Seeds Scientific Research & Performance Mastermind 12 Exercise Metabolism & Performance 2024

Description

+ Include: 9 videos + 9 file sub vtt + 9 pdf, size:  GB

+ Target Audience: sports medicine physicians, physiologists, and integrative doctors

+ Sample video: contact me for sample video

+ Information:

1. Overview

The Seeds Scientific Research & Performance (SSRP) Mastermind 12: Exercise Metabolism & Performance 2024 course provides an advanced clinical review of cellular medicine as it relates to physical performance and metabolic efficiency. The program focuses on optimizing athletic performance, enhancing recovery, and utilizing targeted peptide therapies and metabolic interventions to improve exercise capacity and muscular endurance.

Course Date: 2024

Exercise metabolism fundamentals for clearer recovery planning and individualized training tolerance

2. Learning Objectives

• Understand the fundamental cellular and biochemical pathways driving exercise metabolism, energy production, and muscular endurance.

• Evaluate the clinical applications of advanced peptide therapies for enhancing physical recovery, tissue repair, and athletic performance.

• Implement targeted cellular medicine strategies to optimize mitochondrial efficiency and reduce oxidative stress during rigorous exercise.

• Analyze the physiological impact of nutrition, targeted supplementation, and metabolic interventions on muscle hypertrophy and strength.

• Formulate evidence-based, personalized protocols to address metabolic bottlenecks and improve overall human performance and longevity.

3. Target Audience

Best for sports medicine physicians, physiologists, and integrative doctors who want updates on peptide therapies and exercise metabolism.

4. Topics

• Over 10 hours of video content
• 3 modules
• 9 lessons
• Downloadable learning guides

Mastermind 12: Three Levels of Access

Mastermind 12 is packed full of value, but we understand that some may want access to more foundational or specific information from the event. For the first time, we are now allowing you to purchase recordings from only the first session or the first day. Session 1 is front-loaded with a foundational look at the relationship between exercise performance and cellular health, setting the stage for all that’s included in Day 1 and Digital On-Demand. Day 1 builds on this foundation with deeper-dives into targeting cellular redox for improving exercise performance by integrating peptides & other small molecule therapies into a patient’s exercise regimen or plan-of-care. The full Digital On-Demand package goes on to cover the full range of exercise’s relationship with healthspan, including metabolism & insulin sensitivity, metabolic health, nervous & immune system function, nutrition & the microbiome, cancer, and so much more.

Lecture #1

• Introduction: Exercise Performance and Cellular Health
• Overview of the connection between exercise and cellular function.
• Importance of cellular redox, mitochondrial health, and disease impact.
• Setting the stage: Exercise as a therapeutic intervention beyond physical fitness.
• Enhancing Muscle Recovery and Repair: Exercise as We Age
• Cellular stress responses and their role in muscle repair.
• Mechanisms of muscle and nerve recovery with aging.
• How aging impacts cellular repair processes.
• Role of exercise in preserving muscle and nerve function.

Lecture #2

• Cellular Redox: The Core of Exercise Adaptation and Healthspan
• Basics of cellular redox: ROS and reactive nitrogen species.
• Antioxidants’ role in regulating oxidative stress.
• Impact of redox signaling on muscle and nerve function.
• Hormetic response of exercise: balancing oxidative stress for adaptation.
• Integrating Peptides and Small Molecules for Redox Modulation and Recovery
• Key peptides: BPC-157, TB-4, and others in their role in enhancing recovery.
• Small molecules: Nrf2 activators, CoQ10, and NAD+ in cellular redox.
• Therapeutic strategies for optimizing redox balance and cellular health.

Lecture #3

• Exercise and Mitochondrial Health: From ATP to Autophagy
• Role of mitochondria in exercise-induced adaptations.
• Mitochondrial dynamics: fission, fusion, and mitophagy.
• How exercise drives mitochondrial biogenesis.
• Autophagy and its role in maintaining mitochondrial health.
• Practical strategies to enhance mitochondrial function through exercise, peptides, and small molecules.

Lecture #4

• Understanding Exercise’s Impact on Metabolism and Insulin Sensitivity
• Mechanisms of exercise-induced glucose uptake.
• Improving insulin sensitivity through muscle contraction.
• Exercise as a tool for restoring metabolic flexibility.
• Integrating Peptides, Repurposed Drugs, and Supplements for Metabolic Health
• Peptides: GLP-1 agonists, GHRH/GHRP’s ,MOTS-c, SS-31 and their role in enhancing insulin sensitivity.
• Repurposed drugs: Metformin?
• Supplements: Plasmologens, Omega Fatty acids , Petadecanoic Acid, Alpha-lipoic acid, magnesium, and mitochondrial enhancers
• Practical application in clinical settings.

Lecture #5

• The Role of the Autonomic Nervous System in Exercise Recovery and Performance
• Sympathetic vs. parasympathetic regulation.
• Heart rate variability (HRV) as a biomarker of autonomic balance.
• Impact of stress on autonomic function and exercise recovery.
• Strategies to optimize autonomic function through exercise.
• Exercise and the Immune System: Myokines, Inflammation, and Immunity
• Key myokines: IL-6, irisin, and their role in systemic inflammation.
• Exercise-induced modulation of immune function.
• Balancing inflammation: anti-inflammatory vs. pro-inflammatory exercise adaptations.
• Clinical strategies for leveraging exercise in immune modulation.

Lecture #6

• Optimizing the Immune Response with Peptides, Supplements, and Small Molecules
• Immune-supporting peptides: Thymosin alpha-1 and TB-4
• Supplement strategies: Zinc, vitamin D, omega-3s,plasmologens, Pentadecanoic Acid, polyphenols
• Small molecules: PPS54 and their impact on immune regulation
• Integrating these approaches to enhance exercise recovery and systemic immunity

Lecture #7

• Exercise and the Microbiome: Gut-Muscle Axis in Health and Disease
• Gut barrier integrity and systemic health
• Impact of exercise on gut microbial diversity and SCFA production
• Role of prebiotics, probiotics, and synbiotics in supporting exercise outcomes
• Microbiome’s role in systemic inflammation and recovery
• Leveraging Nutritional Strategies, Amino Acids, and Protein for Muscle Health
• Amino acid balance for muscle protein synthesis (MPS)
• Timing and quality of protein intake for different types of exercise
• Practical guidelines for protein needs based on training intensity, goals, and age

Lecture #8

• Exercise as an Anti-Cancer and Anti-Aging Strategy
• Exercise-induced modulation of the tumor microenvironment
• Key pathways: AMPK, mTOR, and autophagy in cancer prevention
• Exercise and its impact on cellular senescence and telomere health
• Strategies for integrating exercise in cancer prevention and management
• Integrating Peptides, Repurposed Drugs, and Supplements in Exercise Programs
• Peptides for performance and recovery: IGF-1, GHRH/GHRPs, and more
• Repurposed drugs: Metformin, rapamycin, and senolytics in healthspan optimization
• Supplements: Omega-3s, vitamin C, polyphenols, others and their role in enhancing exercise outcomes

Lecture #9

• Conclusion: Personalized Exercise Programs for Healthspan Optimization
• Designing exercise prescriptions based on individual metabolic profiles
• Integrating peptides, repurposed drugs, and nutritional strategies
• Monitoring biomarkers and metrics for long-term adaptation and healthspan enhancement
• Creating a practical roadmap for clinicians and patients to implement personalized exercise and therapeutic strategies.