Nokea
In laryngeal stridor, the noise is more marked during
- A. Inspiration
- B. Expiration
- C. Feeding
- D. Play
Correct Answer: A
Rationale: The correct answer is A: Inspiration. Laryngeal stridor is caused by narrowed or obstructed airway, resulting in noisy breathing. During inspiration, the air is drawn through the narrowed larynx, causing the stridor sound. During expiration, the air is leaving the body, so the noise may not be as prominent. Choices C and D, feeding and play, are unrelated to the respiratory process and do not affect the presence of laryngeal stridor.
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Hepatic encephalopathy is a clinical syndrome seen in patients with chronic liver disease its presentation may range from mild personality changes, to psychosis, to coma. The primary chemical mediators of hepatic encephalopathy include all of the following except
- A. Gamma-aminobutyric acid (GABA)
- B. Ammonia
- C. False neurotransmitters
- D. Serotonin
Correct Answer: D
Rationale: The correct answer is D: Serotonin. Serotonin is not a primary chemical mediator of hepatic encephalopathy. The main chemical mediators involved in hepatic encephalopathy are A: Gamma-aminobutyric acid (GABA), B: Ammonia, and C: False neurotransmitters. GABA plays a role in inhibiting neurotransmission, ammonia is a key factor in the pathogenesis of hepatic encephalopathy, and false neurotransmitters are produced due to altered amino acid metabolism in the liver. Serotonin is not a key player in the development of hepatic encephalopathy, hence it is the correct answer.
The AGACNP knows that treatment for this likely will include
- A. Observation
- B. Hyperextension casting
- C. Jewett brace
- D. Surgical intervention
Correct Answer: B
Rationale: The correct answer is B: Hyperextension casting. The AGACNP knows that this treatment is appropriate for a condition that requires immobilization and support while allowing controlled movement. Hyperextension casting provides stability and support while promoting healing. Observation (A) would not provide adequate treatment for a condition requiring immobilization. Jewett brace (C) is typically used for spinal fractures, not for conditions that require hyperextension casting. Surgical intervention (D) would be considered if conservative measures like casting have failed.
The AGACNP is covering an internal medicine service and is paged by staff to see a patient who has just pulled out his ET tube. After the situation has been assessed, it is clear that the patient will go into respiratory failure and likely die if he is not reintubated. The patient is awake and alert and is adamant that he does not want to be reintubated. The AGACNP is concerned that there is not enough time to establish a DNRthe patient needs to be reintubated immediately and already is becoming obtunded. Which ethical principles are in conflict here?
- A. Veracity and beneficence
- B. Beneficence and nonmalfeasance
- C. Autonomy and beneficence
- D. Justice and autonomy
Correct Answer: C
Rationale: The correct answer is C: Autonomy and beneficence. Autonomy refers to the patient's right to make their own decisions regarding their healthcare. In this case, the patient is refusing reintubation, exercising his autonomy. However, beneficence, the duty to act in the patient's best interest, also comes into play as the patient's refusal could lead to respiratory failure and death. The conflict arises from balancing the patient's autonomy with the healthcare provider's duty to provide beneficial care.
Choices A, B, and D are incorrect because they do not accurately capture the ethical conflict present in the scenario. Veracity (A) refers to truthfulness, which is not the primary issue here. Nonmalfeasance (B) is the duty to do no harm, which is not directly relevant to the conflict between the patient's autonomy and the need for beneficial care. Justice (D) relates to fairness in resource allocation and is not the primary issue in this case.
Icterus gravis and hydrops fetalis are conditions highly associated with:
- A. Rhesus D incompatibility
- B. ABO incompatibility
- C. Physiological jaundice
- D. Instant perinatal death
Correct Answer: A
Rationale: The correct answer is A: Rhesus D incompatibility. Icterus gravis (severe jaundice) and hydrops fetalis (abnormal accumulation of fluid) are both conditions commonly associated with Rhesus D incompatibility between a mother and her fetus. This occurs when the mother is Rh-negative and the fetus is Rh-positive, leading to maternal antibodies attacking the fetal red blood cells, resulting in severe hemolytic anemia and subsequent complications.
Explanation for why other choices are incorrect:
B: ABO incompatibility typically leads to less severe jaundice and hemolytic disease compared to Rhesus D incompatibility.
C: Physiological jaundice is a common and benign condition in newborns caused by the immaturity of the liver, not by blood type incompatibility.
D: Instant perinatal death is not specifically associated with these conditions, but rather with other serious complications during childbirth.
In deep transverse arrest,
- A. The occipito-frontal diameter is caught at the bispinous diameter of the pelvic outlet
- B. The sub-occipito-bregmatic diameter is caught at the bispinous diameter of pelvic outlet
- C. The resulting outcome is usually a face to pubis delivery
- D. The sagittal suture is found at the oblique diameter of the pelvis
Correct Answer: D
Rationale: The correct answer is D because in deep transverse arrest, the sagittal suture of the fetal head is typically aligned with the oblique diameter of the pelvis, causing an obstruction in the descent of the baby. This alignment leads to a difficult labor scenario where the baby's head cannot pass through the pelvis due to the mismatch in diameters. Choices A, B, and C are incorrect because they do not accurately describe the specific anatomical alignment that characterizes deep transverse arrest. Choice A refers to occipito-frontal diameter, choice B refers to sub-occipito-bregmatic diameter, and choice C mentions a face to pubis delivery, which are not the defining features of deep transverse arrest.