Difference between revisions of "Abdominal anatomy quiz"
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m (Text replace - "[[Forestomach - Anatomy & Physiology|" to "[[Monogastric Stomach - Anatomy & Physiology|") |
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|linkpage =WikiQuiz | |linkpage =WikiQuiz | ||
|linktext = WikiQuiz | |linktext = WikiQuiz | ||
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|Review= '''Mr David Kilroy''' MVB CVMA MRCVS <br> '''Tony Sarma''' BVM&S CertSAS MRCVS | |Review= '''Mr David Kilroy''' MVB CVMA MRCVS <br> '''Tony Sarma''' BVM&S CertSAS MRCVS | ||
− | }} | + | }} |
+ | <br> | ||
<WikiQuiz | <WikiQuiz | ||
questionnumber="1" | questionnumber="1" | ||
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choice1="Gastric Inhibitory Peptide" | choice1="Gastric Inhibitory Peptide" | ||
correctchoice="5" | correctchoice="5" | ||
− | feedback5="'''Correct!''' Enterochromaffin-like cells secrete histamine which stimulates parietal cells to secrete hydrogen ions. [[ | + | feedback5="'''Correct!''' Enterochromaffin-like cells secrete histamine which stimulates parietal cells to secrete hydrogen ions. [[Monogastric Stomach - Anatomy & Physiology#Histology|WikiVet Article: Forestomach]]" |
− | feedback3="'''Incorrect.''' Hydrogen ions are secreted by parietal cells in the gastric mucosa to decrease the pH in the stomach lumen which causes denaturation of ingested proteins. Enterochromaffin-like cells secrete histamine. [[ | + | feedback3="'''Incorrect.''' Hydrogen ions are secreted by parietal cells in the gastric mucosa to decrease the pH in the stomach lumen which causes denaturation of ingested proteins. Enterochromaffin-like cells secrete histamine. [[Monogastric Stomach - Anatomy & Physiology#Histology|WikiVet Article: Forestomach]]" |
− | feedback2="'''Incorrect.''' Gastrin is secreted by G-cells in the pyloric mucosa which stimulates enterochromaffin-like cells to secrete histamine. [[ | + | feedback2="'''Incorrect.''' Gastrin is secreted by G-cells in the pyloric mucosa which stimulates enterochromaffin-like cells to secrete histamine. [[Monogastric Stomach - Anatomy & Physiology#Histology|WikiVet Article: Forestomach]]" |
− | feedback4="'''Incorrect.''' Pepsinogen is secreted by chief cells in the gastric glands which is converted to its active form pepsin by hydrochloric acid in the gastric lumen.Enterochromaffin-like cells secrete histamine. [[ | + | feedback4="'''Incorrect.''' Pepsinogen is secreted by chief cells in the gastric glands which is converted to its active form pepsin by hydrochloric acid in the gastric lumen.Enterochromaffin-like cells secrete histamine. [[Monogastric Stomach - Anatomy & Physiology#Histology|WikiVet Article: Forestomach]]" |
− | feedback1="'''Incorrect.''' Gastric Inhibitory Peptide is secreted by K cells in the mucosa of the jejunum and duodenum. It acts to inhibit gastric motility and hydrochloric acid secretion in the stomach and induce insulin secretion. Enterochromaffin-like cells secrete histamine. [[ | + | feedback1="'''Incorrect.''' Gastric Inhibitory Peptide is secreted by K cells in the mucosa of the jejunum and duodenum. It acts to inhibit gastric motility and hydrochloric acid secretion in the stomach and induce insulin secretion. Enterochromaffin-like cells secrete histamine. [[Monogastric Stomach - Anatomy & Physiology#Histology|WikiVet Article: Forestomach]]" |
image= ""> | image= ""> | ||
</WikiQuiz> | </WikiQuiz> | ||
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choice4="Duodenum" | choice4="Duodenum" | ||
correctchoice="3" | correctchoice="3" | ||
