CARBOHYDRATE TOLERANCE Glucose tolerance is the ability to regulate the blood glucose concentration after the administration of a test dose of glucose.

Slides:

Advertisements

Similar presentations

Long-term Complications of Type 2 Diabetes

Advertisements

Glycogen metabolism. Glycogen is homopolysaccharide formed of branched α-D- GLUCOSE units (α1,4and α1,6) each branch is made of 6-12 glucose units, at.

Lecture 12 Modified from internet resources, journals and boks

GLUCAGON AND ADRENALINE ACTION - REGULATION OF METABOLISM

ILA: DIABETES Ass Prof Dr. Gihan Sharara. Questions (Based on basic biochemistry) What is hyperglycemia? Why was there hyperglycemia in this patient?

Hepatic Glycogenolysis

Biochemistry department

CLINICAL CHEMISTRY (MLT 301) CARBOHYDRATE LECTURE ONE

Chapter 22 Energy balance Metabolism Homeostatic control of metabolism

Glucose Homeostasis  brain has high consumption of glucose –uses ~20% of RMR –1° fuel for energy  during exercise, working muscle competes with brain.

Hormonal control of circulating nutrients Overview: The need for glucose and nutrient homeostasis Interchange of nutrients / fuel stores Insulin:secretion.

Lehninger Principles of Biochemistry Fourth Edition Chapter 23: Hormonal Regulation and Integration of Mammalian Metabolism Copyright © 2004 by W. H. Freeman.

Hormonal control and responses

Homeostatic Control of Metabolism

MLAB 2401: Clinical Chemistry Keri Brophy-Martinez

Endocrine Physiology PANCREAS Dr. Meg-angela Christi M. Amores.

Gluconeogenesis COURSE TITLE: BIOCHEMISTRY 2 COURSE CODE: BCHT 202 PLACEMENT/YEAR/LEVEL: 2nd Year/Level 4, 2nd Semester M.F.Ullah, Ph.D.

Review: can you… Explain how Carbs are digested & absorbed Draw the steps involved in Glycolysis Compare and contrast aerobic respiration to two different.

Unit Fourteen: Endocrinology and Reproduction

Carbohydrate metabolism. CHO supply Diet Endogenous reserves –Liver –Muscle –Blood Limited Anaerobic glycolysis –Anaerobic Does not need oxygen Occurs.

Hormonal regulation of carbohydrate metabolism

A and P II Glucose Metabolism. 120 grams of glucose / day = 480 calories.

Glycogen Metabolism.

Integration of Metabolism

Regulation of Metabolism Lecture 28-Kumar

Brooks ch 9 p ; –Some small sections already covered Outline Maintenance of Blood Glucose during exercise –Feed forward Control - SNS –Feed.

Integration of Metabolism

Endocrine Block Glucose Homeostasis Dr. Usman Ghani.

Endocrine Physiology The Endocrine Pancreas Dr. Khalid Al-Regaiey.

Overview of Glucose Metabolism

· It is the storage from of glucose in animals

Glycogen metabolism. Glycogen is homopolysaccharide formed of branched α-D- GLUCOSE units (α1,4and α1,6) each branch is made of 6-12 glucose units, at.

Summary of Metabolic Pathways

Hormones and metabolism an overview

Carbohydrate Digestion Forms of Carbohydrate Simple sugars Starch Glycogen Fiber.

Glucose Homeostasis By Dr. Sumbul Fatma.

Endocrine Physiology The Endocrine Pancreas. A triangular gland, which has both exocrine and endocrine cells, located behind the stomach Strategic location.

Endocrine Physiology The Endocrine Pancreas Dr. Khalid Al-Regaiey.

Substrate Breakdown The free Energy of oxidation of a food is the amount of energy liberated by the complete oxidation of the food.

Metabolic Function Of The Kidney.

Metabolic interrelationship

Introduction & Biomedical importance

Metabolism of Carbohydrates

GLUCAGON. Glucagon: is secreted when “Glucose is GONE” Peptide hormone made of 29 amino acids. MW: 3485 Has several functions that are dramatically opposite.

Selected Hormonal Issues Relating to Exercise and Substrate Use.

1- Blood glucose > 120 mg/dl (6.8 mmol/L) on two repeated measurements. Normal range for blood glucose mg/dl ( mmol/L). boarderline concentrations.

Regulation of Glucose metabolism Mahmoud A. Alfaqih BDS PhD Jordan University of Science and Technology Lippincott’s illustrated reviews: Biochemistry.

A Mathematical Model of Metabolism for Diabetes Dayu Lv Advisor: Dr. Goodwine.

 Insulin is a peptide hormone released by beta cells when glucose concentrations exceed normal levels (70–110 mg/dL).  The effects of insulin on its.

What triggers Insulin release? Elevated blood glucose levels stimulate pancreatic beta cells to produce and release insulin into the circulation.

Organ and metabolism HENDRA WIJAYA.

Endocrine System (part 2) Keri Muma Bio 6. Pancreas Located behind the stomach Has both exocrine and endocrine functions.

Biochemistry Seventh Edition CHAPTER 21 Glygogen Metabolism Copyright © 2012 by W. H. Freeman and Company Berg Tymoczko Stryer.

Carbohydrate metabolism (disorders)

Peshawar Medical College Regulation of Blood Glucose Level.

Endocrine Block Glucose Homeostasis Dr. Usman Ghani.

Integration of Metabolism

The Endocrine Pancreas

Glucose Homeostasis By Dr. Sumbul Fatma.

