IntraCellular Diagnostics, Inc®       

        Lecture Series 2014    

       Mitochondria: The Impact of Magnesium on Intracellular Structures and Function©                       
 

     
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                                            Part  I

       1-1   INTRODUCTION:  Mitochondria, Diabetes, and Heart Disease
        1-2    Mitochondria, The Powerhouse of All Cells
        1-3    Mitochondria and Oxygen Consumption
        1-4    The Complex Structure of Mitochondria: The Oxygen Factor
        1-5    ATP, Oxygen, and Aerobic Metabolism
        1-6    ATP: The Fuel that Drives All Cells
        1-7    Production of the Energy Rich Molecule, ATP: Oxidative Phosphorylation
        1-8    The Structure of F1 Particles or ATPase: Energy Producing Functions

        2-1    Magnesium Depletion Depresses Insulin Action
        2-2    Healthy Mitochondria
        2-3    Magnesium Depletion Depresses ATP Production in Diabetic Cells
        2-4    Diabetic Mitochondria in Defective State
        2-5    Magnesium and Insulin: Restoring Energy Production
        2-6    Magnesium Depleted Mitochondria: Compromises Oxygen Consumption
        2-7    Energy Conversion In a Culture of Living Mitochondria
        2-8    Mitochondria with Magnesium Promotes Oxygen Consumption
        2-9    Restoring Diabetic Mitochondria and Energy Production
        2-10  Magnesium and Insulin: Restoring Diabetic Mitochondrial Function
        2-11  Magnesium and Insulin: Restoring Diabetic Mitochondrial Function
        2-12  Magnesium and Insulin: Restoring Function and Structure

        3-1    New Rendition of F1 Mitochondrial Particle: Mechanical Structure
        3-2    How Heart Attacks Damage Mitochondria
        3-3    Oxidative Phosphorylation Interrupted: Ischemia of Cardiac Tissue
        3-4    Calcium Crystals Damage the Mitochondria of Cardiac Tissue
        3-5    Magnesium Infusion Protects the Heart Muscle
        3-6    Magnesium Protective Effect on Cardiac Mitochondria
        3-7    Preventing Imbalanced Cell Metabolism and Myocardial Necrosis
        3-8    Magnesium Alters the Rate and Characteristics of Calcium Uptake                

        4-1    Developing a Diagnostic Method for Intracellular Deficiencies
        4-2    Lymphocytes, Serum, Red Bloor Cells
        4-3    Red Blood Cells Do Not Consume Oxygen and Do Not Have Mitochondria
        4-4    Mouth Tissue Generally Reflects Overall Health: Epithelial Cells
        4-5    Sublingual Epithelial Cell Properties: Aerobic Metabolism, Mitochondria
        4-6    Epithelial Buccal Cells Have Full Metabolic Aerobic Pathways
        4-7    Adapting Technology to Clinical Practice
        4-8    Sublingual Epithelial Cells Under Electron Microscopy
        4-9    Visualizing the Cell and the X-Ray Fluorescent Spectrum
        4-10  Energy Dispersive X-Ray Analysis of Sublingual Cells

                                     
                                                       Part II

        5-1    Human Cardiac, Muscle, Organ Tissue Correlations with Buccal Cells

        PART 11 WILL BE PRESENTED AT A LATER DATE. RESEARCH IS AVAILABLE ON OUR WEB SITE.

                    
   
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