Difference between revisions of "Vasculature quiz"

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questionnumber="1"
 
questionnumber="1"
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choice2="Aorta, renal artery, interlobar artery, interlobular artery, afferent arteriole, glomerulus, interlobular artery."
 
choice2="Aorta, renal artery, interlobar artery, interlobular artery, afferent arteriole, glomerulus, interlobular artery."
 
correctchoice="3"
 
correctchoice="3"
feedback3="'''Correct!''' Each kidney is supplied by a renal artery, a branch of the abdominal aorta. The renal artery divides into several interlobar arteries. These give rise to arcuate arteries at the corticomedullary junction. These in turn give origin to numerous interlobular arteries that supply the lobules into which the cortex is divided. Each interlobular artery gives rise to many branches (afferent arterioles) that supply individual glomeruli. [[Macroscopic Renal Anatomy - Anatomy & Physiology|WikiVet Article: Renal blood supply]]"
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feedback3="'''Correct!''' Each kidney is supplied by a renal artery, a branch of the abdominal aorta. The renal artery divides into several interlobar arteries. These give rise to arcuate arteries at the corticomedullary junction. These in turn give origin to numerous interlobular arteries that supply the lobules into which the cortex is divided. Each interlobular artery gives rise to many branches (afferent arterioles) that supply individual glomeruli. [[Renal Anatomy - Anatomy & Physiology|WikiVet Article: Renal blood supply]]"
feedback4="'''Incorrect.''' Each kidney is supplied by a renal artery, a branch of the abdominal aorta. The renal artery divides into several interlobar arteries. These give rise to arcuate arteries at the corticomedullary junction. These in turn give origin to numerous interlobular arteries that supply the lobules into which the cortex is divided. Each interlobular artery gives rise to many branches (afferent arterioles) that supply individual glomeruli. The internal iliac artery gives rise to the internal pudendal artery. [[Macroscopic Renal Anatomy - Anatomy & Physiology|WikiVet Article: Renal blood supply]]"
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feedback4="'''Incorrect.''' Each kidney is supplied by a renal artery, a branch of the abdominal aorta. The renal artery divides into several interlobar arteries. These give rise to arcuate arteries at the corticomedullary junction. These in turn give origin to numerous interlobular arteries that supply the lobules into which the cortex is divided. Each interlobular artery gives rise to many branches (afferent arterioles) that supply individual glomeruli. The internal iliac artery gives rise to the internal pudendal artery. [[Renal Anatomy - Anatomy & Physiology|WikiVet Article: Renal blood supply]]"
feedback5="'''Incorrect.''' Each kidney is supplied by a renal artery, a branch of the abdominal aorta. The renal artery divides into several interlobar arteries. These give rise to arcuate arteries at the corticomedullary junction. These in turn give origin to numerous interlobular arteries that supply the lobules into which the cortex is divided. Each interlobular artery gives rise to many branches (afferent arterioles) that supply individual glomeruli. [[Macroscopic Renal Anatomy - Anatomy & Physiology|WikiVet Article: Renal blood supply]]"
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feedback5="'''Incorrect.''' Each kidney is supplied by a renal artery, a branch of the abdominal aorta. The renal artery divides into several interlobar arteries. These give rise to arcuate arteries at the corticomedullary junction. These in turn give origin to numerous interlobular arteries that supply the lobules into which the cortex is divided. Each interlobular artery gives rise to many branches (afferent arterioles) that supply individual glomeruli. [[Renal Anatomy - Anatomy & Physiology|WikiVet Article: Renal blood supply]]"
feedback1="'''Incorrect.''' Each kidney is supplied by a renal artery, a branch of the abdominal aorta. The renal artery divides into several interlobar arteries. These give rise to arcuate arteries at the corticomedullary junction. These in turn give origin to numerous interlobular arteries that supply the lobules into which the cortex is divided. Each interlobular artery gives rise to many branches (afferent arterioles) that supply individual glomeruli. [[Macroscopic Renal Anatomy - Anatomy & Physiology|WikiVet Article: Renal blood supply]]"
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feedback1="'''Incorrect.''' Each kidney is supplied by a renal artery, a branch of the abdominal aorta. The renal artery divides into several interlobar arteries. These give rise to arcuate arteries at the corticomedullary junction. These in turn give origin to numerous interlobular arteries that supply the lobules into which the cortex is divided. Each interlobular artery gives rise to many branches (afferent arterioles) that supply individual glomeruli. [[Renal Anatomy - Anatomy & Physiology|WikiVet Article: Renal blood supply]]"
feedback2="'''Incorrect.''' Each kidney is supplied by a renal artery, a branch of the abdominal aorta. The renal artery divides into several interlobar arteries. These give rise to arcuate arteries at the corticomedullary junction. These in turn give origin to numerous interlobular arteries that supply the lobules into which the cortex is divided. Each interlobular artery gives rise to many branches (afferent arterioles) that supply individual glomeruli. [[Macroscopic Renal Anatomy - Anatomy & Physiology|WikiVet Article: Renal blood supply]]"
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feedback2="'''Incorrect.''' Each kidney is supplied by a renal artery, a branch of the abdominal aorta. The renal artery divides into several interlobar arteries. These give rise to arcuate arteries at the corticomedullary junction. These in turn give origin to numerous interlobular arteries that supply the lobules into which the cortex is divided. Each interlobular artery gives rise to many branches (afferent arterioles) that supply individual glomeruli. [[Renal Anatomy - Anatomy & Physiology|WikiVet Article: Renal blood supply]]"
 
