1 / 19

Body Fluid Compartments – Part 1 Body Composition

Body Fluid Compartments – Part 1 Body Composition . E.S.Prakash, Faculty of Medicine, AIMST University E-mail: dresprakash@gmail.com.

jasia
Download Presentation

Body Fluid Compartments – Part 1 Body Composition

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. Body Fluid Compartments – Part 1Body Composition E.S.Prakash, Faculty of Medicine, AIMST University E-mail: dresprakash@gmail.com Note to Readers – This is one of the lectures in the Molecular & Cellular Basis of Medicine course, Element 2 [General Physiology, Nerve – Muscle Physiology, Basics of Hematology] in Term 1 of Year 1 of the MBBS programme.

  2. Plasma [about 1/4th of ECF volume] ECF Interstitial Fluid [ISF]; About 3/4th of ECF volume Intracellular Fluid [ICF]; 2/3 of total body water is inside cells

  3. Body fluid volumes in a healthy 70-kg adult male

  4. Measuring body fluid volumes: • Principle: Indicator-dilution principle • Method: • Administer a known amount (A) of a substance that will get distributed in a particular body fluid compartment; • Determine the final steady state concentration (C) of this indicator in blood; • Volume of distribution Vd of the indicator = Amount of indicator injected (A) Concentration in blood after mixing (C)

  5. Indicators used for measuring plasma volume, ECF volume and total body water

  6. Take this problem: • 100 mg of sucrose is injected into a 70 kg man. The plasma sucrose level after mixing is 0.01 mg/ml. If 5 mg has been metabolized during this period, then, what is the ECF volume? • 9.5 L • 14 L • 17.5 L • 10 L

  7. Solution: • Amount of sucrose injected = 100 mg • Amount metabolized = 5 mg • Amount remaining in ECF (A) = 95 mg • Concentration in plasma after mixing (C) = 0.01 mg/ml • Thus, volume of distribution (Vd) of sucrose = A / C = 95 mg / 0.01 mg/ml = 9500 ml = 9.5 L (= ECF volume)

  8. How would you measure interstitial fluid (ISF) volume? • Cannot be measured; it is calculated (estimated).. • ISF volume = ECF volume – plasma volume • How would you measure ICF volume? • Cannot be measured; it is calculated (estimated).. • ICF volume = Total body water – ECF volume

  9. Transcellular fluids • Cerebrospinal fluid • Synovial fluid • Aqueous humor • Pleural fluid • Peritoneal fluid • In health, the total volume of transcellular fluids is < 1 L.

  10. What is the relationship between blood volume and plasma volume? • Blood = plasma + cells in blood • Volume of cells: packed cell volume (PCV) • PCV is also called hematocrit (Hct) • Blood volume = plasma volume × 100 / (100 – Hct) Image from http://users.rcn.com/jkimball.ma.ultranet/BiologyPages/B/Blood.html

  11. Blood volume = plasma volume × (100/100-Hct) • In a healthy 70 kg adult male, plasma volume (measured using the Evans Blue dye) was found to be 3000 ml. Hematocrit was 40%. Calculate his blood volume. • 5000 ml • 5200 ml • 5400 ml • 5600 ml

  12. Measuring red cell volumeNote: measuring is different from calculating something • Technique & principle: • Use Chromium 51 labeled RBC as the indicator; • Inject a known amount of Cr 51 labeled RBC intravenously; • Allow them to mix with RBC in blood; • Measure the fraction of RBC tagged with Cr 51; • Principle: same – indicator dilution principle.

  13. Lean body mass (LBM) • Definition: LBM is fat free mass • Total body mass = fat mass + fat free mass • Note: fat is relatively anhydrous • Note: the water content of LBM is constant • Water content of LBM is constant - 70 ml /100 g tissue

  14. Take this problem: • In a healthy adult male weighing 70 kg, total body water (TBW) was measured to be 42 L. What is his lean body mass (LBM)? What is his fat mass? • Given TBW = 42 L • Assume all this water is in LBM & that fat is water free • We know that water content of LBM is 70 ml/100 g • Thus, if TBW is 42 L, LBM = 60 kg • Since he weights 70 kg, his fat mass is 70-60 = 10 kg

  15. Body compositionLean body mass = fat free mass Total body weight = fat-free mass + fat mass

  16. Determining body fat: • Technique: bioelectric impedance technique • Principle: • Body fluids conduct electricity well; • But fat is anhydrous and therefore is a poor conductor of electricity; • The resistance to flow of a small current between points on the body is proportional to fat mass.

  17. Now you should be able to answer these questions: • Classify body fluid compartments. Mention the volumes of body fluid compartments in a healthy adult male weighing 70 kg. • Explain the principle that is used in the measurement of body fluid volumes and RBC volume. • Mention the indicator that is used to measure the volume of plasma, ECF, and total body water and explain why these indicators are chosen for measuring them. • How you would measure interstitial fluid volume? • How you would measure ICF volume?

  18. Mention the relationship between hematocrit and blood volume. • Describe the meaning of the term ‘lean body mass’. • Mention the relationship between lean body mass and total body mass. • Briefly explain the principle that is used in the estimation of body fat. • Briefly explain gender differences in body composition.

  19. Required Reading: • Ganong WF. Chapter 1. The General and Cellular Basis of Medical Physiology. In: Review of Medical Physiology. Int’l ed, Mc Graw Hill, 2005; pages 1-6.

More Related