WBR0516: Difference between revisions

Latest revision as of 00:50, 28 October 2020

Author	[[PageAuthor::Serge Korjian M.D., Gonzalo A. Romero, M.D. (Reviewed by Serge Korjian)]]
Exam Type	ExamType::USMLE Step 1
Main Category	MainCategory::Physiology
Sub Category	SubCategory::Renal, SubCategory::Vascular
Prompt	[[Prompt::A 45-year-old man presents to his primary care physician for 2 weeks of recurrent occipital headaches. He reports several episodes of throbbing pain associated with mild blurring of his vision. He explains that his wife has recorded his blood pressure on several occasions an noticed that his systolic pressure always ranges between 160-190 mmHg. Physical exam is unremarkable except for a blood pressure of 168/92 mmHg. Concerned, the physician decides to start the patient on enalapril for blood pressure control. What is the most likely effect of this drug on the patient's renal dynamics?]]
Answer A	AnswerA::Increase in filtration fraction, increase in glomerular filtration rate and decrease in renal plasma flow
Answer A Explanation	AnswerAExp::These changes correspond to the effects of AT-II.
Answer B	AnswerB::Decrease filtration fraction, decrease glomerular filtration rate and increase renal plasma flow
Answer B Explanation	AnswerBExp::These changes correspond to the effects of an ACE inhibitor.
Answer C	AnswerC::No change in filtration fraction, decrease in glomerular filtration rate and decrease in renal plasma flow
Answer C Explanation	AnswerCExp::These changes correspond to the effects of afferent arteriolar constriction. This effect may be seen with NSAID intake.
Answer D	AnswerD::Increase in filtration fraction, Increase in glomerular filtration rate and no change in renal plasma flow
Answer D Explanation	AnswerDExp::These changes may be seen with a decrease in plasma proteins leading to a relative increase in GFR and FF without actual changes in RPF.
Answer E	AnswerE::Decrease in filtration fraction, decrease in glomerular filtration rate and no change renal plasma flow
Answer E Explanation	AnswerEExp::These changes may be seen with an increase in plasma proteins leading to a relative decrease in GFR and FF without actual changes in RPF.
Right Answer	RightAnswer::B
Explanation	[[Explanation:: Enalapril is an angiotensin converting enzyme inhibitor (ACEI) used in the treatment of hypertension. ACEIs act by inhibiting the formation of angiotensin II (AT-II) from its precursor angiotensin I (AT-I) leading to the inhibition of the renin-angiotensin-aldosterone cascade. Physiologically, states of low volume/pressure that are sensed by the juxtaglomerular apparatus lead to the release of renin. Renin converts the liver-produced angiotensinogen into AT-I. The latter is then converted into AT-II by the action of ACE primarily in the lungs. AT-II functions to restore blood pressure by acting as a systemic vasoconstrictor. This causes a decrease in renal plasma flow (RPF). However, AT-II also preferentially constricts the glomerular efferent arteriole, which causes an increase in the hydrostatic pressure within the glomerulus increasing the glomerular filtration rate (GFR). Given that the filtration fraction (FF) is the ratio of GFR to RPF, the increase in GFR and drop in RPF causes an increase in FF. ACE inhibitors such as enalapril, decrease AT-II causing a reversal of its effects. With loss of vasoconstriction, the RPF increases. Similarly with loss preferential efferent arteriole constriction the GFR decreases. Both these effects causes a decrease in FF. These effects are responsible for the mild increase in creatinine observed in patients upon the initiation of these agents. Educational Objective: ACE inhibitors such as enalapril, decrease AT-II causing an increase in RPF, a decrease in GFR, and a subsequent decrease in FF. References: Eaton D, Pooler J. Vanders Renal Physiology, Eighth Edition. Chapter 2. Renal Blood Flow and Glomerular Filtration. McGraw-Hill; 2013. First Aid 2014 page 526.]]
Approved	Approved::Yes
Keyword	WBRKeyword::Filtration fraction, WBRKeyword::GFR, WBRKeyword::ACE inhibitor, WBRKeyword::Enalapril, WBRKeyword::Renal, WBRKeyword::RAAS, WBRKeyword::Renin, WBRKeyword::Angiotensin, WBRKeyword::Angiotensin-converting enzyme, WBRKeyword::Glomerular filtration rate
Linked Question	Linked::
Order in Linked Questions	LinkedOrder::

