WBR0486: Difference between revisions

Revision as of 15:03, 29 July 2014

Author	[[PageAuthor::Rim Halaby, M.D. [1], Alison Leibowitz [2] (Reviewed by Alison Leibowitz)]]
Exam Type	ExamType::USMLE Step 1
Main Category	MainCategory::Pathophysiology, MainCategory::Pharmacology
Sub Category	SubCategory::Hematology
Prompt	[[Prompt::A 1-year-old male is brought to the pediatrics outpatient clinic for a four week duration of pallor and excessive sleepiness. His mother reports normal development and feeding habits and physical exam is significant for hepatomegaly and marked pallor. Blood tests demonstrate a hemoglobin level of 7.2 g/dL with microcytosis and anisocytosis. Futher testing reveals a mutation in the ALAS2 gene. Which of the following treatments is most appropriate for this patient?]]
Answer A	AnswerA::Chronic transfusions
Answer A Explanation	[[AnswerAExp::Chronic transfusions are frequently used to treat patients with thalassemia major or other bone marrow failure syndromes.]]
Answer B	AnswerB::Deferioxamine
Answer B Explanation	[[AnswerBExp::Deferioxamine is frequently used in the treatment of iron overload following chronic transfusions. Although sideroblastic anemia is associated with iron overload, iron chelation is not the first line of therapy.]]
Answer C	AnswerC::Pyridoxine
Answer C Explanation	AnswerCExp::See explanation.
Answer D	AnswerD::Folic Acid and Vitamin B12
Answer D Explanation	[[AnswerDExp::Folic Acid and Vitamin B12 are frequently administered to treat megaloblastic anemia.]]
Answer E	AnswerE::Iron replacement
Answer E Explanation	[[AnswerEExp::Iron replacement is frequently used to treat patients with iron deficiency anemia.]]
Right Answer	RightAnswer::C
Explanation	[[Explanation::Sideroblastic anemia is an inherited disease in which the bone marrow produces ringed sideroblasts, due to defective hemoglobin synthesis and iron accumulation. Most frequently, sideroblastic anemia is an X-linked disease. The disease manifests due to a deficiency in ALA synthase, the rate limiting step in heme synthesis, secondary to a mutation in the ALAS2 gene. This decrease in heme synthesis leads to an accumulation of non-heme iron around red blood cells, resulting in a characteristic ringed sideroblasts appearance. Sideroblastic anemia is usually treated with pyridoxine (vitamin B6), which is a cofactor in the reaction catalyzed by ALA synthase. Educational Objective: Sideroblastic anemia is frequently treated with pyridoxine (vitamin B6), a cofactor in the reaction catalyzed by ALA synthase. References: Harris JW. X-linked, pyridoxine-responsive sideroblastic anemia. N Engl J Med. Mar 10 1994;330(10):709-11.]]
Approved	Approved::Yes
Keyword	WBRKeyword::Sideroblastic anemia, WBRKeyword::Pyridoxine, WBRKeyword::Vitamin B6, WBRKeyword::anemia, WBRKeyword::genetics, WBRKeyword::X-linked, WBRKeyword::pattern of inheritance, WBRKeyword::inheritance, WBRKeyword::genome, WBRKeyword::hemoglobin synthesis, WBRKeyword::pallor
Linked Question	Linked::
Order in Linked Questions	LinkedOrder::

