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A nursing instructor asks a student to explain the influence of chronobiology on depression. Which of the following would the student include when responding?
- A. The exact location of genes leads to identifying the gene responsible for causing depression.
- B. A break in the corpus callosum blocks information exchange between the right and left hemispheres.
- C. Damage to the posterior areas of the parietal lobe leads to altered discriminative sensory function.
- D. Internal and external triggers can elicit biologic rhythm changes indicative of clinical depression.
Correct Answer: D
Rationale: Chronobiology studies biological rhythms, such as circadian rhythms, which influence mood disorders like depression. Internal (e.g., hormonal changes) and external (e.g., light exposure) triggers can disrupt these rhythms, contributing to depressive symptoms. The other options relate to genetics, brain connectivity, or sensory function, not chronobiology.
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A group of students are reviewing information about neurotransmitter subtypes. The group demonstrates understanding of the information when they identify which neurotransmitter as having muscarinic and nicotinic receptors?
- A. Serotonin
- B. Gamma-aminobutyric acid (GABA)
- C. Dopamine
- D. Acetylcholine
Correct Answer: D
Rationale: Acetylcholine has muscarinic and nicotinic receptors, which mediate its effects in the nervous system. Serotonin, GABA, and dopamine have different receptor subtypes (e.g., 5-HT, GABA-A, D1/D2), not muscarinic or nicotinic.
Which of the following would a nursing instructor identify when describing the area of the brain involved with verbal language function, including areas for both receptive and expressive speech?
- A. Right hemisphere
- B. Parietal lobe
- C. Occipital lobe
- D. Left hemisphere
Correct Answer: D
Rationale: The left hemisphere is primarily responsible for verbal language functions, including Broca?s area (expressive speech) and Wernicke?s area (receptive speech). The right hemisphere handles nonverbal functions, the parietal lobe processes sensory information, and the occipital lobe is involved in vision.
The nurse is caring for a patient who has experienced damage to the parietal lobes of the brain. The nurse anticipates that the patient will have difficulty with which of the following?
- A. Perceiving sensory input
- B. Calculating a math problem
- C. Seeing objects in front of him
- D. Speaking fluently
Correct Answer: A
Rationale: The parietal lobes process sensory information, such as touch and spatial awareness. Damage can impair sensory perception. Calculating math problems involves the frontal and parietal lobes but is less specific, seeing objects relates to the occipital lobe, and fluent speech involves Broca?s area.
A patient has been diagnosed with memory dysfunction associated with Alzheimer?s disease. The nurse determines that damage to the patient?s brain includes deterioration of temporal lobe structures and the nerves of which of the following?
- A. Basal ganglia
- B. Limbic system
- C. Frontal lobe
- D. Hippocampus
Correct Answer: D
Rationale: Alzheimer?s disease involves memory dysfunction due to deterioration of the hippocampus (part of the limbic system in the temporal lobe) and other temporal lobe structures. The basal ganglia regulate movement, the limbic system broadly affects emotions, and the frontal lobe handles executive functions.
The nurse is assessing a patient experiencing anxiety and observes increased sweating and gooseflesh. The nurse understands that these are the result of which substance?
- A. Acetylcholine
- B. Norepinephrine
- C. Serotonin
- D. Histamine
Correct Answer: B
Rationale: Norepinephrine, part of the sympathetic nervous system, triggers physiological responses like sweating and gooseflesh during anxiety (fight-or-flight response). Acetylcholine is parasympathetic, serotonin regulates mood, and histamine is involved in allergic responses.