@@ Line 1: / Line 1: @@
-{{WBRQuestion
+ {{WBRQuestion
-|QuestionAuthor=[[User:Gonzalo Romero|Gonzalo A. Romero, M.D.]] [mailto:gromero@wikidoc.org]
+|QuestionAuthor= {{SSK}}, [[User:Gonzalo Romero|Gonzalo A. Romero, M.D.]] (Reviewed by Serge Korjian)
 |ExamType=USMLE Step 1
 |MainCategory=Physiology
@@ Line 8: / Line 8: @@
 |MainCategory=Physiology
 |SubCategory=Renal, Vascular
+|MainCategory=Physiology
 |MainCategory=Physiology
 |MainCategory=Physiology
@@ Line 20: / Line 21: @@
 |MainCategory=Physiology
 |SubCategory=Renal, Vascular
-|Prompt=A 32-year-old woman delivers a 38-week-old boy after a non-controlled pregnancy. She is known hypertensive, she was taking enalapril to control her blood pressure. She assisted to her first trimester control, when the physician told her that it was necessary to stop her medication because it was associated with many fetal problems. Regardless of the medical advice she continued taking enalapril.  Upon delivery and physical examination, the newborn is suspected to have malformations and renal damage after the chronic in-utero exposure to this drug.  Which of the following changes in an adult kidney physiology occurs with the use of enalapril?
+|Prompt=A 45-year-old man presents to his primary care physician for 2 weeks of recurrent occipital headaches. He reports several episodes of throbbing pain associated with mild blurring of his vision. He explains that his wife has recorded his blood pressure on several occasions an noticed that his systolic pressure always ranges between 160-190 mmHg. Physical exam is unremarkable except for a blood pressure of 168/92 mmHg. Concerned, the physician decides to start the patient on enalapril for blood pressure control. What is the most likely effect of this drug on the patient's renal dynamics?
-|Explanation=* [[Enalapril]] is an [[ACE]] (angiotensin converting enzyme) inhibitor medication used to treat [[hypertension]].  ACE inhibitors and aldosterone receptor blockers are associated with many fetal malformations if used during pregnancy (teratogenic), especially renal damage.
+|Explanation=[[File:RAAS Phys.png|500px]]<br>
-* '''ACE inhibitors are associated with the following teratogenic effects:'''  Hypotension, renal dysplasia, anuria/oliguria, oligohydramios, intrauterine growth retardation, pulmonary hypoplasia, unclosed ductus arteriosus, incomplete ossification of the skull, intrauterine og neonatal death
+[[Enalapril]] is an angiotensin converting enzyme inhibitor (ACEI) used in the treatment of [[hypertension]]. ACEIs act by inhibiting the formation of angiotensin II (AT-II) from its precursor angiotensin I (AT-I) leading to the inhibition of the renin-angiotensin-aldosterone cascade. Physiologically, states of low volume/pressure that are sensed by the juxtaglomerular apparatus lead to the release of renin. [[Renin]] converts the liver-produced angiotensinogen into AT-I. The latter is then converted into AT-II by the action of ACE primarily in the lungs. AT-II functions to restore blood pressure by acting as a systemic vasoconstrictor. This causes a decrease in renal plasma flow (RPF). However, AT-II also preferentially constricts the glomerular efferent arteriole, which causes an increase in the hydrostatic pressure within the [[glomerulus]] increasing the glomerular filtration rate (GFR).  Given that the filtration fraction (FF) is the ratio of GFR to RPF, the increase in GFR and drop in RPF causes an increase in FF.
-* '''Physiology:''' Normally [[angiotensin]] II (AT-II) constricts the glomerular efferent arteriole, which causes an increase in the hydrostatic pressure within the glomerulus, which increases the glomerular filtration rate (GFR).  AT-II  by constricting the efferent arteriole, decreases the renal plasma flow (RPF).  By decreasing RPF and increasing GFR, AT-II increases the filtration fraction (FF), which is GFR/RPF.
