Test 1 (Body Fluids Compartments Lecture)

Question 1

Total Body Water (TBW)

Answer 1

= 0.6 x Body Weight

Question 2

Extracellular Fluid (ECF)

Answer 2

= 0.2 x Body Weight

• Can be broken up into Interstitial Fluid (3/4 of ECF) and Plasma (1/4 of ECF)

Question 3

Intracellular Fluid (ICF)

Answer 3

= 0.4 x Body Weight

Question 4

Effective Circulating Volume (ECV)

Answer 4

• Is the volume of the Arterial Blood EFFECTIVELY PERFUSING TISSUE
• 20%!!!!!

Question 5

Transcellular Fluid

Answer 5

• Included in the ECF
• It normally contains only a small amount of water such as Epithelial Secretions, Synovial, CSF, etc
• It is said to occupy a “THIRD SPACE”

**The Venous side is the COMPLIANT SIDE!!!!!

Question 6

Hypovolemia due to Vomiting

Answer 6

1) Effective Circulating Volume:
- DECREASES

2) Extracellular Fluid Volume:
- DECREASES

3) Plasma Volume:
- DECREASES

4) Cardiac Output:
- DECREASES

Question 7

Heart Failure

Answer 7

1) Effective Circulating Volume:
- DECREASES

2) Extracellular Fluid Volume:
- INCREASES

3) Plasma Volume:
- INCREASES

4) Cardiac Output:
- DECREASES

Question 8

Clinical Relevance of Body Fluid Compartments

Answer 8

Pharmacology: Volume of Distribution (Vd) of a drug
- Apparent volume of Body Fluid in which the TOTAL DOSE of the drug is distributed at the same concentration as in the Plasma. USEFUL IN CALCULATING LOADING DOSES

Question 9

Volume of Distribution Assumptions:

1) Vd

Answer 9

1) Vd 45L

- Drug widely distributed and body in BODY TISSUES

Question 10

Body Fluid Compartments- Intake and Output are Balanced

Answer 10

***The Main OUTPUT of Body Fluids is from URINE!!!!!!!

Question 11

Constituents of Body Fluids

Answer 11

Extracellular:

• Na+ as the MAIN CATION
• Cl- as the main ANION

Intracellular:

• K+ as the MAIN CATION
• HPO4-, and H2PO4- are the main ANIONS

**At ALL TIMES, the OSMOLARITY is the same between the Intracellular and Extracellular Compartments!!!!!

Question 12

Non- Electrolytes

Answer 12

• HIGHER PROTEIN levels in ICF and Intravascular compartments (Primarily Albumin); LOWER in Interstitial Fluid
• Proteins normally DO NOT MOVE (Membranes are IMPERMEABLE to Proteins), therefore they DO NOT normally impact OSMOLARITY but do exert ONCOTIC PRESSURE

Question 13

Oncotic Pressure

Answer 13

• Osmotic pressure generated by LARGE MOLECULES (Proteins) in solution which are IMPERMEABLE to Membranes

Question 14

Measurements of Body Fluid Compartment Volumes- Indicator/ Dilution Methods

1) Total Body Water
2) Extracellular Fluid
3) INTRACELLULAR FLUID
4) Plasma Volume
5) INTERSTITIAL FLUID

Answer 14

1) H2O, H2O, ANTOPYRINE
2) Na, I- Iothalamate, THIOSULFATE, INULIN
3) (Calculated as TOTAL BODY WATER - Extracellular Fluid Volume)
4) I-Albumin, Evans Blue Dye
5) (Calculated as EXTRACELLULAR FLUID VOLUME - Plasma Volume)

Question 15

Balance of Ions

Answer 15

Normally, Osmolarity is balanced between:
1) Interstitial and Intravascular Fluids (ECF Compartments)

2) ECF and ICF

**Na and K Concentration is slightly HIGHER in Vascular Space than expected fur to DONNAN EFFECT

Question 16

Donnan Effect

Answer 16

• Negative charge of Proteins with Vasculature attracts POSITIVELY Charged Na and K Ions

Question 17

Osmolarity of Body Fluid Compartments

Answer 17

1) ECF Osmolarity id due to:
- [Na + Cl]

• Concentration of Na in Vasculature > Interstitial Fluid > ICF
  ( Due to Na- K ATPase pump on Cell Membranes working Normally)
• Disruption of Pump Activity (HYPOXIA) results in INCREASED ICF Na
• Water follows Na+ into cell and Cellular Swelling occurs

2) ICF Osmolarity is due to:
- [K+]

