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CONDITIONS THAT CAUSE LARGE INCREASES IN BLOOD VOLUME AND EXTRACELLULAR FLUID VOLUME Lecture # 8 Page # 408 Ch # 30 Guyton physiology 15th Edition

  • The body has powerful mechanisms that keep blood volume nearly constant.
  • The body has powerful mechanisms that keep extracellular fluid volume nearly constant.
  • Some abnormal conditions can cause large increases in blood volume.
  • Some abnormal conditions can also cause large increases in extracellular fluid volume.
  • Almost all of these conditions are caused by circulatory abnormalities.

Increased Blood Volume and Extracellular Fluid Volume Caused By Heart Diseases

  • In congestive heart failure, blood volume may increase by 15% to 20%.
  • In congestive heart failure, extracellular fluid volume may increase by 200% or more.
  • The reason for these increases is explained in Fig. 30.14.
  • Heart failure first reduces cardiac output.
  • Reduced cardiac output decreases arterial pressure.
  • Low arterial pressure activates several sodium-retaining systems.
  • The RAAS is activated.
  • The sympathetic nervous system is activated.
  • Low blood pressure also causes the kidneys to retain salt.
  • Low blood pressure also causes the kidneys to retain water.
  • The kidneys retain fluid to restore arterial pressure toward normal.
  • The kidneys retain fluid to restore cardiac output toward normal.
  • If heart failure is not severe, increased blood volume can restore cardiac output to normal.
  • Increased blood volume can also restore arterial pressure to normal.
  • Sodium excretion eventually returns to normal.
  • Blood volume remains increased.
  • Extracellular fluid volume also remains increased.
  • The extra fluid helps the weakened heart pump adequately.
  • If the heart is severely weakened, arterial pressure cannot increase enough.
  • Normal urine output cannot be restored.
  • The kidneys continue to retain fluid.
  • Severe circulatory congestion develops.
  • Pulmonary edema may occur.
  • The patient may die unless fluid retention is relieved.
  • Improvement of cardiac function can also prevent this outcome.
  • In myocardial failure, increased blood volume acts as an important circulatory compensation.
  • In heart valvular disease, increased blood volume acts as an important circulatory compensation.
  • In congenital heart disease, increased blood volume acts as an important circulatory compensation.
  • This compensation helps restore cardiac output toward normal.
  • This compensation helps restore blood pressure toward normal.
  • This compensation allows the weakened heart to maintain a life-sustaining cardiac output.

Increased Blood Volume Caused By Increased Vascular Capacity

  • Any condition that increases vascular capacity also increases blood volume.
  • Extra blood volume fills the enlarged vascular capacity.
  • Increased vascular capacity first reduces mean circulatory filling pressure.
  • This relationship is shown in Fig. 30.14.
  • Reduced mean circulatory filling pressure decreases cardiac output.
  • Reduced cardiac output decreases arterial pressure.
  • The fall in arterial pressure causes the kidneys to retain salt.
  • The fall in arterial pressure causes the kidneys to retain water.
  • Blood volume increases until the enlarged vascular capacity is filled.
  • During pregnancy, vascular capacity increases.
  • The uterus contributes to this increase.
  • The placenta contributes to this increase.
  • Other enlarged organs also contribute.
  • Blood volume usually increases by 15% to 25% during pregnancy.
  • Large varicose veins also increase vascular capacity.
  • In rare cases, varicose veins may hold up to 1 extra liter of blood.
  • Blood volume increases to fill the extra vascular capacity.
  • The kidneys retain salt.
  • The kidneys retain water.
  • Blood volume continues to increase until the entire vascular bed is adequately filled.
  • Blood pressure rises to the level needed to balance renal fluid output with daily fluid intake.

