Table of contents

1. Introduction to Anatomy & Physiology5h 43m
2. Cell Chemistry & Cell Components12h 36m
3. Energy & Cell Processes10h 6m
4. Tissues & Histology10h 3m
5. Integumentary System2h 20m
6. Bones & Skeletal Tissue2h 16m
7. The Skeletal System2h 35m
8. Joints2h 17m
9. Muscle Tissue2h 33m
10. Muscles1h 11m
11. Nervous Tissue and Nervous System1h 35m
12. The Central Nervous System1h 6m
- Introduction to the Central Nervous System
  18m
- The Cerebrum
  48m
13. The Peripheral Nervous System1h 26m
14. The Autonomic Nervous System1h 38m
15. The Special Senses2h 41m
16. The Endocrine System2h 48m
17. The Blood3h 22m
18. The Heart2h 42m
19. The Blood Vessels3h 35m
20. The Lymphatic System3h 16m
21. The Immune System14h 37m
22. The Respiratory System3h 20m
23. The Digestive System2h 5m
24. Metabolism and Nutrition4h 0m
25. The Urinary System2h 39m
26. Fluid and Electrolyte Balance, Acid Base Balance37m
27. The Reproductive System2h 5m
28. Human Development1h 21m
29. Heredity3h 32m

25. The Urinary System

Renal Physiology Step 1: Glomerular Filtration

Anatomy & Physiology

25. The Urinary System

Renal Physiology Step 1: Glomerular Filtration

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Multiple Choice

The hydrostatic pressure in glomerular capillaries is the chief force pushing water and solutes out of the blood and across the filtration membrane.

False

True

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Verified step by step guidance

Understand the concept of hydrostatic pressure: Hydrostatic pressure is the force exerted by a fluid due to gravity. In the context of the glomerular capillaries, it refers to the pressure exerted by the blood within these capillaries.

Identify the role of hydrostatic pressure in the kidneys: In the kidneys, hydrostatic pressure in the glomerular capillaries is crucial for the process of filtration. It is the primary force that drives water and solutes out of the blood and into the Bowman's capsule, initiating urine formation.

Examine the filtration membrane: The filtration membrane consists of the glomerular endothelium, the basement membrane, and the podocytes. Hydrostatic pressure pushes water and solutes across this membrane from the blood into the nephron.

Consider the balance of pressures: While hydrostatic pressure is the chief force, it is important to note that other pressures, such as osmotic pressure and capsular hydrostatic pressure, also play roles in the filtration process. However, hydrostatic pressure is the dominant force.

Conclude the statement's accuracy: Given the role of hydrostatic pressure in driving filtration, the statement that it is the chief force pushing water and solutes out of the blood and across the filtration membrane is indeed true.