ATI LPN
Respiratory System Practice Questions Questions
Question 1 of 5
Which of the following passes through the opening in thyrohyoid membrane:
Correct Answer: C
Rationale: Failed to generate a rationale of 500+ characters after 5 retries.
Question 2 of 5
Type of epithelium in Bowman's capsule:
Correct Answer: A
Rationale: Bowman's capsule, enclosing the glomerulus, is lined with simple squamous epithelium (A), thin for filtration of plasma into the nephron. Simple cuboidal (B) lines PCT, not capsule. Stratified squamous (C) is protective (e.g., skin), not filtration-suited. Transitional (D) stretches in the bladder, irrelevant here. A is correct simple squamous' flatness optimizes filtration, unlike the others' structures.
Question 3 of 5
Which one is not correct? A patient suffering from anaemia with an Hb concentration of 5 g/100 ml
Correct Answer: D
Rationale: In anemia (Hb = 5 g/100 ml), choice D (PₙO₂ decreased) is incorrect. PₙO₂ (assumed PaO₂, arterial pO₂) remains normal (≈100 mmHg) because lung function isn't impaired; only O₂-carrying capacity drops. Choice A (decreased TPR) is correct; reduced blood viscosity lowers total peripheral resistance. Choice B (increased cardiac output) is true; the heart compensates for lower O₂ content by pumping more blood. Choice C (increased 2,3-DPG) is accurate; RBCs produce more 2,3-DPG to shift the O₂ dissociation curve rightward, enhancing O₂ unloading to tissues. Choice E (curve shifts right) supports this adaptation. PaO₂ reflects dissolved O₂, not Hb-bound O₂, so it's unaffected by anemia unless hypoxemia coexists. The body's compensatory mechanisms focus on delivery, not arterial pO₂, making D the false statement here.
Question 4 of 5
All of the following shift the oxygen dissociation curve to the right EXCEPT
Correct Answer: C
Rationale: Carbon monoxide (CO, choice C) doesn't shift the Oâ‚‚ dissociation curve right, making it the exception. Decreased pH (choice A), increased temperature (choice B), and increased pCOâ‚‚ (choice D, repeated as E) all reduce Hb-Oâ‚‚ affinity (Bohr effect), shifting the curve right to favor Oâ‚‚ unloading. CO binds Hb with high affinity, forming COHb, which left-shifts the curve for unbound Hb, increasing Oâ‚‚ affinity and impairing release opposite to a right shift. Acidosis (A), heat (B), and COâ‚‚ (D) enhance tissue Oâ‚‚ delivery, adaptive in exercise or hypoxia. CO's toxic effect mimics high Oâ‚‚ saturation, masking hypoxia, and doesn't aid unloading. Thus, C's distinct leftward action excludes it from right-shift factors.
Question 5 of 5
Which is the INCORRECT pairing in bronchi/bronchioles:
Correct Answer: A
Rationale: cholinergic discharge (acetylcholine, parasympathetic) causes bronchoconstriction, not bronchodilation. Choice B is true; β₂-agonists (e.g., albuterol) activate adrenergic receptors, relaxing bronchial smooth muscle. ' β₂-agonists increase mucus secretion, a secondary effect to dilation. Choice D is true; vasoactive intestinal peptide (VIP) promotes bronchodilation by relaxing smooth muscle. Cholinergic stimulation, via vagus nerve, contracts bronchioles, increasing resistance opposite to bronchodilation's airway widening. This reflects autonomic balance: parasympathetic constricts, sympathetic (β₂) dilates. A's reversal of this physiology misrepresents airway control, where bronchodilation aids airflow (e.g., asthma treatment), while cholinergic effects narrow airways for rest or protection. Thus, A is the incorrect pairing.