Nokea
How does influenza immunization produce immunity?
- A. The virus from the vaccine remains in the body until the end of the season
- B. An attenuated virus causes immune system suppression and triggers immunity
- C. The body identifies the virus and develops antibodies against the virus
- D. The vaccine remains in the injection site and produces immune cells
Correct Answer: C
Rationale: The correct answer is C. Influenza immunization works by introducing a weakened or inactivated form of the virus into the body, allowing the immune system to recognize it as foreign. This recognition triggers the production of antibodies specific to the virus. Choice A is incorrect as the virus in the vaccine does not remain in the body until the end of the season. Choice B is incorrect as an attenuated virus does not cause immune system suppression but rather stimulates an immune response. Choice D is incorrect because the vaccine does not stay at the injection site but rather prompts a systemic immune response throughout the body.
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Which of the following is NOT an example of clinical manifestations of leukemia and lymphoma?
- A. Fatigue
- B. Increased risk of bleeding
- C. Increased risk of infections
- D. Increased energy and strength
Correct Answer: D
Rationale: The correct answer is D: Increased energy and strength. Leukemia and lymphoma typically present with symptoms such as fatigue, weakness, increased risk of bleeding, and increased risk of infections. Patients with these conditions often experience a lack of energy and strength due to the disease's impact on the body. Therefore, increased energy and strength are not typical manifestations of leukemia and lymphoma.
Hematopoiesis occurs primarily in the bone marrow. What cells are formed during this process?
- A. Pancreatic beta cells
- B. Red blood cells
- C. Gastric parietal cells
- D. Neurons and glial cells
Correct Answer: B
Rationale: The correct answer is B: Red blood cells. Hematopoiesis is the process of blood cell formation that primarily occurs in the bone marrow. Red blood cells are one of the main cell types formed during this process. Pancreatic beta cells (Choice A), gastric parietal cells (Choice C), and neurons and glial cells (Choice D) are not formed during hematopoiesis. Pancreatic beta cells are involved in insulin production, gastric parietal cells secrete gastric acid, and neurons and glial cells are part of the nervous system.
What function does aldosterone serve in the body?
- A. Aldosterone causes a release of sodium from the body, decreases fluid volume, and decreases blood pressure
- B. Aldosterone causes a retention of sodium in the body, increases fluid volume, and increases blood pressure
- C. Aldosterone causes a release of sodium from the body, increases fluid volume, and decreases blood pressure
- D. Aldosterone enhances intracellular sodium production and lowers blood pressure
Correct Answer: B
Rationale: Aldosterone functions by causing the retention of sodium in the body, which results in an increase in fluid volume and blood pressure. Choice A is incorrect because aldosterone actually promotes sodium retention rather than release. Choice C is incorrect as it states that aldosterone decreases fluid volume, which is not accurate. Choice D is incorrect because aldosterone does not enhance intracellular sodium production; instead, it primarily acts on sodium reabsorption in the kidneys.
What typically causes contact dermatitis?
- A. Fungal infection
- B. Long-term disorder from gout
- C. Contact with a skin allergen
- D. Staphylococcal infection
Correct Answer: C
Rationale: Contact dermatitis is typically caused by contact with a skin allergen that triggers an allergic reaction. Choice A, fungal infection, is incorrect as contact dermatitis is not caused by fungi. Choice B, long-term disorder from gout, is also incorrect as gout is not typically associated with contact dermatitis. Choice D, Staphylococcal infection, is incorrect as contact dermatitis is primarily an allergic reaction rather than a bacterial infection.
Identify which conditions are due to excessive immune response.
- A. Allergies and onychomycosis
- B. Type II diabetes and smallpox
- C. Chronic renal failure and macular degeneration
- D. Allergies and rheumatoid arthritis
Correct Answer: D
Rationale: The correct answer is D: Allergies and rheumatoid arthritis. Allergies are caused by an excessive immune response to harmless substances, while rheumatoid arthritis is an autoimmune disorder where the immune system attacks the body's tissues, leading to inflammation and joint damage. Choices A, B, and C are incorrect. Onychomycosis is a fungal infection of the nails, Type II diabetes is a metabolic disorder not primarily related to immune response, smallpox is a viral infection, chronic renal failure is a kidney condition, and macular degeneration is an eye disorder, none of which are directly linked to excessive immune response.