Nokea
Which organ does not have hormone production?
- A. heart
- B. kidney
- C. liver
- D. skin
Correct Answer: C
Rationale: The correct answer is C: liver. The liver does not produce hormones. Hormones are primarily produced by endocrine glands such as the pituitary, thyroid, adrenal glands, etc. The liver's main functions are related to metabolism, detoxification, and storage, rather than hormone production. The heart (choice A) produces hormones like atrial natriuretic peptide. The kidney (choice B) produces hormones like erythropoietin and renin. The skin (choice D) produces hormones like vitamin D when exposed to sunlight. Therefore, the liver is the only organ in the list that does not have hormone production.
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Estrogens and progesterone are produced by:
- A. the testes.
- B. the ovaries.
- C. the adrenal glands.
- D. the hypothalamus.
Correct Answer: B
Rationale: Estrogens and progesterone are primarily produced by the ovaries in females. The ovaries are the main reproductive organs responsible for the production of these hormones, essential for menstrual cycle regulation and pregnancy support. The correct answer is B because the ovaries are the key glands that synthesize and release estrogen and progesterone. Choices A, C, and D are incorrect because the testes primarily produce testosterone, the adrenal glands produce cortisol and adrenaline, and the hypothalamus is a brain region involved in hormone regulation, not hormone production.
Mineralcorticoids
- A. are produced in the adrenal cortex.
- B. are steroid hormones.
- C. help regulate the homeostasis of sodium and potassium.
- D. All of the above.
Correct Answer: D
Rationale: 1. Mineralocorticoids are hormones produced in the adrenal cortex (A).
2. They are steroid hormones (B) that specifically regulate sodium and potassium homeostasis (C).
3. Therefore, the correct answer is D, as mineralocorticoids encompass all these characteristics. Other choices are incorrect as they do not fully encompass the functions and characteristics of mineralocorticoids.
Which of the following is NOT a mechanism of hormone action?
- A. plasma membrane permeability changes
- B. cellular mutations occur
- C. enzymes are activated or inactivated
- D. mitosis is stimulated
Correct Answer: B
Rationale: The correct answer is B: cellular mutations occur. Hormones typically act through binding to specific receptors on target cells to initiate a signaling cascade. This process does not involve inducing mutations in the cell's DNA. Plasma membrane permeability changes, enzyme activation/inactivation, and stimulation of mitosis are all well-established mechanisms of hormone action. Therefore, B is the correct answer as it does not align with the usual mechanisms by which hormones exert their effects.
The person with _____ is most likely to receive insulin therapy.
- A. myxedema
- B. Graves’ disease
- C. diabetes insipidus
- D. hyperglycemia
Correct Answer: D
Rationale: The correct answer is D: hyperglycemia. Hyperglycemia refers to high blood sugar levels, a hallmark of diabetes mellitus. Insulin therapy is commonly prescribed to individuals with diabetes to help regulate their blood sugar levels. Myxedema (choice A) is associated with hypothyroidism, Graves' disease (choice B) is an autoimmune disorder affecting the thyroid, and diabetes insipidus (choice C) involves the kidneys and has no direct relation to insulin therapy for diabetes. Therefore, hyperglycemia is the most appropriate condition for receiving insulin therapy.
Hypersecretion of antidiuretic hormone (ADH) can occur in all of the following situations EXCEPT __________.
- A. damage to the pineal gland
- B. after neurosurgery
- C. after general anesthesia
- D. ectopic ADH secretion by pulmonary cancer
Correct Answer: A
Rationale: The correct answer is A: damage to the pineal gland. The pineal gland does not regulate ADH secretion; it primarily produces melatonin. Neurosurgery and general anesthesia may disrupt the feedback mechanisms controlling ADH release. Ectopic ADH secretion by pulmonary cancer can lead to excessive ADH production. The key is to identify a situation where ADH hypersecretion is less likely to occur due to the gland's function.