Nokea
The commonest cause of jaundice in thalassemia is:
- A. viral hepatitis c
- B. iron deposition in liver
- C. viral hepatitis B
- D. haemolysis
Correct Answer: D
Rationale: The correct answer is D: haemolysis. In thalassemia, there is an abnormality in hemoglobin production leading to the destruction of red blood cells, causing hemolysis. This results in the release of bilirubin, leading to jaundice. Iron deposition in the liver (choice B) is seen in conditions like hemochromatosis, not thalassemia. Viral hepatitis B and C (choices A and C) can cause jaundice, but they are not the commonest cause in thalassemia patients, as hemolysis is the primary mechanism in this population.
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A hospitalized client has a platelet count of 58,000/mm³. What action by the nurse is best?
- A. Encourage high-protein foods.
- B. Institute neutropenic precautions.
- C. Limit visitors to healthy adults.
- D. Place the client on safety precautions.
Correct Answer: D
Rationale: The correct answer is D: Place the client on safety precautions. A platelet count of 58,000/mm³ indicates thrombocytopenia, increasing the risk of bleeding. Safety precautions aim to prevent injury and minimize bleeding risks. Encouraging high-protein foods (choice A) is not directly related to managing thrombocytopenia. Instituting neutropenic precautions (choice B) is for clients with low white blood cell counts, not platelet counts. Limiting visitors to healthy adults (choice C) is important for infection control, not specifically for thrombocytopenia. In summary, placing the client on safety precautions is the best action to prevent bleeding complications.
Which of the following requires IL-2 and IL-4 in the conversion of unilineage progenitor cell into mature circulating cell?
- A. Neutrophil
- B. Eosinophil
- C. Basophil
- D. B lymphocyte
Correct Answer: D
Rationale: The correct answer is D: B lymphocyte. IL-2 and IL-4 are crucial for the differentiation of B lymphocytes from unilineage progenitor cells. IL-2 supports proliferation and survival of B cells, while IL-4 promotes their differentiation into mature circulating cells. Neutrophils, eosinophils, and basophils develop independently of IL-2 and IL-4. Neutrophils mainly require granulocyte colony-stimulating factor (G-CSF), eosinophils require IL-5, and basophils are influenced by IL-3 and IL-5. Therefore, the correct answer is D as B lymphocytes specifically rely on IL-2 and IL-4 for their maturation.
An 8-year-old boy undergoes a resection of a tumor in the right cerebrum next to the lateral ventricle (supratentorial). The pathologist feels the histology is most consistent with an ependymoma. The tumor is sent for advanced molecular and genetic testing. Which of the following findings would further support a diagnosis of ependymoma?
- A. BRAFKIAA1549 fusion
- B. BRAFV600E mutation
- C. RELA fusion
- D. H3K27M mutation
Correct Answer: C
Rationale: The correct answer is C: RELA fusion. Ependymomas are known to have specific genetic alterations, including RELA fusions. The fusion of RELA gene is a hallmark genetic abnormality observed in certain subtypes of ependymomas, aiding in the diagnosis. Conversely, choices A, B, and D are associated with other types of brain tumors such as pilocytic astrocytoma (A), melanoma (B), and diffuse intrinsic pontine glioma (D), respectively. These genetic alterations are not characteristic of ependymomas, making them incorrect choices in this context.
An older client asks the nurse why 'people my age' have weaker immune systems than younger people. What responses by the nurse are best? (Select all that apply.)
- A. Bone marrow produces more blood cells as you age.'
- B. You may have decreased levels of circulating platelets.'
- C. You have lower levels of plasma proteins in the blood.'
- D. Lymphocytes become more reactive to antigens.'
Correct Answer: C
Rationale: Rationale:
- As we age, there is a decrease in the production of plasma proteins, which are essential for immune function.
- Lower levels of plasma proteins can lead to a weaker immune response.
- This decline in plasma proteins can make older individuals more susceptible to infections.
- Choices A, B, and D are incorrect as they do not directly address the impact of aging on immune system function.
Which of the following moves furthest to the anode on cellulose acetate electrophoresis of normal haemoglobin at pH 8.6?
- A. Haemoglobin A
- B. Haemoglobin D
- C. Haemoglobin A2
- D. Haemoglobin S
Correct Answer: A
Rationale: The correct answer is A: Haemoglobin A. In cellulose acetate electrophoresis at pH 8.6, haemoglobin A moves furthest towards the anode because it has the highest net negative charge among the normal haemoglobins. This is due to the high number of negatively charged amino acids in haemoglobin A compared to the other normal haemoglobins. Haemoglobin D, A2, and S have different amino acid sequences and charge distributions, resulting in them migrating at different rates. Haemoglobin D and A2 are minor components with lower net negative charge compared to A. Haemoglobin S, on the other hand, has a different charge distribution due to the substitution of glutamic acid with valine in the beta chain, causing it to migrate differently than haemoglobin A.