Fluid, electrolyte, + acid base

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Les

Cards (42)

What are the fluid components of the human body?
Intracellular fluid (ICF) and extracellular fluid (ECF)
What is the function of intracellular fluid (ICF)?
It provides a stable environment for cellular processes and maintains cell structure.
What percentage of the body's total water content is made up by intracellular fluid (ICF)?
About 60%
What is extracellular fluid (ECF) and what percentage of total body water does it account for?
Fluid outside the cells, accounting for 40% of total body water.
What are the subcategories of extracellular fluid (ECF)?
Interstitial fluid (IF): Fluid between cells for nutrient and waste exchange.
Blood plasma: Fluid in blood vessels carrying electrolytes, proteins, nutrients, and wastes.
Minor ECF compartments: Includes cerebrospinal fluid, lymph, synovial fluid, etc.
What are the two primary forces that drive fluid movement between compartments?
Hydrostatic pressure and colloid osmotic pressure.
What is hydrostatic pressure?
The force exerted by a fluid against a wall, such as blood against capillary walls.
What causes hydrostatic pressure in blood vessels?
It results from blood pressure in the vessels pushing fluid out of the capillaries.
What is colloid osmotic pressure?
The opposing force to hydrostatic pressure, primarily produced by circulating albumin.
How does colloid osmotic pressure affect fluid movement?
It attracts water back into the capillaries from the interstitial fluid.
What determines the net filtration pressure?
The balance between hydrostatic and colloid osmotic pressures.
What occurs at the arterial end of the capillary?
Net filtration occurs, allowing nutrients and oxygen to reach tissues.
What happens at the venous end of the capillary?
Net reabsorption occurs, drawing fluid back into the capillaries.
What is the effect of positive net filtration pressure?
Fluid moves out of the capillaries into the surrounding interstitial fluid.
What is the effect of negative net filtration pressure?
Fluid is pulled into the capillaries from the cells and interstitial fluid.
What is the role of antidiuretic hormone (ADH) in fluid homeostasis?
ADH increases water reabsorption in the kidneys and causes vasoconstriction.
What triggers the release of ADH?
High blood osmolality or low blood volume.
How does ADH affect urine output?
It reduces urine output by increasing water reabsorption.
What is the thirst mechanism?
It is triggered by the hypothalamus when the body is dehydrated to encourage water intake.
What does osmolality refer to?
The concentration of solutes in a solution, mainly salts like sodium and chloride.
What happens during high osmolarity?
Water moves out of the cells into the extracellular fluid to equalize solute concentrations.
What occurs during low osmolarity?
Water moves into the cells from the extracellular fluid to balance concentrations.
What are osmoreceptors?
Specialized cells in the hypothalamus that detect changes in blood osmolality.
What happens when blood osmolality increases?
Osmoreceptors trigger thirst and stimulate the release of ADH to conserve water.
What happens during sweating?
The body loses water and electrolytes, mainly sodium and chloride.
How does osmosis affect fluid balance during dehydration?
Water moves out of cells into the extracellular fluid to balance concentrations.
What are the symptoms of dehydration?
Dry skin, reduced urine output, and fatigue.
What happens during rehydration?
Water first enters the extracellular fluid before moving into the intracellular fluid.
How does osmosis restore hydration levels in cells?
Water moves from the extracellular fluid into the intracellular fluid until equilibrium is reached.
What are the six important electrolytes and their functions in the human body?
Sodium (Na+): Regulates fluid balance, nerve transmission, and muscle contractions.
Potassium (K+): Maintains cell membrane potential and regulates fluid balance inside cells.
Chloride (Cl-): Maintains osmotic pressure and balances charge across cell membranes.
Bicarbonate (HCO3-): Acts as a buffer to regulate blood pH.
Calcium (Ca2+): Vital for bone strength, muscle contraction, and blood clotting.
Phosphate (PO4 3-): Part of ATP and nucleotides; acts as a buffer in the ICF.
What is acidosis?
A condition where blood pH falls below 7.35 due to respiratory or metabolic causes.
What are the compensation mechanisms for acidosis?
Increased breathing rate and renal excretion of hydrogen ions.
What is alkalosis?
A condition where blood pH rises above 7.45 due to loss of acids or gain in bases.
What are the compensation mechanisms for alkalosis?
Decreased breathing rate and renal excretion of bicarbonate.
How does respiration affect pH?
CO₂ forms carbonic acid in the blood, impacting pH levels.
What happens during hyperventilation?
It increases CO₂ exhalation, reducing carbonic acid and increasing pH.
What happens during hypoventilation?
It retains CO₂, raising carbonic acid and lowering pH.
How does the renal system affect pH?
The kidneys excrete excess hydrogen ions and reabsorb bicarbonate to buffer blood pH.
What is the long-term regulation of pH by the kidneys?
The kidneys provide a sustained response to pH imbalances, adjusting acid-base balance.
Extracellular fluid (ECF) is the fluid outside the cells, including interstitial fluid, plasma, lymph, and transcellular fluid.