بسم الله الرحمن الرحيم Body Fluids Dr.Mohammed Sharique Ahmed Quadri Assistant prof. Physiology Al Maarefa College
OBJECTIVES By the end of this lecture you should be able to Describe of body fluid compartments as intra-cellular fluid (ICF) Extra-cellular fluid (ECF), interstitial fluid, trans-cellular fluid and total body water. Describe the composition of each fluid compartment, in terms of volume and ions and represent them in graphic forms. Describe daily intake and output of water and maintenance of water balance. Define osmolarity Define Isotonic, Hypotonic, Hypertonic Name the causes of ECF hyper tonicity and hypo tonicity and its effects on body? List factors influencing fluid compartments. Physiology factor: age, sex, adipose tissue, etc. Pathological factors: Dehydration, fluid infusion.
Total Body Water: Total body water : approx. 42 lit in 70 Kg body wt 60% of body weight ( less in females ) Total body water : approx. 42 lit in 70 Kg body wt Intracellular Fluid (Within body cells): 2/3 of TBW (40%of body wt.) 28 L in 70kg body wt. Extracellular Fluid (Out side body cells) : 1/3 of TBW(20% of body wt.) 14L in 70 kg body wt.
Minor ECF compartment : -Transcellular fluid -Lymph
OTHER EXTRACELLULAR COMPARTMENT There are other TWO Minor Extracellular fluid compartments also: 1. Lymph 2. Transcellular fluid
Minor ECF Compartment (cont) 1. Lymph : fluid returned from the interstitial fluid to plasma by Lymphatic System. 2. Transcellular Fluid It is small fluid volume secreted by specific cells in the body. Example : Cerebrospinal fluid (CSF)- it surrounds the Brain and Spinal cord Intra ocular fluid - in the eye Synovial fluid – lubricating joints Pericardial fluid, Intra pleural fluid
Classification of Body Fluids
Variation in water levels Lean tissue have higher fluid content than fat tissue Gender: males have more lean tissue hence more body fluids Age: Lean tissue lost with the age hence body fluid decreases with age Lean tissue : Muscle tissue without fat
Barriers Separating Body-Fluid Compartments Barrier between plasma and interstitial fluid Blood vessel walls Barrier between ECF and ICF Cellular plasma membranes Major differences between ECF and ICF Presence of cell proteins in ICF that cannot permeate the cell membrane to leave the cells Unequal distribution of Na+ and K+ and their attendant ions
Ionic Composition of the Major Body-Fluid Compartments
Important Differences Between ECF & ICF INTRACELLULAR FLUID [ICF] EXTRACELLULAR FLUID [ECF] 1. ICF has more protein No protein in Interstitial Fluid. Protein present in Plasma. 2. More Potassium ion (145 mmol / l) 2. Less Potassium ion (4 mmol / l) 3. Less Sodium ion (10 mmol / l) 3. More Sodium ion 4. More Phosphate ion 4. More Chloride ion
Na+ and K+ Concentration In ECF & ICF Q. Why Na+ is more in ECF and K+ more in ICF? Ans: It is due to the Na+- K+ ATPase pump which pumps 3 Na+ outside the cell and 2 K+ inside the cell.
Fluid Balance Two factors are regulated to maintain fluid balance in the body ECF volume must be closely regulated to help maintain blood pressure Maintaining salt balance is very important in long-term regulation of ECF volume ECF osmolarity must be closely regulated to prevent swelling or shrinking of cells Maintaining water balance is very important in regulating ECF osmolarity
H2O Input and Output Input Output Drinking liquids Eating solid foods Metabolically produced water (oxidation of carbohydrate, lipid, proteins) Output Insensible loss Lungs Nonsweating skin Sensible loss Sweating Feces Urine excretion In order to maintain stable water balance, water input must equal water output.
Daily Water Balance
ECF OSMOLARITY What is Osmolarity ? Osmolarity is the concentration of solute particles dissolved in the fluid. Increased Osmolarity means higher concentration of solute and less concentration of water.
ECF Osmolarity (cont) As Na+ is the main solute in ECF, it is responsible for ECF Osmolarity. In ICF K+ is responsible for ICF Osmolarity. Normally ECF and ICF are ISOTONIC (having same Osmolarity).
Extracellular Fluid Osmolarity Normally Osmolarity of ECF and ICF are the same (they are isotonic). Why ? Because total concentration of Na+ and other solutes in ECF is equal to total concentration of K+ and other solutes inside the cell. Remember Osmolarity of ECF-285 mmol/l (275-295)
Importance of regulating ECF Osmolarity PROBLEM If there is water loss from the ECF , what will be its effect? Answer – ECF will become Hypertonic.
Hypertonic Extracellular Fluid Conditions of water loss Diarrhea Vomiting Sweating Less water intake. If ECF becomes hypertonic, water moves from inside to outside of cell by osmosis (i.e. from ICF to ECF). As water leaves the cell – cell shrinks.
Clinical Application In mild Dehydration (loss of water) and mild hyper tonicity : There is dry skin Dry tongue thirst Sunken eyes. In case of severe Hyper tonicity ( Hyper Osmolarity) of ECF, it may affect BRAIN CELLS and BRAIN FUNCTION --- person may become mentally confused.
HYPOTONIC ECF PROBLEM What will happen if ECF becomes Hypotonic (that is having less Osmolarity) ? Answer – When ECF becomes Hypotonic , water will enter the cell, and cell will swell ( Get bigger). NOTE – Usually Hypo tonicity does not occur because when we take more water, we loose water in urine, but it can happen in Abnormal conditions.
Hypotonic Extracellular Fluid(cont) Clinical Application Renal failure: Patient can not pass urine , ECF will become hypotonic . When ECF becomes hypotonic, water enters into the cell by Osmosis and cells swells (increase in size). Swelling of BRAIN cells will cause Brain Dysfunction E.g. – headache, vomiting, confusion, drowsiness and coma. This is called WATER INTOXICATION.
ISOTONIC SOLUTIONS What will happen if we give Isotonic solution? Answer – If we give ISOTONIC SOLUTION like 0.9% saline (Isotonic saline) intravenously, ECF will remain ISOTONIC , there will be no net movement of water into or out of the cells. Only ECF volume will increase. NOTE – In case of Diarrhea, vomiting , Isotonic saline is given intravenously .
References Human physiology by Lauralee Sherwood, seventh edition Text book physiology by Guyton &Hall,11th edition Text book of physiology by Linda .s contanzo,third edition