree from Harvard Medical School.
Sharon Hausman-Cohen
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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)