Magnesium & Insulin Resistance: An Overlooked Connection
Insulin resistance is a major risk factor for conditions like heart disease, stroke, and diabetes, yet its causes are not always well understood. This video explores the role of magnesium deficiency in insulin resistance and metabolic dysfunction, highlighting its impact on glucose metabolism, insulin signaling, and pancreatic function. We discuss how common magnesium deficiency is, why standard blood tests may not detect it, and who is at higher risk. Additionally, we review clinical evidence, including meta-analyses of randomized controlled trials, showing that magnesium supplementation can improve insulin sensitivity and glycemic control. Finally, we compare different forms of magnesium supplements, their absorption rates, and potential side effects.Spotify Channel:https://podcasters.spotify.com/pod/show/sterlingmdphd/Chapters:00:00 - Insulin Resistance & Health Risks00:19 - Reversible Cause of Insulin Resistance00:46 - Magnesium & Glucose Metabolism01:25 - Detecting Magnesium Deficiency02:07 - Risk of Magnesium Deficiency02:57 - How Magnesium Affects Insulin & Glucose04:16 - Key Mechanisms Explained06:08 - Clinical RCT Evidence & Studies08:27 - Magnesium Improves Blood Pressure09:05 - Organic & Inorganic Magnesium Supplements10:31 - Supplement Risks11:06 - Final Thoughts & SummarySocial & Website:Instagram - https://www.instagram.com/sterlingmdphdX - https://x.com/sterlingmdphdFacebook - / sterlingmdphdNewsletter - http://eepurl.com/hQpdqTApple Podcasts: https://apple.co/3y438C9References & Show Notes:http://www.nicksterling.com/This content is not medical advice, is for general information purposes only,and does not constitute the practice of medicine or any other healthcare professional services. No doctor-patient relationship is formed. This content is not a substitute for medical evaluation or treatment and does not take precedence over information provided to you by your healthcare provider or official public health sources. Please visit http://nicksterling.com/terms for full Terms of Use.
-------- Â
11:26
Ozempic in the ER: Side Effects of GLP-1 Receptor Agonists
What are some common side effects of medications like Ozempic and Wegovy? From the front lines of healthcare, we explore adverse effects of these medications based on real-world visits to the emergency department. Learn about common side effects such as nausea, dehydration, and muscle wasting, as well as lesser-known risks like starvation ketosis and mood changes.
Chapters
0:00 - Introduction to & GLP-1 RAs
0:48 - Nausea and Vomiting as Side Effects
1:52 - Dehydration Leading to Kidney Injury
3:11 - GLP-1 RAs & Starvation Ketosis
4:16 - Muscle Wasting on GLP-1 RAs
5:08 - Depression and Mood Changes
5:39 - Honorable Mention: Gastroparesis
Video on Muscle Wasting & GLP-1 Receptor Agonists:
https://youtu.be/Po2gC3zG0C8
Spotify Channel:
https://podcasters.spotify.com/pod/show/sterlingmdphd/
Social & Website:
Instagram - https://www.instagram.com/sterlingmdphd
Newsletter - http://eepurl.com/hQpdqT
Apple Podcasts: https://apple.co/3y438C9
References & Show Notes:
http://www.nicksterling.com/
This content is not medical advice, is for general information purposes only and does not constitute the practice of medicine or any other healthcare professional services. No doctor-patient relationship is formed. This content is not a substitute for medical evaluation or treatment and does not take precedence over information provided to you by your healthcare provider or official public health sources. Please visit http://nicksterling.com/terms for full Terms of Use.
-------- Â
6:56
Ketamine for Depression, Anxiety, & PTSD - Changing the Brain Through Neuroplasticity
In this episode, we explore how ketamine, a dissociative anesthetic with a long history in medical use, is now being investigated for its rapid and sustained effects on depression, anxiety, and PTSD. We discuss its role in promoting neuroplasticity—rewiring the brain's structure to counteract stress-induced atrophy—and review the evidence from clinical trials, including a landmark 2023 meta-analysis. While ketamine shows promise in alleviating depressive symptoms and supporting neural growth, we also address its risks and the importance of professional oversight. Learn how this cutting-edge research is reshaping mental health treatment and what it means for the future of therapy.
Spotify Channel:
https://podcasters.spotify.com/pod/show/sterlingmdphd/#mentalhealth
Social & Website:
Instagram - https://www.instagram.com/sterlingmdphd
X - https://x.com/sterlingmdphd
Facebook - / sterlingmdphd
Newsletter - http://eepurl.com/hQpdqT
Apple Podcasts: https://apple.co/3y438C9
References & Show Notes:
http://www.nicksterling.com/
This content is not medical advice, is for general information purposes only,
and does not constitute the practice of medicine or any other healthcare professional services. No doctor-patient relationship is formed. This content is not a substitute for medical evaluation or treatment and does not take precedence over information provided to you by your healthcare provider or official public health sources. Please visit nicksterling.com/terms for full Terms of Use.
