1 / 37

Chapter 25, part 1

Chapter 25, part 1. Metabolism and Energetics. Learning Objectives. Understand the functions of metabolic and anabolic dynamics Summarize the characteristics of the absorptive and postabsorptive metabolic states Explain what constitutes a balanced diet and why such a diet is important

knocera
Download Presentation

Chapter 25, part 1

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Chapter 25, part 1 Metabolism and Energetics

  2. Learning Objectives • Understand the functions of metabolic and anabolic dynamics • Summarize the characteristics of the absorptive and postabsorptive metabolic states • Explain what constitutes a balanced diet and why such a diet is important • Define metabolic rate and discuss the factors involved in determining an individual’s BMR

  3. SECTION 25-1An Overview of Metabolism

  4. Metabolism • Metabolism is all the chemical reactions that occur in an organism • Cellular metabolism • Cells break down excess carbohydrates first, then lipids • Cells conserve amino acids • 40% of the energy released in catabolism is captured in ATP • Rest is released as heat

  5. Figure 25.1 An Introduction to Cellular Metabolism Figure 25.1

  6. Anabolism • Performance of structural maintenance and repairs • Support of growth • Production of secretions • Building of nutrient reserves

  7. Figure 25.2 Metabolic Turnover and Cellular ATP Production Figure 25.2

  8. Cells and Mitochondria • cells provide small organic molecules for their mitochondria • Mitochondria produce ATP used to perform cellular functions

  9. Homeostasis • No one cell of the human body can perform all necessary homeostatic functions • Metabolic activities must be coordinated

  10. Body has five metabolic components • Liver • The focal point for metabolic regulation and control • Adipose tissue • Stores lipids primarily as triglycerides • Skeletal muscle • Substantial glycogen reserves

  11. Body has five metabolic components • Neural tissue • Must be supplied with a reliable supply of glucose • Other peripheral tissues • Able to metabolize substrates under endocrine control

  12. The absorptive state • The period following a meal • Nutrients enter the blood as intestinal absorption proceeds • Liver closely regulates glucose content of blood • Lipemia commonly marks the absorptive state • Adipocytes remove fatty acids and glycerol from bloodstream • Glucose molecule are catabolized and amino acids are used to build proteins

  13. Figure 25.15 The Absorptive State Figure 25.15

  14. The Postabsorptive state • From the end of the absorptive state to the next meal • Body relies on reserves for energy • Liver cells break down glycogen, releasing glucose into blood • Liver cells synthesize glucose • Lipolysis increases and fatty acids released into blood stream • Fatty acids undergo beta oxidation and enter TCA

  15. The Postabsorptive state • Amino acids either converted to pyruvate or acetyl-CoA • Skeletal muscles metabolize ketone bodies and fatty acids • Skeletal muscle glycogen reserves broken down to lactic acid • Neural tissue continues to be supplied with glucose

  16. Figure 25.16 Metabolic Reserves Figure 25.16a

  17. Figure 25.17 The Postabsorptive State Figure 25.17

  18. SECTION 25-7Diet and Nutrition

  19. Diet and Nutrition • Nutrition • Absorption of nutrients from food • Balanced diet • Contains all the ingredients necessary to maintain homeostasis • Prevents malnutrition

  20. Food • Food groups and food pyramids • Used as guides to avoid malnutrition

  21. Food Groups • Six basic food groups of a balance diet arranged in a food pyramid • Milk, yogurt and cheese • Meat, poultry, fish, dry beans, eggs, and nuts • Vegetables • Fruits • Bread, cereal, rice and pasta • Base of pyramid • Fats, oils and sweets • Top of pyramid

  22. Figure 25.18 The Food Pyramid and Dietary Recommendations Figure 25.18

  23. Nitrogen balance • N compounds contain nitrogen • Amino acids, purines, pyrimidines, creatine, porphyrins • Body does not maintain large nitrogen reserves • Dietary nitrogen is essential • Nitrogen balance is an equalization of absorbed and excreted nitrogen

  24. Minerals • Act as co-factors in enzymatic reactions • Contribute to osmotic concentrations of body fluids • Play a role in transmembrane potentials, action potentials • Aid in release of neurotransmitters and muscle contraction • Assist in skeletal construction and maintenance • Important in gas transport and buffer systems • Aid in fluid absorption and waste removal

  25. Vitamins • Are needed in very small amounts for a variety of vital body activities • Fat soluble • Vitamins A, D, E, K • Taken in excess can lead to hypervitaminosis • Water soluble • Not stored in the body • Lack of adequate dietary intake = avitaminosis

  26. SECTION 25-8Bioenergetics

  27. Bioenergetics • The study of acquisition and use of energy by organisms • Energy content of food expressed in Calories per gram (C/g)

  28. Food and energy • Catabolism of lipids yields 9.46 C/g • Catabolism of proteins and carbohydrates yields ~4.7 C/g

  29. Metabolic rate • Total of all anabolic and catabolic processes underway • Basal metabolic rate (BMR) is the rate of energy used by a person at rest

  30. Thermoregulation • Homeostatic regulation of body temperature • Heat exchange with the environment involves four processes: • Radiation • Conduction • Convection • Evaporation

  31. Figure 25.19 Routes of Heat Gain and Loss Figure 25.19

  32. Regulation of heat gain and loss • Preoptic area of hypothalamus acts as thermostat • Heat-loss center • Heat-gain center • Mechanisms for increasing heat loss include: • Peripheral vasodilation • Increase perspiration • Increase respiration • Behavioral modifications

  33. Mechanisms promoting heat gain • Decreased blood flow to the dermis • Countercurrent heat exchange • Shivering thermogenesis and nonshivering thermogenesis • Differs by individuals due to acclimatization

  34. Figure 25.20 Countercurrent Heat Exchange Figure 25.20

  35. Thermoregulation • Problems in infants • Lose heat quickly due to their small size • Do not shiver • Use brown fat to accelerate lipolysis - energy escapes as heat • Variations in adults • Use subcutaneous fat as an insulator • Different hypothalamic thermostatic settings

  36. Pyrexia is elevated body temperature • Fever is body temperature greater than 37.2oC • Can result from a variety of situations including: • Heat exhaustion or heat stroke • Congestive heart failure • Impaired sweat gland activity • Resetting of the hypothalamic thermostat by circulating pyrogens

  37. You should now be familiar with: • Why cells need to synthesis new organic components • The characteristics of the absorptive and postabsorptive metabolic states • What constitutes a balanced diet and why such a diet is important • Metabolic rate and the factors involved in determining an individual’s BMR

More Related