Question 18

Osmolarity of Body Fluid Compartments

Answer 18

Plasma Osmolarity can be estimated by:
1) 2 x [Na+]

2) 2 x [Na+] + Glucose/ 18 + Urea/ 2.8

Question 19

Movement of Water between compartments

Answer 19

1) Cell membrane between ECF and ICF is HIGHLY WATER- PERMEABLE
- NOT Permeable to most electrolytes

• Fluid distribution between two compartments in dependent on Osmolar Gradient
  2) Capillary membrane between ECF compartments is highly permeable to SMALL IONS
• Fluid distribution is due to a Balance of STARLING FORCES:
  A) CAPILLARY HYDROSTATIC PRESSURE (Favoring Filtration)

B) COLLOID ONCOTIC PRESSURE (Primarily due to PLASMA PROTEINS which OPPOSES FILTRATION)
- The primary protein is Albumin

Question 20

Fluid Shifts- Osmotic Equilibrium

Answer 20

• ECF Osmolarity controls ICF Volume
• Water enters or leaves ECF Rapidly to Balance Osmolarity of ECF and ICF

“OSMOTIC EQUILIBRIUM”
- Movement of water across Cell Membranes from Higher to Lower Concentration as a result of an OSMOTIC PRESSURE DIFFERENCE (Difference in number of Solute Particles in Solution) across the Membrane

• Osmotic Pressure exerted across a Membrane by a substance is also due to that membrane been IMPERMEABLE to that SOLUTE!!!

Question 21

Osmotic Equilibrium

Answer 21

• 1) Initially ECF and ICF have same SOLUTE CONCENTRATIONS
  2) Withdraw 3 Liters Pure H2O from ECF: Osmotic Gradient is created

OSMOTIC EQUILIBRATION:
- H2O RAPIDLY diffuses from ICF to ECF to re-establish OSMOTIC EQUILIBRIUM. Note Proportional changes in each Compartment’s VOlume

Question 22

Think changes in ECF FIRST!!!!!!

Answer 22

• All water and Solutes must pass through ECF (Acts as a reservoir)
• Evaluate changes in ECF First, the ICF

**Equilibration of ICF and ECF Osmolarity occurs primarily by SHIFT in WATER and not Shifts in Solute

Question 23

Factors Affectin Osmolarity and Volume of ECF/ ICF

Answer 23

• Water Ingestion
• Dehydration
• Intravenous Infusions
• Diarrhea or Vomiting
• Sweating
• Diuresis
• Disease

Question 24

Fluid Shifts

Answer 24

1) Excessive NaCL Intake, Hyperaldosteronism (Conn’s Disease)

A) ECF Volume:
- INCREASE

B) ICF Volume:
- DECREASE

C) ECF mOsm:
- INCREASE

D) ICF mOsm:
- INCREASE

2a) Water Gain Initially (SIADH, Psychogenic Polydypsia)

A) ECF Volume:
- INCREASE

B) ICF Volume:
- INCREASE

C) ECF mOsm:
- DECREASE

D) ICF mOsm:
- DECREASE

2b) Later on with Water Gain:

A) ECF Volume:
- DECREASE

B) ICF Volume:
- DECREASE

C) ECF mOsm:
- DECREASE

D) ICF mOsm:
- DECREASE

3) Water Loss (Dehydration)

A) ECF Volume:
- DECREASE

B) ICF Volume:
- DECREASE

C) ECF mOsm:
- INCREASE

D) ICF mOsm:
- INCREASE

4) NaCl Loss (Adrenal Insufficiency)

A) ECF Volume:
- DECREASE

B) ICF Volume:
- INCREASE

C) ECF mOsm:
- DECREASE

D) ICF mOsm:
- DECREASE

Question 25

Summary- Fluid Exchange and Osmotic Equilibrium

Answer 25

• Many diseases are accompanied by fluid shifts between compartments
• Maintenance of adequate fluids in ICF, ECF, and both is IMPORTANT in Treatment of these patients
• Normallu, fluid i distributed between compartments based on balance of STARLING FORCES across capillaries and distribution of ions across cell membranes:
  1) Fluid distribution BETWEEN PLASMA AND INTERSTITIAL FLUID (within ECF) is maintained by balance of Hydrostatic and Osmotic forces across CAPILLARIES
  2) Fluid distribution BETWEEN ECF AND ICF is determined by Osmotic effect of Small saluted across CELL MEMBRANE (Highly water permeable, but Impermeable to Ions)