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choice3="Ventral perineal artery"
 
choice3="Ventral perineal artery"
 
correctchoice="2"
 
correctchoice="2"
feedback2="'''Correct!''' The bladder is supplied by cranial and caudal vesicular arteries. The cranial vesicular artery is a branch of the umbilical artery which branches directly off the internal iliac artery. The caudal vesicular artery is a branch of the vaginal/ prostatic artery, which is a branch of the internal pudendal artery, which is in turn a branch of the internal iliac artery. [[Urinary_Bladder_-_Anatomy_%26_Physiology#Blood_Supply|WikiVet Article: Bladder blood supply]]"
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feedback2="'''Correct!''' The bladder is supplied by cranial and caudal vesicular arteries. The cranial vesicular artery is a branch of the umbilical artery which branches directly off the internal iliac artery. The caudal vesicular artery is a branch of the vaginal/ prostatic artery, which is a branch of the internal pudendal artery, which is in turn a branch of the internal iliac artery. [[Urinary_Bladder_- Anatomy & Physiology#Blood_Supply|WikiVet Article: Bladder blood supply]]"
feedback5="'''Incorrect.''' The external iliac artery supplies the hindlimbs. The bladder is supplied by cranial and caudal vesicular arteries. The cranial vesicular artery is a branch of the umbilical artery which branches directly off the internal iliac artery. The caudal vesicular artery is a branch of the vaginal/ prostatic artery, which is a branch of the internal pudendal artery, which is in turn a branch of the internal iliac artery. [[Urinary_Bladder_-_Anatomy_%26_Physiology#Blood_Supply|WikiVet Article: Bladder blood supply]]"
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feedback5="'''Incorrect.''' The external iliac artery supplies the hindlimbs. The bladder is supplied by cranial and caudal vesicular arteries. The cranial vesicular artery is a branch of the umbilical artery which branches directly off the internal iliac artery. The caudal vesicular artery is a branch of the vaginal/ prostatic artery, which is a branch of the internal pudendal artery, which is in turn a branch of the internal iliac artery. [[Urinary_Bladder_- Anatomy & Physiology#Blood_Supply|WikiVet Article: Bladder blood supply]]"
feedback1="'''Incorrect.''' The caudal ureteric artery supplies the caudal ureter. The bladder is supplied by cranial and caudal vesicular arteries. The cranial vesicular artery is a branch of the umbilical artery which branches directly off the internal iliac artery. The caudal vesicular artery is a branch of the vaginal/ prostatic artery, which is a branch of the internal pudendal artery, which is in turn a branch of the internal iliac artery. [[Urinary_Bladder_-_Anatomy_%26_Physiology#Blood_Supply|WikiVet Article: Bladder blood supply]]"
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feedback1="'''Incorrect.''' The caudal ureteric artery supplies the caudal ureter. The bladder is supplied by cranial and caudal vesicular arteries. The cranial vesicular artery is a branch of the umbilical artery which branches directly off the internal iliac artery. The caudal vesicular artery is a branch of the vaginal/ prostatic artery, which is a branch of the internal pudendal artery, which is in turn a branch of the internal iliac artery. [[Urinary_Bladder_- Anatomy & Physiology#Blood_Supply|WikiVet Article: Bladder blood supply]]"
feedback4="'''Incorrect.''' The caudal epigastric artery passes through the inguinal canal to supply structures in the groin. The bladder is supplied by cranial and caudal vesicular arteries. The cranial vesicular artery is a branch of the umbilical artery which branches directly off the internal iliac artery. The caudal vesicular artery is a branch of the vaginal/ prostatic artery, which is a branch of the internal pudendal artery, which is in turn a branch of the internal iliac artery. [[Urinary_Bladder_-_Anatomy_%26_Physiology#Blood_Supply|WikiVet Article: Bladder blood supply]]"
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feedback4="'''Incorrect.''' The caudal epigastric artery passes through the inguinal canal to supply structures in the groin. The bladder is supplied by cranial and caudal vesicular arteries. The cranial vesicular artery is a branch of the umbilical artery which branches directly off the internal iliac artery. The caudal vesicular artery is a branch of the vaginal/ prostatic artery, which is a branch of the internal pudendal artery, which is in turn a branch of the internal iliac artery. [[Urinary_Bladder_- Anatomy & Physiology#Blood_Supply|WikiVet Article: Bladder blood supply]]"
feedback3="'''Incorrect.''' The ventral perineal artery supplies a caudal rectal artery to the last part of the rectum and branches to the scrotum (or labia of the vulva). The bladder is supplied by cranial and caudal vesicular arteries. The cranial vesicular artery is a branch of the umbilical artery which branches directly off the internal iliac artery. The caudal vesicular artery is a branch of the vaginal/ prostatic artery, which is a branch of the internal pudendal artery, which is in turn a branch of the internal iliac artery.[[Urinary_Bladder_-_Anatomy_%26_Physiology#Blood_Supply|WikiVet Article: Bladder blood supply]]"
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feedback3="'''Incorrect.''' The ventral perineal artery supplies a caudal rectal artery to the last part of the rectum and branches to the scrotum (or labia of the vulva). The bladder is supplied by cranial and caudal vesicular arteries. The cranial vesicular artery is a branch of the umbilical artery which branches directly off the internal iliac artery. The caudal vesicular artery is a branch of the vaginal/ prostatic artery, which is a branch of the internal pudendal artery, which is in turn a branch of the internal iliac artery.[[Urinary_Bladder_- Anatomy & Physiology#Blood_Supply|WikiVet Article: Bladder blood supply]]"
 