@@ Line 1: / Line 1: @@
 {{WBRQuestion
-|QuestionAuthor={{Rim}}
+|QuestionAuthor={{Rim}}, {{AJL}} {{Alison}}
 |ExamType=USMLE Step 1
 |MainCategory=Pathophysiology, Pharmacology
@@ Line 20: / Line 20: @@
 |MainCategory=Pathophysiology, Pharmacology
 |SubCategory=Hematology
-|Prompt=A 1 year old boy is brought to the pediatrics outpatient clinic for 4 weeks of pallor and excessive sleepiness. His mother reports normal development and feeding habits. Physical exam is significant for hepatomegaly and marked pallor. Blood tests show a hemoglobin of 7.2 g/dL with microcytosis and anisocytosis. Futher testing reveals a mutation in the ALAS2 gene. What is the most appropriate treatment for this patient?
+|Prompt=A 1-year-old male is brought to the pediatrics outpatient clinic for a four week duration of pallor and excessive sleepiness. His mother reports normal development and feeding habits and physical exam is significant for hepatomegaly and marked pallor. Blood tests demonstrate a hemoglobin level of 7.2 g/dL with microcytosis and anisocytosis. Futher testing reveals a mutation in the ALAS2 gene. Which of the following treatments is most appropriate for this patient?
-|Explanation=Sideroblastic anemia is an inherited disease in which the bone marrow produces ringed sideroblasts due to defective hemoglobin synthesis and iron accumulation. Classically, sideroblastic anemia is an X-linked disease although other patterns of inheritance can be encountered. The disease is due to a deficiency in ALA synthase, the rate limiting step in heme synthesis, secondary to a mutation in the ALAS2 gene. This leads to a decrease in heme synthesis and accumulation of non-heme iron around red blood cells giving them the characteristic ringed sideroblasts appearance. Treatment is usually with pyridoxine (vitamin B6) which is a cofactor in the reaction catalyzed by ALA synthase. It is effective in improving the anemia in around 75% of patients.
+|Explanation=[[Sideroblastic anemia]] is an inherited disease in which the bone marrow produces ringed sideroblasts, due to defective hemoglobin synthesis and iron accumulation. Most frequently, [[sideroblastic anemia]] is an X-linked disease. The disease manifests due to a deficiency in ALA synthase, the rate limiting step in heme synthesis, secondary to a mutation in the ALAS2 gene. This decrease in heme synthesis leads to an accumulation of non-heme iron around red blood cells, resulting in a characteristic ringed sideroblasts appearance. [[Sideroblastic anemia]] is usually treated with [[pyridoxine]] (vitamin B6), which is a cofactor in the reaction catalyzed by ALA synthase.
+|EducationalObjectives= [[Sideroblastic anemia]] is frequently treated with pyridoxine (vitamin B6), a cofactor in the reaction catalyzed by ALA synthase.
+|References= Harris JW. X-linked, pyridoxine-responsive sideroblastic anemia. N Engl J Med. Mar 10 1994;330(10):709-11.
-Educational objective: Sideroblastic anemia is treated with pyridoxine (vitamin B6) a cofactor in the reaction catalyzed by ALA synthase.
-Reference:<br>
-Harris JW. X-linked, pyridoxine-responsive sideroblastic anemia. N Engl J Med. Mar 10 1994;330(10):709-11.
 |AnswerA=Chronic transfusions
-|AnswerAExp=Chronic transfusions are used to treat patients with thalassemia major or other bone marrow failure syndromes.
+|AnswerAExp=Chronic transfusions are frequently used to treat patients with [[thalassemia major]] or other bone marrow failure syndromes.
 |AnswerB=Deferioxamine
-|AnswerBExp=Deferioxamine is used in the treatment of iron overload following chronic transfusions. Although sideroblastic anemia is associated with iron overload, iron chelation is not the first line of therapy.
+|AnswerBExp=[[Deferioxamine]] is frequently used in the treatment of iron overload following chronic transfusions. Although [[sideroblastic anemia]] is associated with iron overload, iron chelation is not the first line of therapy.
 |AnswerC=Pyridoxine
-|AnswerCExp=Pyridoxine or vitmain B6 is a cofactor in the rate limiting step of heme synthesis and it successfully improves the anemia in 75% of patients with congenital sideroblastic anemia.
+|AnswerCExp=See explanation.
 |AnswerD=Folic Acid and Vitamin B12
-|AnswerDExp=Folic Acid and Vitamin B12 are usually given to treat megaloblastic anemia.
+|AnswerDExp=Folic Acid and Vitamin B12 are frequently administered to treat [[megaloblastic anemia]].
 |AnswerE=Iron replacement
-|AnswerEExp=Iron replacement is used to treat patients with iron deficiency anemia.
+|AnswerEExp=Iron replacement is frequently used to treat patients with [[iron deficiency anemia]].
 |RightAnswer=C
-|WBRKeyword=Sideroblastic anemia, Pyridoxine, Vitamin B6,
+|WBRKeyword=Sideroblastic anemia, Pyridoxine, Vitamin B6, anemia, genetics, X-linked, pattern of inheritance, inheritance, genome, hemoglobin synthesis, pallor
-|Approved=No
+|Approved=Yes
 }}

WBR0486: Difference between revisions

Revision as of 15:03, 29 July 2014

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