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 Heart3h 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

17. The Blood

Erythrocytes: Hemoglobin

Anatomy & Physiology

17. The Blood

Erythrocytes: Hemoglobin

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Problem L2.2

Textbook Question

Predict how abnormal hemoglobin proteins that contain only two iron ions, instead of four, would affect homeostasis.

Verified step by step guidance

Understand the role of hemoglobin in the body: Hemoglobin is a protein found in red blood cells that binds oxygen in the lungs and transports it to tissues throughout the body. Each hemoglobin molecule typically contains four iron ions, which are essential for binding oxygen molecules.

Analyze the impact of reduced iron ions: If hemoglobin proteins contain only two iron ions instead of four, the oxygen-binding capacity of each hemoglobin molecule would be reduced by half. This means less oxygen would be transported to tissues, potentially leading to hypoxia (low oxygen levels in tissues).

Consider the effects on cellular respiration: Oxygen is a critical component for cellular respiration, the process by which cells produce energy (ATP). Reduced oxygen delivery would impair this process, leading to decreased energy production and affecting the function of various organs and systems.

Evaluate the consequences for homeostasis: Homeostasis refers to the body's ability to maintain stable internal conditions. Reduced oxygen transport would disrupt homeostasis by impairing tissue function, potentially causing symptoms such as fatigue, shortness of breath, and organ dysfunction.

Relate to compensatory mechanisms: The body may attempt to compensate for reduced oxygen transport by increasing heart rate, respiratory rate, or red blood cell production (via erythropoiesis). However, these compensatory mechanisms may not fully restore normal oxygen levels, leading to chronic stress on the cardiovascular and respiratory systems.

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Key Concepts

Here are the essential concepts you must grasp in order to answer the question correctly.

Hemoglobin Structure and Function

Hemoglobin is a protein in red blood cells responsible for transporting oxygen from the lungs to the body's tissues. It consists of four subunits, each containing an iron ion that binds to oxygen. Abnormal hemoglobin with only two iron ions would impair its ability to carry oxygen effectively, leading to reduced oxygen delivery to tissues.

Homeostasis

Homeostasis refers to the body's ability to maintain stable internal conditions despite external changes. This includes regulating temperature, pH, and the concentration of various substances, including oxygen. Disruption in oxygen transport due to abnormal hemoglobin can lead to hypoxia, triggering compensatory mechanisms that may strain other systems.

Compensatory Mechanisms

When homeostasis is disrupted, the body employs compensatory mechanisms to restore balance. For instance, if oxygen levels drop due to ineffective hemoglobin, the body may increase heart rate, enhance respiratory rate, or stimulate the production of more red blood cells. These responses aim to mitigate the effects of reduced oxygen availability and maintain overall physiological function.

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Related Practice

Multiple Choice

Cynthia lives in Miami, a city at low altitude. She goes on a month-long trip to the Andes Mountain range (at high altitude) where the air pressure is lower and therefore there is less oxygen in each breath she takes. Upon returning to Miami, how might a sample of her blood differ from a sample taken before she left for her trip?

Anemia is a blood disorder where the $O_2$ -carrying capacity of blood is too low to support the body's tissues. Which of the following is not a possible cause of anemia?

Dehydration would:

(a) Cause an increase in the hematocrit

(b) Cause a decrease in the hematocrit

(d) Cause an increase in plasma volume

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Textbook Question

Anemia is defined as:

a. A decreased oxygen-carrying capacity of the blood.

b. A decreased iron content of the blood.

c. Decreased bone marrow function.

d. Abnormalities in hemoglobin.

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Textbook Question

Mr. Jackson presents to the emergency room with a minor wound that has bled for several days. An examination of his medical history reveals that Mr. Jackson has hemophilia A, which is caused by a deficiency of factor VIII. Your co-worker suggests that you give Mr. Jackson some platelets to stop the bleeding. Will this help your patient? Why or why not?

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Textbook Question

Alan Forsythe, a middle-aged college professor from Boston, is in the Swiss Alps studying astronomy during his sabbatical leave. He has been there for two days and plans to stay the entire year. However, he notices that he is short of breath when he walks up steps and tires easily with any physical activity. His symptoms gradually disappear, and he feels fine after less than a month. Upon returning to the United States, he has a complete physical exam and is told that his erythrocyte count is higher than normal.

a. Attempt to explain this finding.

b. Will his RBC count remain at this higher-than-normal level? Why or why not?

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Textbook Question

How can poor nutrition lead to anemia?

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Textbook Question

Brittany, a healthy young woman, had a battery of tests during a physical for a new job. Her RBC count was at the higher end of the normal range at that time, but four weeks later it was substantially elevated beyond that. When asked if any circumstances had changed in her life, she admitted to taking up smoking. How might her new habit explain her higher RBC count?

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