Hormonal regulation of metabolism

By Dr. Dipendra Raj Pandeya, PhD Assistant Professor Department of Clinical Laboratory Science College of Applied Medical Sciences Al Jouf University.

Anatomy & Physiology II

Relationship between plasma glucose, insulin and glucagon levels

Regulation and Control

Insulin and Glucagon Kamilah Gonzalez.

Regulation of carbohydrate metabolism

ASS.Lec. Suad Turky Ali Lec -7-

18. Pancreatic function and metabolism

The Endocrine Pancreas

ASS.Lec. Suad Turky Ali Lec -7-

Presentation transcript:

CARBOHYDRATE TOLERANCE Glucose tolerance is the ability to regulate the blood glucose concentration after the administration of a test dose of glucose (normally 1 g/kg body weight) Diabetes Mellitus decrease glucose tolerance. Normal blood glucose levels are mg per desi liter (500/ /180 mmol / l). Depend on the intake of food before the test. Patients do not febrile, not in stress.

Plasma glucose (mmol/l) 0 8 am 6 pm noon midnight Time of day Plasma insulin (pmol/l) Glucose Insulin meals Blood glucose levels are relatively constant

There is also an opinion that under the normal curve 160 mg/100 ml one hour and 120 mg/100 ml two hours after administration of glucose.

BLOOD GLUCOSE LEVELS Sources: 1) Food 2) Gluconeogenesis 3) Glycogenolysis Maintenance of blood glucose by the liver with glycogenolysis and gluconeogenesis, is under hormonal control (glucagon or if blood glucose drops very promptly  epinephrine)

Coordination between organs is needed to control blood glucose levels Glucose Glycogen Gluconeogenesis adipocytes liver muscle Food consumption

Carbohydrate metabolism Glucose turnover (basal state) 55% Oxidation 20% Glycolysis (muscle) 25% Re-uptake (liver, gut) 10% Muscle 45% Brain Glucose 75% Glycogenolysis 25% Gluconeogenesis 60% from lactate

If blood glucose ↓ pancreatic glucagon released, glucagon activates adenylyl cyclase, an enzyme catalyzes formation of cAMP from ATP, cAMP activates the cAMP-dependent protein kinase, which in turn will converts phosphorylase kinase b to phosphorylase kinase a (ATP as phosphate donors). Active phosphorylase kinase catalyzes phosphorylase b to phosphorylase a. Phosphorylase a break down glycogen and generate G 1P. With glucantransferase and debranching enzyme glycogenolysis will proceed until the liver depleted with glycogen. G-1P converted to G-6P and G-6Pase splits the phosphate. Glucose then enters the circulation.

Glycogen n Glycogen n -1 G-1P  G-6P  G ( in the Liver ) +

Other hormones (in addition to glucagon and epinephrine) affecting blood glucose levels: Insulin GH ACTH Cortisol Thyroid

INSULIN Secreted in inactive form Proinsulin C peptide + insulin  C peptide is more easily measured Substances or chemicals which stimulates insulin secretion: glucose, amino acids, free fatty acids, ketone bodies, glucagon, tolbutamide and secretine. In contrast epinephrine inhibits Insulin secretion Insulin entrance of G into cells except liver, erythrocytes and neuronal cells.

C peptide Proinsulin Insulin MW  Ca 2+ -dependent endopeptidases A Chain B Chain PC2 (PC3) PC3

Growth Hormone: Growth hormone may affect levels blood glucose by activating Hormone Sensitive Lipase. The resulting fatty acids, and derivatives (acetyl-CoA and ketone compounds) causes inhibition of glucose consumption by peripheral tissues

ACTH (Adreno Cortico Tropic Hormone) Affect the metabolism of carbohydrates together with GH increase gluconeogenesis Cortisol: enhance gluconeogenesis

Renal function in Carbohydrate Metabolism As a “safety clap“. If blood glucose ↑, some will be excreted through the kidneys (renal threshold) Renal threshold: mg / dl. Glucosuria occurred Tubule reabsorption capability 350 mg / min.

Carbohydrate metabolism Glucose turnover (basal state) 55% Oxidation 20% Glycolysis (muscle) 25% Re-uptake (liver, gut) 10% Muscle 45% Brain → Glucose 75% Glycogenolysis 25% Gluconeogenesis 60% from lactate

Biomedical importance Normal metabolism: hunger if not prolonged, sports, pregnancy and lactation Abnormal metabolism: lack of certain foodstuffs, as well as enzyme deficiencies or because of abnormal hormone secretion. The most interesting disease to study is diabetes mellitus ( DM ).

Glycolysis: Pyruvate kinase enzyme  hemolytic anemia. Malignant tumor  ↑ lactic acid Heart can not tolerance unaerobic glycolysis Glycogen: abnormal accumulation of I  VIII Oxidation of pyruvic acid: vitamin deficiency vit. B1  beri-beri MP Shunt: G6PD deficiency  hemolytic Fructose: Essential Fructosuria, "hereditary" fructose intolerance Sorbitol: ↑ peristalsis Diabetes Mellitus: ↓ glucose utilization

Hemolytic can be caused by deficiency of the following enzymes: PFK-1 (phosphofructo kinase-1) Pyruvate kinase G6PD (glucose 6 phosphate dehydrogenase) High dietary fructose or fructose infusion can cause: ↓ inorganic phosphate (Pi)  ↓ ATP synthesis Decreases in inhibition of Purine synthesis by ATP   ↑ Uric acid (uric acid)