Nokea
In uterine inversion, the last part to be replaced is the
- A. Cervix
- B. Fundus
- C. Isthmus
- D. Body
Correct Answer: B
Rationale: In uterine inversion, the fundus is the last part to be replaced due to its position being the deepest inside the vagina. The fundus is the upper portion of the uterus and is the last part to invert back into its normal position. The cervix, isthmus, and body are parts of the uterus that are more easily replaced during the process of uterine inversion. The fundus being the final part to be replaced ensures the uterus is fully restored to its correct orientation.
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The progression of coronary artery plaque formation can lead to a variety of pathologic conditions. When subtotal plaque disruption occurs resulting in vasoconstriction, platelet activation, and embolization, it most commonly causes which clinical phenomenon?
- A. Endothelial cell dysfunction
- B. Prinzmetal’s angina
- C. Transmural myocardial infarction
- D. Non-ST elevation myocardial infarction
Correct Answer: C
Rationale: The correct answer is C: Transmural myocardial infarction. Subtotal plaque disruption leads to vasoconstriction, platelet activation, and embolization, causing complete occlusion of a coronary artery. This results in ischemia of the entire thickness of the myocardial wall, leading to transmural myocardial infarction. Endothelial cell dysfunction (A) is an early event in atherosclerosis but does not directly result from subtotal plaque disruption. Prinzmetal's angina (B) is caused by transient coronary artery spasm rather than plaque disruption. Non-ST elevation myocardial infarction (D) involves incomplete blockage of a coronary artery and typically does not result from subtotal plaque disruption.
The MAIN function of surfactant factor is to
- A. Prevent alveoli of the lungs from collapsing
- B. Initiate breathing of the neonate at birth
- C. Enhance maturity of respiratory centre in the brain
- D. Regulate breathing immediately the baby is born
Correct Answer: A
Rationale: The correct answer is A: Prevent alveoli of the lungs from collapsing. Surfactant reduces surface tension in the alveoli, preventing them from collapsing during exhalation and maintaining lung compliance. B, C, and D are incorrect because surfactant primarily affects lung mechanics, not the initiation of breathing, maturity of the respiratory center, or immediate regulation of breathing upon birth.
The AGACNP is evaluating a patient who reportedly fell down a flight of steps. Her history is significant for several emergency room visits, but she denies any significant medical conditions. Some documentation in her chart indicates that she may have been subjected to physical abuse. Today she presents with a periorbital ecchymosis of the left eye and swelling in the left side of the face. Her neurologic examination is within normal limits. Which head imaging study would be most useful in assessing for findings consistent with a history of abuse?
- A. Radiographs
- B. CT scan without contrast
- C. MRI
- D. PET scan
Correct Answer: B
Rationale: The correct answer is B: CT scan without contrast. A CT scan is the most useful imaging study in assessing for findings consistent with a history of abuse in this patient. CT scan is preferred for acute trauma to the head as it provides detailed images of the brain, skull, and facial bones. It can detect acute hemorrhages, fractures, or other signs of trauma. In this case, the patient's presentation with periorbital ecchymosis and facial swelling raises suspicion for traumatic injury, which can be assessed effectively with a CT scan.
Radiographs (choice A) are not as sensitive as CT scans in detecting subtle fractures or soft tissue injuries in the head and face. MRI (choice C) is not typically used in acute trauma assessment and may not provide timely information needed in this case. PET scan (choice D) is not indicated for evaluating traumatic head injuries and is more commonly used for assessing metabolic and functional activity in the body.
In the preoperative assessment of a patient for the likelihood of postoperative risk, ascorbic acid deficiency, anemia, and volume contraction are all risk factors for
- A. Prolonged intubation
- B. Thromboembolism
- C. Delayed wound healing
- D. Atelectasis
Correct Answer: D
Rationale: Step-by-step rationale for why choice D (Atelectasis) is correct:
1. Ascorbic acid deficiency can lead to impaired lung function, increasing the risk of atelectasis.
2. Anemia can cause decreased oxygen-carrying capacity, contributing to atelectasis.
3. Volume contraction can lead to reduced lung expansion, further predisposing to atelectasis.
Summary:
- Choice A (Prolonged intubation): Intubation duration is more related to respiratory complications, not directly linked to the mentioned risk factors.
- Choice B (Thromboembolism): Risk factors like immobility and hypercoagulability are more relevant to thromboembolism.
- Choice C (Delayed wound healing): More associated with factors like malnutrition and impaired immune function rather than the mentioned risk factors.
Teratogenic causes of congenital abnormalities include
- A. Medical conditions and pesticides
- B. Prescription drugs and chromosomes
- C. Radiation and substances of abuse
- D. Disordered genes and medical conditions
Correct Answer: C
Rationale: The correct answer is C because radiation and substances of abuse are known teratogenic causes of congenital abnormalities. Radiation exposure can lead to genetic mutations and developmental issues in the fetus. Substances of abuse like alcohol, tobacco, and illicit drugs can also negatively impact fetal development.
A: Medical conditions and pesticides may have negative effects on pregnancy outcomes, but they are not typically classified as teratogenic causes of congenital abnormalities.
B: Prescription drugs can be teratogenic in some cases, but not all prescription drugs have harmful effects on fetal development. Chromosomes are not typically considered teratogenic causes.
D: Disordered genes can lead to congenital abnormalities, but they are not classified as teratogenic causes. Medical conditions are not universally teratogenic.