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Transcript of REGULATION OF WATER & ELECTROLYTES BALANCE by: Husnil Kadri Biochemistry Departement Medical Faculty...
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REGULATION OF WATER ®ULATION OF WATER &ELECTROLYTES BALANCEELECTROLYTES BALANCE
by:by:
Husnil KadriHusnil Kadri
Biochemistry Departement
Medical Faculty Of Andalas University
Padang
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Maintenance of Blood Pressure Homeostasis
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Angiotensin Pathway
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Regulation of Water
• The hypothalamic thirst center is stimulated:– By a decline in plasma volume of 10%–15%– By increases in plasma osmolality of 1–2%– Via baroreceptor input, angiotensin II, and
other stimuli
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Osmoregulation
Osmoreceptors:– Increase in plasma osm--> hypothalamus
stimulated to release ADH (hypothalamic set point ≈ 285 mOsm/L solution)
– Respond to < 2% change in plasma osmolarity
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Regulation of Water
• Thirst is quenched as soon as we begin to drink water
• Feedback signals that inhibit the thirst centers include:– Moistening of the mucosa of the mouth and
throat– Activation of stomach and intestinal stretch
receptors
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Regulation of Water Loss
• Obligatory water losses include:– Insensible water losses from lungs and skin– Water that accompanies undigested food
residues in feces
• Obligatory water loss reflects the fact that:– Kidneys excrete 900-1200 mOsm of solutes
to maintain blood homeostasis– Urine solutes must be flushed out of the body
in water
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Regulation of ADH
Factors that specifically trigger ADH release include:
prolonged fever; excessive sweating,
vomiting, or diarrhea; severe blood loss;
and traumatic burns.
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Regulation of ADH
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Disorders of Water Balance: Dehydration
• Causes include: hemorrhage, severe burns, prolonged vomiting or diarrhea, profuse sweating, water deprivation, and diuretic abuse
• Signs and symptoms: cottonmouth, thirst, dry flushed skin, and oliguria
• Other consequences include hypovolemic shock and loss of electrolytes
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Disorders of Water Balance: Edema
• Atypical accumulation of fluid in the interstitial space, leading to tissue swelling
• Caused by anything that increases flow of fluids out of the bloodstream or hinders their return
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Edema
• Hindered fluid return usually reflects an imbalance in colloid osmotic pressures
• Hypoproteinemia – low levels of plasma proteins– Forces fluids out of capillary beds at the
arterial ends– Fluids fail to return at the venous ends– Results from protein malnutrition, liver
disease, or glomerulonephritis
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Edema
• Blocked (or surgically removed) lymph vessels:– Cause leaked proteins to accumulate in
interstitial fluid– Exert increasing colloid osmotic pressure,
which draws fluid from the blood
• Interstitial fluid accumulation results in low blood pressure and severely impaired circulation
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Electrolyte Balance
• Electrolytes are salts, acids, and bases, but electrolyte balance usually refers only to salt balance
• Salts enter the body by ingestion and are lost via perspiration, feces, and urine
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Sodium in Fluid and Electrolyte Balance
• Sodium salts:– Account for 90-95% of all solutes in the ECF– Contribute 280 mOsm of the total 300 mOsm
ECF solute concentration• Sodium is the single most abundant cation in
the ECF• Sodium is the only cation exerting significant
osmotic pressure
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• Sodium reabsorption is almost always by active transport– Na+ enters the tubule cells at the luminal
membrane– Is actively transported out of the tubules by a
Na+-K+ ATPase pump
Sodium Reabsorption: Primary Active Transport
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• From there it moves to peritubular capillaries due to:– Low hydrostatic pressure– High osmotic pressure of the blood
• Na+ reabsorption provides the energy and the means for reabsorbing most other solutes
Sodium Reabsorption: Primary Active Transport
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Regulation of Sodium Balance: Aldosterone
• Sodium reabsorption– 65% of sodium in filtrate is reabsorbed in the
proximal tubules – 25% is reclaimed in the loops of Henle
• When aldosterone levels are high, all remaining Na+ is actively reabsorbed
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Regulation of Sodium Balance: Aldosterone
• Adrenal cortical cells are directly stimulated to release aldosterone by elevated K+ levels in the ECF
• Aldosterone brings about its effects (diminished urine output and increased blood volume) slowly
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Atrial Natriuretic Peptide (ANP)
• Reduces blood pressure and blood volume by inhibiting:– Events that promote vasoconstriction– Na+ and water retention
• Is released in the heart atria as a response to stretch (elevated blood pressure)
• Has potent diuretic and natriuretic effects• Promotes excretion of sodium and water• Inhibits angiotensin II production
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Mechanisms and Consequences of ANP Release
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Regulatory Site Of Potassium: Cortical Collecting Ducts
• Less than 15% of filtered K+ is lost to urine regardless of need
• K+ balance is controlled in the cortical collecting ducts by changing the amount of potassium secreted into filtrate
• When K+ levels are low, the amount of secretion and excretion is kept to a minimum
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Influence of Aldosterone
• Aldosterone stimulates potassium ion secretion by principal cells
• In cortical collecting ducts, for each Na+ reabsorbed, a K+ is secreted
• Increased K+ in the ECF around the adrenal cortex causes:– Release of aldosterone– Potassium secretion
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Potassium Balance
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Renal Potassium Handling
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Regulation of Calcium and Phosphate
• PTH promotes increase in calcium levels by targeting:– Bones – PTH activates osteoclasts to break
down bone matrix– Small intestine – PTH enhances intestinal
absorption of calcium– Kidneys – PTH enhances calcium
reabsorption and decreases phosphate reabsorption
• Calcium reabsorption and phosphate excretion go hand in hand
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Regulation of Calcium and Phosphate
• Filtered phosphate is actively reabsorbed in the proximal tubules
• In the absence of PTH, phosphate reabsorption is regulated by its transport maximum and excesses are excreted in urine
• High or normal ECF calcium levels inhibit PTH secretion– Release of calcium from bone is inhibited– Larger amounts of calcium are lost in feces and
urine– More phosphate is retained
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Influence of Calcitonin
• Released in response to rising blood calcium levels
• Calcitonin is a PTH antagonist, but its contribution to calcium and phosphate homeostasis is minor to negligible
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Regulation of Anions
• Chloride is the major anion accompanying sodium in the ECF
• 99% of chloride is reabsorbed under normal pH conditions
• When acidosis occurs, fewer chloride ions are reabsorbed
• Other anions have transport maximums and excesses are excreted in urine
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Calcium, phosphate, and magnesium metabolism
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Hereditary disorders of tubular transport
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Disorders of s odium and w ater m etabolism
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Hyponatremia and h ypernatremia
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Reference
1. Ivkovic, A and Dave, R. Renal review. ppt. 20082. Marieb, EN. Fluid, electrolyte, and acid-base balance. ppt.
Pearson Education, Inc. 20043. Marieb, EN. The urinary system part B. ppt. 2004. 4. Silverthorn, DU. Integrative Physiology II: Fluid and Electrolyte
Balance. Chapter 20, part B. ppt. Pearson Education, Inc. 2004