Timestamps
00:00:00 - Depression Treatments and Challenges
00:00:20 - Brain Rewiring and Neuroplasticity
00:00:36 - Ketamine: A Rapid Neuroplasticity Tool
00:00:52 - Ketamine's Origins as an Anesthetic
00:01:28 - How Ketamine Works in the Brain
00:01:49 - Evidence of Ketamine's Effectiveness for Depression
00:03:04 - Human Trials and Clinical Findings
00:04:14 - Short-Term and Medium-Term Efficacy
00:04:31 - Exploring Ketamine for PTSD and Anxiety
00:05:54 - Brain Changes in Depression
00:08:50 - How Ketamine Reverses Brain Damage
00:10:02 - Ketamine's Neuroplasticity Mechanisms
00:12:11 - Risks and Side Effects of Ketamine Treatment
00:14:15 - Long-Term Concerns and Cognitive Impacts
00:15:05 - A Holistic Approach to Depression Management
00:15:22 - Thanks and Channel Support
-------- Â
15:30
What are the Most Important Decades for Aging?
In this episode, we talk about a recent study from Nature Aging that suggests aging may not progress in a straight line. Using data from thousands of biological measurements, researchers identified key ages—44 and 60—where changes in aging appear to accelerate. We review what this means for our understanding of aging, how it affects multiple systems in the body, and the potential implications for health and disease. We also discuss what this study tells us—and doesn’t tell us—about the biology of aging and how it could guide future research.
Social & Website:
Instagram - https://www.instagram.com/sterlingmdphd
Twitter - https://x.com/sterlingmdphd
Newsletter - http://eepurl.com/hQpdqT
Apple Podcasts: https://apple.co/3y438C9
References & Show Notes: http://www.nicksterling.com/
The content of this podcast is not medical advice, is for general information purposes only, and does not constitute the practice of medicine or any other healthcare professional services. No doctor-patient relationship is formed. The content of this podcast is not a substitute for medical evaluation or treatment and does not take precedence over information provided to you by your healthcare provider or official public health sources. Please visit nicksterling.com/terms for full Terms of Use.
-------- Â
6:45
Can we Slow the Speed of Aging? Biological Age & Epigenetics - Varun Dwaraka, PhD
Can we slow the speed of aging? In this episode, Dr. Varun Dwaraka, Head of Bioinformatics at TruDiagnostic, walks us through through the science of measuring "biological age" using epigenetic markers, such as DNA methylation. We discuss how epigenetics (i.e. DNA methylation), may provide biomarkers of biological age, the rate at which aging occurs, and potentially early markers of disease. Dr. Dwaraka explains the distinctions between chronological and biological age, the development and refinement of epigenetic clocks, and the potential applications of these tools in aging interventions. The conversation also addresses the mechanisms of epigenetic regulation, the influence of lifestyle factors on biological age, and the future role of epigenetics in predicting and managing age-related diseases. Additionally, we examine the data science that underpins these clocks, their targeted outcomes, and a recent study published by Dr. Dwaraka and colleagues comparing aging biomarker outcomes in a vegan vs. omnivore diet intervention among twins.
Chapters:
00:00 - Biological Age & Epigenetics
01:07 - What is Biological Age?
03:34 - Rate of Aging (aka. Speed of Aging)
05:28 - Epigenetics and Aging
11:14 - How the Epigenome Changes Over Time
18:26 - The Evolution of Epigenetic Clocks
24:49 - Understanding the Horvath Clock
30:03 - New Generations of Aging Clocks
34:07 - The Impact of Lifestyle on Biological Age
42:13 - The Future of Epigenetics in Predicting Disease
50:34 - Practical Applications of Epigenetic Testing
57:43 - The Role of Multi-Omics in Understanding Aging
01:07:34 - The Rejuvenation Olympics and the Future of Anti-Aging
Social & Website:
Instagram - / sterlingmdphd
Twitter - / sterlingmdphd
Facebook - / sterlingmdphd
TikTok - / sterlingmdphd
Newsletter - http://eepurl.com/hQpdqT
Subscribe to the Podcast:
Apple Podcasts: https://apple.co/3y438C9
Spotify: https://open.spotify.com/show/5TDUK3F...
Google Podcasts: https://bit.ly/3Olanei
References & Show Notes:
http://www.nicksterling.com/
The content of this podcast is not medical advice, is for general information purposes only, and does not constitute the practice of medicine or any other healthcare professional services. No doctor-patient relationship is formed. The content of this podcast is not a substitute for medical evaluation or treatment and does not take precedence over information provided to you by your healthcare provider or official public health sources. Please visit nicksterling.com/terms for full Terms of Use.
New Zealand