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[[Category:Cardiovascular System Anatomy & Physiology Quizzes]]

Latest revision as of 11:06, 26 June 2011

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WIKIQUIZ

Questions reviewed by: Tony Sarma BVM&S CertSAS MRCVS
David Kilroy MVB CVMA MRCVS


1

In which domestic species is the main blood supply to the brain provided by the internal carotid arteries?

Please select an option Incorrect. The main blood supply to the brain is provided by branches of the maxillary artery in cows and sheep. In the dog and horse, the main blood supply to the brain is provided by the internal carotid arteries. WikiVet Article: CNS vasculature Incorrect. The main blood supply to the brain is provided by branches of the maxillary artery in cats. In the dog and horse, the main blood supply to the brain is provided by the internal carotid arteries. WikiVet Article: CNS vasculature Incorrect. The main blood supply to the brain is provided by branches of the maxillary artery in pigs and sheep. In the dog and horse, the main blood supply to the brain is provided by the internal carotid arteries. WikiVet Article: CNS vasculature Incorrect. The main blood supply to the brain is provided by branches of the maxillary artery in pigs. In the dog and horse, the main blood supply to the brain is provided by the internal carotid arteries. WikiVet Article: CNS vasculature Correct! In other domestic species the main blood supply comes from branches of the maxillary artery. WikiVet Article: CNS vasculature

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2

Which part of the intestine has a blood supply on both its mesenteric and antimesenteric borders?

