Physiology Renal True/False Question Set

True/False: As plasma glucose concentration rises above normal, glucose reabsorption increases and then levels off.

A: True - It levels off after Tm glucose is reached.

True/False: In fluid in the distal part of the proximal convoluted tubule bicarbonate concentration is lower than in plasma.

A: True - Like glucose, HCO3- is usually completely reabsorbed in the proximal tubule.

True/False: When a patient's mean arterial blood pressure falls by 50 per cent renal vasoconstriction occurs.

A: True - Reflex sympathetic vasoconstriction due to greatly decreased baroreceptor stim- ulation.

True/False: Renal tubules normally reabsorb more k+ than cl-.

A: False - About 20 times as much chloride as potassium is filtered (this is the ratio of their plasma concentrations).

True/False: The cells of the distal convoluted tubule reabsorb about 50 per cent of the water filtered by the glomeruli.

A: False - About 80 per cent of the filtered water is reabsorbed before it reaches the distal tubules.

True/False: In fluid in the distal part of the proximal convoluted tubule ph is less than 6 when the kidneys are excreting an acid urine.

A: False - Acidification occurs mainly in the distal convoluted tubule.

True/False: A substance is being secreted by the renal tubules if its concentration in urine is greater than in plasma.

A: False - Again, this can be explained by a relatively greater reabsorption of water.

True/False: When a patient's mean arterial blood pressure falls by 50 per cent renal blood flow falls by less than 10 per cent.

A: False - Autoregulation cannot compensate for such large falls.

True/False: Transport maximum (Tm) - limited reabsorption of a substance implies that its renal clearance falls with its plasma concentration.

A: False - Clearance is zero at all levels below the threshold.

True/False: In the nephron, the osmolality of fluid in the bowman's capsules is less than that in the distal tubules.

A: False - Distal tubular fluid is hypotonic.

True/False: The cells of the distal convoluted tubule determine the final composition of urine.

A: False - Further modification takes place in the collecting ducts.

True/False: When a patient's mean arterial blood pressure falls by 50 per cent glomerular filtration falls by about 50 per cent.

A: False - It falls to about zero when glomerular capillary pressure falls below the sum of intracapsular pressure plus plasma oncotic pressure - around 30-40 mmHg.

True/False: The renal clearance of a substance is inversely related to its urinary concentration, u.

A: False - It is directly related to urinary concentration.

True/False: As plasma glucose concentration rises above normal, glucose excretion increases and then decreases.

A: False - It is initially zero and then rises linearly.

True/False: The renal clearance of a substance is directly related to its plasma concentration, p.

A: False - It is inversely related to plasma concentration.

True/False: Hydrostatic pressure in renal glomerular capillaries is lower than pressure in efferent arterioles.

A: False - It must be higher to maintain blood flow.

True/False: As plasma glucose concentration rises above normal, glucose clearance increases linearly.

A: False - It remains at zero until the Tm is reached and then it rises linearly.

True/False: The renal clearance of a substance must fall in the presence of metabolic poisons.

A: False - It rises if the substance is normally reabsorbed by an active process.

True/False: In fluid in the distal part of the proximal convoluted tubule glucose concentration is similar to that in plasma.

A: False - Most or all of the glucose is reabsorbed before the end of the proximal tubule.

True/False: In fluid in the distal part of the proximal convoluted tubule osmolality is about 25 per cent that of glomerular filtrate.

A: False - Osmolality changes little in the proximal convoluted tubule.

True/False: Hydrostatic pressure in renal glomerular capillaries falls by 10 per cent when arterial pressure falls by 10 per cent.

A: False - Redistribution of renal vascular resistance due to autoregulation tends to main- tain glomerular hydrostatic pressure and hence filtration.

True/False: In the nephron, the osmolality of fluid in the proximal convoluted tubule rises along its length.

A: False - The fluid remains isotonic with plasma.

True/False: Hydrostatic pressure in renal glomerular capillaries rises when afferent arterioles constrict.

A: False - The pressure drop across the afferent arterioles increases as they constrict.

True/False: If, during an infusion of para-aminohippuric acid, peripheral venous plasma PAH level is 0.02 mg/ml (not above renal threshold), urinary PAH level is 16 mg/ml and urinary flow rate 1 ml/min, then the pah level in renal venous blood must exceed 0.02 mg/ml.

A: False - The renal venous blood level would be negligible.

True/False: Transport maximum (Tm) - limited reabsorption of a substance implies that its reabsorption is critically related to tubular transit time.

A: False - This applies to the other type of active tubular reabsorption, gradient-time lim- ited reabsorption.

True/False: A substance is being secreted by the renal tubules if its concentration rises along the proximal convoluted tubule.

A: False - This can be explained by water reabsorption.

True/False: In the nephron, the osmolality of fluid in the tip of the loop of henle is less than that of plasma.

A: False - This fluid is hypertonic because of countercurrent concentration.

True/False: Tubular reabsorption of a filtered substance is likely to be active rather than passive if its renal clearance is lower than that of inulin.

A: False - This indicates reabsorption but not whether it is active (e.g. glucose) or passive (e.g. urea).

True/False: A substance is being secreted by the renal tubules if its excretion rate is increased by tubular enzyme poisons.

A: False - This suggests that the substance is normally reabsorbed by an active process.

True/False: As plasma glucose concentration rises above normal, glucose transport maximum tm increases linearly.

A: False - Transport maxima are constants.

True/False: A substance is being secreted by the renal tubules if its clearance rate is greater than 250 ml/minute.

A: True - A clearance value above the glomerular filtration rate (about 140 ml/minute) indicates secretion.

True/False: Renal tubules normally reabsorb more water every hour than the entire plasma volume.