Question 26

Clinical Relevance of Fluid Balance- Hydration Therapy/ Replacement Fluids

Answer 26

• Primary aim is to replace Body Volume and Solute Losses
  (Burns, Hemorrhage, Vomiting/ Diarrhea, Dehydration)
• Intravenous replacement fluids used when Oral Rehydration not suitable
• Target compartment which is VOLUME-DEPLETED
• Distribution in compartments depends on Type of Fluid
  1) CRYSTALLOID FLUIDS: Contain varying CONCENTRATION of Electrolytes and can stay in ECF or be widely distributed, depending on Composition (Ex: Normal Saline, Lactated RInger’s Solution)

2) COLLOID FLUIDS: Contain large Proteins and Molecules which tend to STAY WITHIN THE VASCULAR SPACE (Ex: Dextran, Albumin)

Question 27

Isosmotic, Hyperosmotic, Hyposmotic Solutions

Answer 27

• These terms DO NOT indicate whether the Cell Membrane is permeable to the SOLUTE!!!! Indicates Osmolarity of Solution as compared to that of the ECF

1) ISOSMOTIC: Solutions which have the same Osmolarity as the ECF
- When added to the ECF, does not change Osmolarity, but INCREASES VOLUME ONLY

2) Hyperosmotic: Solutions having an Osmolarity GREATER THAN that of the ECF
- When added to the ECF, Osmolarity INCREASES and causes WATER to move from the CELLS to the ECF Compartment with a resulting INCREASE in ECF VOLUME and DECREASE in ICF VOLUME!!!!!

3) Hyposmotic: Solutions having an Osmolarity less than that of the ECF
0 When added to the ECF, DECREASES Osmolarity and WATER moves into the cells to Equalize Osmolarity. ECF and ICF VOLUMES are BOTH INCREASED!!!

Question 28

Tonicity

Answer 28

• CHANGES in CELL VOLUME due to Osmotic Equilibrium with Water movement across Cell Membranes
• Small changes in concentration of IMPERMEANT Solutes in ECF can cause Large changes in CELL VOLUME
• Water always moves from an area in which it is in HIGHER Concentration to an are of LOWER CONCENTRATION

Question 29

Tonicity Cont.

Answer 29

• Tonicity of a Solution relates to the effect of that Extracellular Solution on Cell Volume
• Depends on the Concentration of IMPERMEANT solutes in the Extracellular vs Intracellular Fluid
  1) ISOTONIC SOLUTION: No Change in Cellular Volume
  2) HYPOTONIC SOLUTION: Cellular Volume INCREASES (Swelling)
  3) HYPERTONIC SOLUTION: Cellular Volume DECREASES (Shrinking)

Question 30

Summary- Fluid Exchange/ Balance

Answer 30

1) Distribution of Fluid between the ECF and ICF compartments is determine primary by:
- Ion Distribution (Na)

• ATPase activity (Keeps Na low and K high)

2) Distribution of ECF between the Plasma and Interstitial compartments is determine primarily by:
- Balance of Hydrostatic vs Oncotic Pressures

• Intravascular Pressure in Capillaries vs Plasma protein and Solution Concentration

Question 31

Edema

Answer 31

• Palpable swelling produced by EXPANSION of Interstitial Fluid Volume

Caused By:

1) Alteration in Capillary hemodynamics (Altered STARLING FORCES with Increased Net filtration Pressure)
- Fluid Moves from VASCULAR SPACE into the INTERSTITIAL

2) Renal RETENTION of dietary Na+ and Water
- Expansion of ECF VOLUME!

Question 32

Edema (Altered Starling Forces- Renal Role)

Answer 32

• Edema does not become apparent until Interstitial Volume is INCREASED by 2.5 to 3.0 L. Normal plasma Volume is only 3L
• Therefore, Edema fluid is not derived only from PLASMA
• Compensatory Renal Retention of Na+ and water to maintain Plasma Volume in response to UNDERFILLING of the Vasculature must occur in this situation to cause EDEMA
• This renal compensation is APPROPRIATE to RESTORE Tissue perfusion although it exacerbates EDEMA (ex: Congestive Heart Failure)

Question 33

Edema (Renal Retention of Na+ and Water)

Answer 33

• Results in OVERFILLING of the Vascular Tree
• INAPPROPRIATE Renal Fluid Retention
• Usually results in ELEVATED BLOOD PRESSURE, Expanded Plasm and Interstitial Volumes!
• Ex: Primary Renal Disease (Glomerulonephritis, Nephrotic Syndrome)
  1) NON PITTING EDEMA: Swollen Cells due to INCREASE ICF Volume
  2) PITTING EDEMA: INCREASE Interstitial Fluid Volume

***EDEMA often treated with Diuretics!!!