+[[ACE inhibitor]]s such as enalapril, decrease AT-II causing a reversal of its effects. With loss of [[vasoconstriction]], the RPF increases. Similarly with loss preferential efferent arteriole constriction the GFR decreases. Both these effects causes a decrease in FF. These effects are responsible for the mild increase in [[creatinine]] observed in patients upon the initiation of these agents.<br>
-* ACE inhibitors such as enalapril, decrease AT-II which cause the inverse effect, therefore by inhibiting the production of angiotensin II (AT-II), it decreases the FF by dilating the efferent arteriole.  With enalapril the hydrostatic pressure within the glomerulus decreases, which decreases GFR.  By decreasing the resistance in the efferent arteriole, the renal plasma flow increases, which ultimately leads to decrease in filtration fraction.  ACE inhibitors are contraindicated in patients with renal artery stenosis, because the blood flow decreases even more and the filtration fraction decreases, therefore the patient is prone to develop renal insufficiency.
+[[File:WBR0516.jpg|500px]]
-[[File:RAAS Phys.png|center|600px]]
+|AnswerA=Increase in filtration fraction, increase in glomerular filtration rate and decrease in renal plasma flow
-<font color="MediumBlue"><font size="4">'''Educational Objective:''' </font></font>
+|AnswerAExp=These changes correspond to the effects of AT-II.
-# AT-II constricts the efferent arteriole, increasing GFR, decreasing RPF, and increasing the FF
+|AnswerB=Decrease filtration fraction, decrease glomerular filtration rate and increase renal plasma flow
-# ACE inhibitors do the opposite by decreasing AT-II levels
+|AnswerBExp=These changes correspond to the effects of an ACE inhibitor.
-# ACE inhibitors are teratogenic, causing fetal renal damage
+|AnswerC=No change in filtration fraction, decrease in glomerular filtration rate and decrease in renal plasma flow
-<br>
+|AnswerCExp=These changes correspond to the effects of afferent arteriolar constriction. This effect may be seen with NSAID intake.
-'''References:''' First Aid for STEP 1 2013, Renal-Physiology Chapter, page 516.
+|AnswerD=Increase in filtration fraction, Increase in glomerular filtration rate and no change in renal plasma flow
-|AnswerA=Increase in FF, increase in GFR and decrease in RPF
+|AnswerDExp=These changes may be seen with a decrease in plasma proteins leading to a relative increase in GFR and FF without actual changes in RPF.
-|AnswerAExp=<font color="red">'''Incorrect.'''</font> Corresponds to the AT-II functions
+|AnswerE=Decrease in filtration fraction, decrease in glomerular filtration rate and no change renal plasma flow
+|AnswerEExp=These changes may be seen with an increase in plasma proteins leading to a relative decrease in GFR and FF without actual changes in RPF.
+|EducationalObjectives=[[ACE inhibitor]]s such as enalapril, decrease AT-II causing an increase in RPF, a decrease in GFR, and a subsequent decrease in FF.
-|AnswerB=Decrease FF, decrease GFR and increase RPF
+|References=Eaton D, Pooler J. Vanders Renal Physiology, Eighth Edition. Chapter 2. Renal Blood Flow and Glomerular Filtration. McGraw-Hill; 2013.
-|AnswerBExp=<font color="Green">'''Correct.'''</font> ACE inhibitor effect
+First Aid 2014 page 526.
-|AnswerC=No change in FF, decrease in GFR and decrease in RPF
-|AnswerCExp=<font color="red">'''Incorrect.'''</font> Constriction of afferent arteriole
-|AnswerD=Increase in FF, Increase in GFR and no change in RPF
-|AnswerDExp=<font color="red">'''Incorrect.'''</font> Corresponds to hypoalbuminemia
-|AnswerE=Decrease in FF, decrease in GFR and no change RPF
-|AnswerEExp=<font color="red">'''Incorrect.'''</font> Corresponds to hyperalbuminemia
 |RightAnswer=B
-|WBRKeyword=Filtration fraction, GFR, ACE inhibitor, enalapril
+|WBRKeyword=Filtration fraction, GFR, ACE inhibitor, Enalapril, Renal, RAAS, Renin, Angiotensin, Angiotensin-converting enzyme, Glomerular filtration rate,
 |Approved=Yes
 }}

WBR0516: Difference between revisions

Latest revision as of 00:50, 28 October 2020

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