Renal System Physiology Physioex

Category: Anatomy, Renal System
Last Updated: 21 Mar 2023
Pages: 3 Views: 1695
Table of contents

Exercise 9: Renal System Physiology: Activity 3: Renal Response to Altered Blood Pressure Lab Report

Pre-lab Quiz Results

You scored 25% by answering 1 out of 4 questions correctly.

Order custom essay Renal System Physiology Physioex with free plagiarism report

feat icon 450+ experts on 30 subjects feat icon Starting from 3 hours delivery
Get Essay Help

1. If all other variables are kept constant, how does the afferent arteriole radius affect the rate of glomerular filtration (select all that apply)?

Your answer : b. A decreased afferent arteriole radius will increase the rate of glomerular filtration.

Correct answer: c. An increased afferent arteriole radius will increase the rate of glomerular filtration. . A decreased afferent arteriole radius will decrease the rate of glomerular filtration.

2. If all other variables are kept constant, how does the efferent arteriole radius affect the rate of glomerular filtration (select all that apply)?

Your answer : d. A decreased efferent arteriole radius will decrease the rate of glomerular filtration.

Correct answer: a. An increased efferent arteriole radius will decrease the rate of glomerular filtration. b. A decreased efferent arteriole radius will increase the rate of glomerular filtration.

3. If all other variables are kept constant, how does blood pressure affect the rate of glomerular filtration (select all that apply)?

Your answer : c. If blood pressure goes down, the rate of glomerular filtration goes up.

Correct answer: b. If blood pressure goes up, the rate of glomerular filtration goes up. d. If blood pressure goes down, the rate of glomerular filtration goes down.

4. In the absence of other renal processes (including tubular reabsorption and secretion), more glomerular filtration leads to a larger urine volume.

You correctly answered: a. true

Experiment Results

Predict Question:

Predict Question: What will happen to the glomerular capillary pressure rate and glomerular filtration rate if both of these arteriole radii changes are implemented simultaneously with the low blood pressure condition?

Your answer : b. Glomerular filtration rate and pressure will rise above baseline values.

Stop & Think Questions:

  1. If blood pressure were to drop (for example, as the result of blood loss), what changes in the nephron would allow the kidney to maintain ts normal glomerular filtration rate (select all that apply)?

Your answer: c. afferent arteriole constriction

Correct answer: a. afferent arteriole dilation d. efferent arteriole constriction

2. Comparing the glomerular filtration rate and glomerular capillary pressure with the baseline values (from the first run), how effective was the increased afferent arteriole radius in compensating for the low blood pressure?

Your answer : b. The afferent arteriole dilation improved the low glomerular capillary pressure and filtration rate marginally.

Correct answer: c. The afferent arteriole dilation returned the low glomerular capillary pressure and filtration rate almost to baseline values.

3. Comparing the glomerular filtration rate and glomerular capillary pressure with the baseline values (from the first run), how effective was the decreased efferent arteriole radius in compensating for the low blood pressure?

You correctly answered: b. The efferent arteriole constriction improved the low glomerular capillary pressure and filtration rate marginally.

Experiment Data:

Post-lab Quiz Results

You scored 0% by answering 0 out of 4 questions correctly.

1. If all other variables are kept constant, when blood pressure decreases, glomerular filtration

Your answer: b. remains approximately the same.

Correct answer: c. ecreases.

2. If afferent arteriole radius decreases in response to an increase in blood pressure, then glomerular filtration

Your answer: a. increases.

Correct answer: b. remains approximately the same.

3. If all other variables are kept constant, when the efferent arteriole radius decreases, glomerular filtration

Your answer: c. decreases.

Correct answer: a. increases.

4. With blood pressure held at a constant value, which of the following combinations will raise the glomerular filtration rate above baseline values? Your answer: c. afferent rteriole constriction and efferent arteriole constriction

Correct answer: b. afferent arteriole dilation and efferent arteriole constriction

Review Sheet Results

1. List the several mechanisms you have explored that change the glomerular filtration rate. How does each mechanism specifically alter the glomerular filtration rate?

Your answer: Renal mechanisms have effects on water excretion . GFR is large compared to the amount of urine produced. Most water in the filtrate because of renal processes and independent of ADH action

2.Describe and explain what happened to the glomerular capillary pressure and glomerular filtration rate when both arteriole radii changes were implemented simultaneously with the low blood pressure condition. How well did the results compare with your prediction?

Your answer: The simultaneously implementation of both arteriole rates changing caused glomerular filtration rate and low blood pressure conditions went above the baseline value.

3. How could you adjust the afferent or efferent radius to compensate for the effect of reduced blood pressure on the glomerular filtration rate?

Your answer: You can co nstrict or dilate them.

4. Which arteriole radius adjustment was more effective at compensating for the effect of low blood pressure on the glomerular filtration rate? Explain why you think this difference occurs.

Your answer: There was a greater increase of glomerular pressure when afferent radius is increased rather than the decrease of the efferent radius.

5. In the body, how does a nephron maintain a near-constant glomerular filtration rate despite a constantly fluctuating blood pressure?

Your answer: Auto-regulation

Related Questions

on Renal System Physiology Physioex

Which of the following forces promotes filtration Physioex?
The forces that promote filtration in Physioex are hydrostatic pressure, osmotic pressure, and oncotic pressure. These forces work together to move fluid and solutes across the membrane, allowing for filtration to occur.
What happened to the GFR as the afferent radius was increased?
As the afferent radius was increased, the glomerular filtration rate (GFR) increased as well. This is because an increase in the afferent radius increases the surface area of the glomerulus, which increases the rate of filtration.
Does caffeine consumption lead to increased urine formation?
Yes, caffeine consumption can lead to increased urine formation. This is because caffeine is a diuretic, meaning it increases the amount of water and salt that is excreted in the urine. As a result, drinking caffeinated beverages can lead to increased urine production.
What happened to the glomerular capillary pressure and GFR as blood pressure increased?
As blood pressure increases, the glomerular capillary pressure also increases, which in turn increases the glomerular filtration rate (GFR). This is because the increased pressure forces more fluid and solutes through the glomerular capillaries, resulting in a higher GFR.

Cite this Page

Renal System Physiology Physioex. (2017, Mar 24). Retrieved from https://phdessay.com/renal-system-physiology-physioex/

Don't let plagiarism ruin your grade

Run a free check or have your essay done for you

plagiarism ruin image

We use cookies to give you the best experience possible. By continuing we’ll assume you’re on board with our cookie policy

Save time and let our verified experts help you.

Hire writer