Please select an option Correct! The majority of the intestines are supplied by blood vessels on their mesenteric border. The ileum is an exception. It receives its blood supply from the antimesenteric border as well from the ileal branch of the ileocaecocolic artery on the mesenteric border. The position of the blood supply (and nerve supply) affects the choice of sites of entry into the intestine during surgery. Most of the intestines receive a unilateral suply so can be opened safely on their antimesenteric border, whereas the ileum with its bilateral supply has to be entered by lateral incision. The antimesenteric vasculature makes the ileum an easily identifiable landmark in surgery. WikiVet Article: Ileum Incorrect. The majority of the intestines are supplied by blood vessels on their mesenteric border. The ileum is an exception. It receives its blood supply from the antimesenteric border as well from the ileal branch of the ileocaecocolic artery on the mesenteric border. The position of the blood supply (and nerve supply) affects the choice of sites of entry into the intestine during surgery. Most of the intestines receive a unilateral suply so can be opened safely on their antimesenteric border, whereas the ileum with its bilateral supply has to be entered by lateral incision. The antimesenteric vasculature makes the ileum an easily identifiable landmark in surgery. WikiVet Article: Ileum Incorrect. The majority of the intestines are supplied by blood vessels on their mesenteric border. The ileum is an exception. It receives its blood supply from the antimesenteric border as well from the ileal branch of the ileocaecocolic artery on the mesenteric border. The position of the blood supply (and nerve supply) affects the choice of sites of entry into the intestine during surgery. Most of the intestines receive a unilateral suply so can be opened safely on their antimesenteric border, whereas the ileum with its bilateral supply has to be entered by lateral incision. The antimesenteric vasculature makes the ileum an easily identifiable landmark in surgery. WikiVet Article: Ileum Incorrect. The majority of the intestines are supplied by blood vessels on their mesenteric border. The ileum is an exception. It receives its blood supply from the antimesenteric border as well from the ileal branch of the ileocaecocolic artery on the mesenteric border. The position of the blood supply (and nerve supply) affects the choice of sites of entry into the intestine during surgery. Most of the intestines receive a unilateral suply so can be opened safely on their antimesenteric border, whereas the ileum with its bilateral supply has to be entered by lateral incision. The antimesenteric vasculature makes the ileum an easily identifiable landmark in surgery. WikiVet Article: Ileum Incorrect. The majority of the intestines are supplied by blood vessels on their mesenteric border. The ileum is an exception. It receives its blood supply from the antimesenteric border as well from the ileal branch of the ileocaecocolic artery on the mesenteric border. The position of the blood supply (and nerve supply) affects the choice of sites of entry into the intestine during surgery. Most of the intestines receive a unilateral suply so can be opened safely on their antimesenteric border, whereas the ileum with its bilateral supply has to be entered by lateral incision. The antimesenteric vasculature makes the ileum an easily identifiable landmark in surgery. WikiVet Article: Ileum

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3

In the sheep, which channel supplies the circle of Willis?

Please select an option Incorrect. The external carotid artery does not supply blood to the brain. The circle of Willis, or cerebral arterial circle, is supplied by the anastomosing ramus from the maxillary artery to the internal carotid artery in the sheep. The basilar artery carries blood away from the circle. WikiVet Article: CNS vasculature. Incorrect. The internal cartoid artery together with the basilar artery supply the circle of Willis, or cerebral arterial circle, in dog, man and many other species (but not the sheep, cat or cow). The circle of Willis is supplied by the anastomosing ramus from the maxillary artery to the internal carotid artery in the sheep. The basilar artery carries blood away from the circle. WikiVet Article: CNS vasculature Incorrect. The circle of Willis, or cerebral arterial circle, is supplied by the anastomosing ramus from the maxillary artery to the internal carotid artery in the sheep. The basilar artery carries blood away from the circle. WikiVet Article: CNS vasculature Correct! The circle of Willis, or cerebral arterial circle, is supplied by the anastomosing ramus from the maxillary artery to the internal carotid artery in the sheep. The basilar artery carries blood away from the circle. WikiVet Article: CNS vasculature Incorrect. The connection of the vertebral artery to the internal carotid artery together with the anastomosing ramus from the maxillary artery to the internal carotid artery supplies the circle of Willis, or cerebral arterial circle, in the cow. The circle of Willis is supplied by the anastomosing ramus from the maxillary artery to the internal carotid artery in the sheep. The basilar artery carries blood away from the circle. WikiVet Article: CNS vasculature

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4

What is the sequence of blood vessels supplying the kidney?