KEY CONCEPT

  • Circulatory abnormalities are the main cause of large increases in blood volume and extracellular fluid volume.
  • Heart failure → ↓ Cardiac output → ↓ Arterial pressure → ↑ RAAS + ↑ Sympathetic activity → ↑ Salt & water retention → ↑ Blood volume & ECF volume.
  • Mild heart failure allows increased blood volume to restore cardiac output and blood pressure.
  • Severe heart failure causes continued fluid retention, circulatory congestion, and pulmonary edema.
  • Increased vascular capacity (pregnancy, varicose veins) causes renal salt and water retention until blood volume fills the enlarged vascular bed.
  • Figure Mentioned: Fig. 30.14

CONDITIONS THAT CAUSE LARGE INCREASES IN EXTRACELLULAR FLUID VOLUME WITH NORMAL OR REDUCED BLOOD VOLUME

  • In some conditions, extracellular fluid (ECF) volume increases greatly.
  • In these conditions, blood volume remains normal.
  • Blood volume may even become slightly reduced.
  • These conditions usually begin with leakage of fluid into the interstitial space.
  • Proteins also leak into the interstitial space.
  • This leakage tends to reduce blood volume.
  • The kidneys respond in the same way as after hemorrhage.
  • The kidneys retain salt.
  • The kidneys retain water.
  • The kidneys attempt to restore blood volume toward normal.
  • Much of the retained fluid leaks into the interstitial space.
  • This leakage causes more edema.

Nephrotic Syndrome—Loss of Plasma Proteins in Urine and Sodium Retention By the Kidneys

  • The general mechanisms of extracellular edema are discussed in Chapter 25.
  • Nephrotic syndrome is an important clinical cause of edema.
  • In nephrotic syndrome, the glomerular capillaries become more permeable.
  • Large amounts of plasma proteins leak into the filtrate.
  • Large amounts of plasma proteins are lost in the urine.
  • About 30 to 50 grams of plasma protein may be lost in the urine each day.
  • Plasma protein concentration may fall to less than one-third of normal.
  • Plasma colloid osmotic pressure decreases to very low levels.
  • Low plasma colloid osmotic pressure causes capillaries throughout the body to filter more fluid into the tissues.
  • More fluid enters the interstitial space.
  • Edema develops.
  • Plasma volume decreases.
  • In nephrotic syndrome, the kidneys retain sodium through multiple mechanisms.
  • Leakage of protein and fluid into the interstitial fluid activates these mechanisms.
  • The RAAS is stimulated.
  • The sympathetic nervous system is stimulated.
  • The kidneys continue to retain sodium.
  • The kidneys continue to retain water.
  • Plasma volume is restored almost to normal.
  • Excess sodium and water retention further dilutes the plasma proteins.
  • Lower plasma protein concentration causes more fluid to leak into the tissues.
  • The kidneys continue retaining fluid.
  • Massive extracellular edema develops.
  • Treatment is needed to restore plasma proteins.

Liver Cirrhosis—Decreased Synthesis of Plasma Proteins By the Liver and Sodium Retention by the Kidneys

  • In liver cirrhosis, plasma protein concentration decreases.
  • Liver cell destruction reduces plasma protein production.
  • The liver cannot synthesize enough plasma proteins.
  • Cirrhosis is also associated with large amounts of fibrous tissue in the liver.
  • Fibrous tissue obstructs portal blood flow through the liver.
  • Portal capillary pressure increases.
  • Increased portal capillary pressure promotes leakage of fluid.
  • Increased portal capillary pressure promotes leakage of proteins.
  • Fluid and proteins accumulate in the peritoneal cavity.
  • This condition is called ascites.
  • Loss of fluid and protein from the circulation decreases plasma volume.
  • The kidneys respond in the same way as in other conditions with reduced plasma volume.
  • The kidneys retain salt.
  • The kidneys retain water.
  • Plasma volume returns toward normal.
  • Arterial pressure returns toward normal.
  • In some patients, plasma volume may increase above normal.
  • Increased vascular capacity contributes to this increase.
  • High portal venous pressure greatly distends the veins.
  • Distended veins increase vascular capacity.

KEY CONCEPT

  • Increased ECF volume can occur even when blood volume is normal or reduced.
  • Fluid and protein leakage into the interstitial space decreases blood volume.
  • The kidneys respond by retaining salt and water.
  • Nephrotic syndrome: Protein loss in urine (30–50 g/day) → ↓ Plasma proteins → ↓ Colloid osmotic pressure → Edema → Renal sodium retention.
  • Liver cirrhosis: ↓ Plasma protein synthesis + ↑ Portal pressure → Ascites → Renal salt and water retention.
  • Continued renal fluid retention worsens extracellular edema.

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