A: True - About 99 per cent of the glomerular filtrate (about 8 litres/hour).

True/False: Renal tubules normally reabsorb all filtered plasma proteins.

A: True - Again some are filtered but do not appear in urine.

True/False: Tubular reabsorption of a filtered substance is likely to be active rather than passive if its urinary excretion rate:plasma concentration ratio is the same as for glucose.

A: True - Anything filtered in glomeruli and having zero clearance must be actively reabsorbed.

True/False: Transport maximum (Tm) - limited reabsorption of a substance implies that its reabsorption is complete below a certain threshold load.

A: True - As with glucose.

True/False: If, during an infusion of para-aminohippuric acid, peripheral venous plasma PAH level is 0.02 mg/ml (not above renal threshold), urinary PAH level is 16 mg/ml and urinary flow rate 1 ml/min, then the renal blood flow is nearer 1300 than 1500 ml/minute if the haematocrit is 0.40.

A: True - Blood flow=plasma flow/0.6=1333 ml/minute.

True/False: The cells of the distal convoluted tubule form nh4 ions.

A: True - By conversion of glutamine to glutamate; NH3 is a buffer for the H being excreted.

True/False: The renal clearance of a substance is expressed in units of volume per unit time.

A: True - Clearance = UV/P in units of volume/unit time.

True/False: The renal clearance of a substance is directly related to the rate of urine formation, v.

A: True - Clearance tends to fall at low urinary flow rates.

True/False: Tubular reabsorption of a filtered substance is likely to be active rather than passive if its excretion is increased by cooling the kidney.

A: True - Cooling impairs active metabolic processes.

True/False: In fluid in the distal part of the proximal convoluted tubule urea concentration is higher than in bowman's capsule.

A: True - Due to reabsorption of water.

True/False: When a patient's mean arterial blood pressure falls by 50 per cent there is an increase in the circulating aldosterone level.

A: True - Due to release of renin and angiotensin formation, aldosterone is secreted.

True/False: As plasma glucose concentration rises above normal, glucose filtration increases linearly.

A: True - Filtration rate is directly proportional to concentration.

True/False: If, during an infusion of para-aminohippuric acid, peripheral venous plasma PAH level is 0.02 mg/ml (not above renal threshold), urinary PAH level is 16 mg/ml and urinary flow rate 1 ml/min, then the renal plasma flow is nearer 800 than 1000 ml/minute.

A: True - Flow=PAH clearance=UV/P=16 X 1/0.02=800 ml/minute.

True/False: The cells of the distal convoluted tubule reabsorb sodium in exchange for hydrogen or potassium ions.

A: True - H+ secretion is related to the body's acid-base balance.

True/False: Hydrostatic pressure in renal glomerular capillaries falls along the length of the capillary.

A: True - Hydrostatic pressure falls due to vascular resistance; oncotic pressure rises due to loss of protein-poor filtrate; both these factors reduce filtration pressure along the length of the glomerular capillary.

True/False: In the nephron, the osmolality of fluid in the medullary interstitium can exceed one osmole per litre.

A: True - It can be about four times that of plasma.

True/False: If, during an infusion of para-aminohippuric acid, peripheral venous plasma PAH level is 0.02 mg/ml (not above renal threshold), urinary PAH level is 16 mg/ml and urinary flow rate 1 ml/min, then the pah level in renal arterial blood must be about 0.02 mg/ml.

A: True - Since PAH is excreted only by the kidneys, the PAH level in peripheral venous blood determines the level entering the arterial system, and hence the renal arter- ies.

True/False: If, during an infusion of para-aminohippuric acid, peripheral venous plasma PAH level is 0.02 mg/ml (not above renal threshold), urinary PAH level is 16 mg/ml and urinary flow rate 1 ml/min, then the pah level in glomerular filtrate must be about 0.02 mg/ml.

A: True - Since PAH is freely filtered.

True/False: A substance is being secreted by the renal tubules if its concentration is higher in arterial than in renal venous blood.

A: True - Some of the unfiltered fraction must have been secreted.

True/False: Hydrostatic pressure in renal glomerular capillaries is higher than in most capillaries at heart level.

A: True - The afferent arterioles offer relatively little resistance.

True/False: Transport maximum (Tm) - limited reabsorption of a substance implies that its excretion rate is zero until its tm value is reached.

A: True - The concept applies also to amino acids and proteins.

True/False: The cells of the distal convoluted tubule secrete hydrogen ions into the tubular lumen.

A: True - The rate is related to acid-base requirements.

True/False: Renal tubules normally reabsorb all filtered amino acids.

A: True - These are filtered but do not appear in normal urine.

True/False: Renal tubules normally reabsorb all filtered hco3 in respiratory acidosis.

A: True - This plus HCO3- manufactured in the kidney compensates the respiratory acido- sis.

True/False: Tubular reabsorption of a filtered substance is likely to be active rather than passive if its renal clearance rises at high plasma levels.

A: True - This suggests saturation of a carrier system.

True/False: Tubular reabsorption of a filtered substance is likely to be active rather than passive if its concentration in the tubular fluid is lower than in peritubular capillary blood.

A: True - This suggests transportation into the blood against a concentration gradient.

True/False: Transport maximum (Tm) - limited reabsorption of a substance implies that its reabsorption is active.

A: True - Tm limited reabsorption is one type of active tubular reabsorption.

True/False: In the nephron, the osmolality of fluid in the collecting duct rises when vasopressin is being secreted.

A: True - Vasopressin (ADH) promotes water, but not salt, reabsorption in collecting ducts.

True/False: When a patient's mean arterial blood pressure falls by 50 per cent urinary output ceases.

A: True - When glomerular filtration stops, urinary output stops.