Please select an option Incorrect. Each kidney is supplied by a renal artery, a branch of the abdominal aorta. The renal artery divides into several interlobar arteries. These give rise to arcuate arteries at the corticomedullary junction. These in turn give origin to numerous interlobular arteries that supply the lobules into which the cortex is divided. Each interlobular artery gives rise to many branches (afferent arterioles) that supply individual glomeruli. WikiVet Article: Renal blood supply Incorrect. Each kidney is supplied by a renal artery, a branch of the abdominal aorta. The renal artery divides into several interlobar arteries. These give rise to arcuate arteries at the corticomedullary junction. These in turn give origin to numerous interlobular arteries that supply the lobules into which the cortex is divided. Each interlobular artery gives rise to many branches (afferent arterioles) that supply individual glomeruli. WikiVet Article: Renal blood supply Correct! Each kidney is supplied by a renal artery, a branch of the abdominal aorta. The renal artery divides into several interlobar arteries. These give rise to arcuate arteries at the corticomedullary junction. These in turn give origin to numerous interlobular arteries that supply the lobules into which the cortex is divided. Each interlobular artery gives rise to many branches (afferent arterioles) that supply individual glomeruli. WikiVet Article: Renal blood supply Incorrect. Each kidney is supplied by a renal artery, a branch of the abdominal aorta. The renal artery divides into several interlobar arteries. These give rise to arcuate arteries at the corticomedullary junction. These in turn give origin to numerous interlobular arteries that supply the lobules into which the cortex is divided. Each interlobular artery gives rise to many branches (afferent arterioles) that supply individual glomeruli. The internal iliac artery gives rise to the internal pudendal artery. WikiVet Article: Renal blood supply Incorrect. Each kidney is supplied by a renal artery, a branch of the abdominal aorta. The renal artery divides into several interlobar arteries. These give rise to arcuate arteries at the corticomedullary junction. These in turn give origin to numerous interlobular arteries that supply the lobules into which the cortex is divided. Each interlobular artery gives rise to many branches (afferent arterioles) that supply individual glomeruli. WikiVet Article: Renal blood supply

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5

The splenic artery is a branch of which abdominal artery?

Please select an option Incorrect. The splenic artery is a branch of the coeliac artery, which in turn is a branch of the dorsal aorta. WikiVet Article: Splenic vasculature Incorrect. The splenic artery is a branch of the coeliac artery, which in turn is a branch of the dorsal aorta. WikiVet Article: Splenic vasculature Incorrect. The splenic artery is a branch of the coeliac artery, which in turn is a branch of the dorsal aorta. WikiVet Article: Splenic vasculature Incorrect. The splenic artery is a branch of the coeliac artery, which in turn is a branch of the dorsal aorta. WikiVet Article: Splenic vasculature Correct! The splenic artery is a branch of the coeliac artery, which in turn is a branch of the dorsal aorta. WikiVet Article: Splenic vasculature

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6

The blood supply to the bladder is via which artery/arteries?

Please select an option Incorrect. The caudal ureteric artery supplies the caudal ureter. The bladder is supplied by cranial and caudal vesicular arteries. The cranial vesicular artery is a branch of the umbilical artery which branches directly off the internal iliac artery. The caudal vesicular artery is a branch of the vaginal/ prostatic artery, which is a branch of the internal pudendal artery, which is in turn a branch of the internal iliac artery. WikiVet Article: Bladder blood supply Correct! The bladder is supplied by cranial and caudal vesicular arteries. The cranial vesicular artery is a branch of the umbilical artery which branches directly off the internal iliac artery. The caudal vesicular artery is a branch of the vaginal/ prostatic artery, which is a branch of the internal pudendal artery, which is in turn a branch of the internal iliac artery. WikiVet Article: Bladder blood supply Incorrect. The ventral perineal artery supplies a caudal rectal artery to the last part of the rectum and branches to the scrotum (or labia of the vulva). The bladder is supplied by cranial and caudal vesicular arteries. The cranial vesicular artery is a branch of the umbilical artery which branches directly off the internal iliac artery. The caudal vesicular artery is a branch of the vaginal/ prostatic artery, which is a branch of the internal pudendal artery, which is in turn a branch of the internal iliac artery.WikiVet Article: Bladder blood supply Incorrect. The caudal epigastric artery passes through the inguinal canal to supply structures in the groin. The bladder is supplied by cranial and caudal vesicular arteries. The cranial vesicular artery is a branch of the umbilical artery which branches directly off the internal iliac artery. The caudal vesicular artery is a branch of the vaginal/ prostatic artery, which is a branch of the internal pudendal artery, which is in turn a branch of the internal iliac artery. WikiVet Article: Bladder blood supply Incorrect. The external iliac artery supplies the hindlimbs. The bladder is supplied by cranial and caudal vesicular arteries. The cranial vesicular artery is a branch of the umbilical artery which branches directly off the internal iliac artery. The caudal vesicular artery is a branch of the vaginal/ prostatic artery, which is a branch of the internal pudendal artery, which is in turn a branch of the internal iliac artery. WikiVet Article: Bladder blood supply

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