Textbook Question
What interacting controls stabilize the glomerular filtration rate (GFR)?
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Ch. 26 The Urinary System
Martini, Nath, Bartholomew12th EditionFundamentals of Anatomy and PhysiologyISBN: 9780137854011
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Table of contents
- Ch. 1 An Introduction to Anatomy and Physiology25
- Ch. 2 The Chemical Level of Organization34
- Ch. 3 The Cellular Level of Organization29
- Ch. 4 The Tissue Level of Organization24
- Ch. 5 The Integumentary System17
- Ch. 6 Bones and Bone Structure33
- Ch. 7 The Axial Skeleton11
- Ch. 8 The Appendicular Skeleton17
- Ch. 9 Joints13
- Ch. 10 Muscle Tissue12
- Ch. 11 The Muscular System28
- Ch. 12 Nervous Tissue18
- Ch. 13 The Spinal Cord, Spinal Nerves, and Spinal Reflexes22
- Ch. 14 The Brain and Cranial Nerves20
- Ch. 15 Sensory Pathways and the Somatic Nervous System17
- Ch. 16 The Autonomic Nervous System and Higher-Order Functions30
- Ch. 17 The Special Senses15
- Ch. 18 The Endocrine System21
- Ch. 19 Blood31
- Ch. 20 The Heart31
- Ch. 21 Blood Vessels and Circulation26
- Ch. 22 The Lymphatic System and Immunity25
- Ch. 23 The Respiratory System4
- Ch. 24 The Digestive System18
- Ch. 26 The Urinary System31
- Ch. 27 Fluids & Electrolytes30
- Ch. 28 The Reproductive System12
- Ch. 29 Development and Inheritance17
Martini, Nath, Bartholomew12th EditionFundamentals of Anatomy and PhysiologyISBN: 9780137854011Not the one you use?Change textbook
Chapter 25, Problem 21
How are proteins excluded from filtrate? Why is this important?
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Understand that proteins are generally excluded from the filtrate in the kidneys primarily due to the structure and properties of the glomerular filtration barrier.
Recognize that the glomerular filtration barrier consists of three layers: the fenestrated endothelium, the basement membrane, and the podocyte slit diaphragm. Each layer contributes to selective filtration.
Note that the basement membrane and podocyte slit diaphragm have negatively charged components that repel negatively charged plasma proteins, such as albumin, preventing their passage into the filtrate.
Consider the size-selective nature of the filtration barrier, which physically restricts large molecules like most proteins from passing through, allowing mainly water, ions, and small solutes to filter.
Understand the importance: excluding proteins from filtrate prevents loss of essential plasma proteins, maintains oncotic pressure in blood vessels, and protects the nephron from damage that could be caused by protein accumulation in the filtrate.
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Key Concepts
Here are the essential concepts you must grasp in order to answer the question correctly.
Glomerular Filtration Barrier
The glomerular filtration barrier is a three-layered structure in the kidney that filters blood plasma. It consists of fenestrated endothelial cells, the basement membrane, and podocyte foot processes with slit diaphragms. This barrier selectively allows water and small solutes to pass while restricting larger molecules like proteins.
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3:15
Glomerular Filtration Rate
Charge and Size Selectivity
Proteins are excluded from the filtrate primarily due to their size and negative charge. The basement membrane and slit diaphragms have negatively charged components that repel negatively charged proteins, preventing their passage. This size and charge selectivity ensures that essential proteins remain in the bloodstream.
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6:43Clonal Selection
Physiological Importance of Protein Retention
Preventing protein loss in urine is vital to maintain blood oncotic pressure and prevent edema. Proteins like albumin help retain fluid within blood vessels, supporting proper circulation and tissue hydration. Loss of proteins in urine (proteinuria) indicates kidney damage and can lead to serious health issues.
Recommended video:
02:50Proteins
Related Practice
Textbook Question
What primary changes occur in the composition and concentration of filtrate as a result of activity in the proximal convoluted tubule?
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Textbook Question
The control of blood pH by the kidneys during acidosis involves
(a) The secretion of hydrogen ions and reabsorption of bicarbonate ions from the tubular fluid
(b) A decrease in the amount of water reabsorbed
(c) Hydrogen ion reabsorption and bicarbonate ion loss
(d) Potassium ion secretion
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Textbook Question
When ADH levels rise,
(a) The amount of water reabsorbed increases.
(b) The DCT becomes impermeable to water.
(c) The amount of water reabsorbed decreases.
(d) Sodium ions are exchanged for potassium ions.
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Textbook Question
Describe two functions of countercurrent multiplication in the kidney.
Textbook Question
Sodium reabsorption in the DCT and in the cortical portion of the collecting system is accelerated by the secretion of
(a) ADH
(b) Renin
(c) Aldosterone
(d) Erythropoietin
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