− | feedback3="'''Correct!''' The kidneys are located between the parietal peritoneum and the body wall, hence they are considered retroperitoneal. In practice, this means that the kidneys (and associated structures such as adrenal glands and ovaries) can be easily visualised at exploratory surgery by performing either a duodenal manoeuvre (for the right kidney) or colic manoeuvre (for the left kidney). The duodenal manoeuvre involves lifting the descending duodenum up, and moving it gently across the abdominal cavity to the left side of the body. This causes the mesoduodenum to catch the abdominal viscera and pull them to the left, allowing the right retroperitoneal space to be seen. The colic manoeuvre uses the descending colon and mesocolon similarly to see the left retroperitoneal space. [[Peritoneal | + | feedback3="'''Correct!''' The kidneys are located between the parietal peritoneum and the body wall, hence they are considered retroperitoneal. In practice, this means that the kidneys (and associated structures such as adrenal glands and ovaries) can be easily visualised at exploratory surgery by performing either a duodenal manoeuvre (for the right kidney) or colic manoeuvre (for the left kidney). The duodenal manoeuvre involves lifting the descending duodenum up, and moving it gently across the abdominal cavity to the left side of the body. This causes the mesoduodenum to catch the abdominal viscera and pull them to the left, allowing the right retroperitoneal space to be seen. The colic manoeuvre uses the descending colon and mesocolon similarly to see the left retroperitoneal space. [[Peritoneal Cavity - Anatomy & Physiology#Retroperitoneal Organs|WikiVet Article: Retroperitoneal organs]]" |
− | feedback2="'''Incorrect.''' The liver is enclosed by a fold of visceral peritoneum so is intraperitoneal. The kidneys are located between the parietal peritoneum and the body wall, hence they are considered retroperitoneal. In practice, this means that the kidneys (and associated structures such as adrenal glands and ovaries) can be easily visualised at exploratory surgery by performing either a duodenal manoeuvre (for the right kidney) or colic manoeuvre (for the left kidney). The duodenal manoeuvre involves lifting the descending duodenum up, and moving it gently across the abdominal cavity to the left side of the body. This causes the mesoduodenum to catch the abdominal viscera and pull them to the left, allowing the right retroperitoneal space to be seen. The colic manoeuvre uses the descending colon and mesocolon similarly to see the left retroperitoneal space. [[Peritoneal | + | feedback2="'''Incorrect.''' The liver is enclosed by a fold of visceral peritoneum so is intraperitoneal. The kidneys are located between the parietal peritoneum and the body wall, hence they are considered retroperitoneal. In practice, this means that the kidneys (and associated structures such as adrenal glands and ovaries) can be easily visualised at exploratory surgery by performing either a duodenal manoeuvre (for the right kidney) or colic manoeuvre (for the left kidney). The duodenal manoeuvre involves lifting the descending duodenum up, and moving it gently across the abdominal cavity to the left side of the body. This causes the mesoduodenum to catch the abdominal viscera and pull them to the left, allowing the right retroperitoneal space to be seen. The colic manoeuvre uses the descending colon and mesocolon similarly to see the left retroperitoneal space. [[Peritoneal Cavity - Anatomy & Physiology#Retroperitoneal Organs|WikiVet Article: Retroperitoneal organs]]" |
− | feedback1="'''Incorrect.''' The pancreas is enclosed by a fold of visceral peritoneum so is intraperitoneal. The kidneys are located between the parietal peritoneum and the body wall, hence they are considered retroperitoneal. In practice, this means that the kidneys (and associated structures such as adrenal glands and ovaries) can be easily visualised at exploratory surgery by performing either a duodenal manoeuvre (for the right kidney) or colic manoeuvre (for the left kidney). The duodenal manoeuvre involves lifting the descending duodenum up, and moving it gently across the abdominal cavity to the left side of the body. This causes the mesoduodenum to catch the abdominal viscera and pull them to the left, allowing the right retroperitoneal space to be seen. The colic manoeuvre uses the descending colon and mesocolon similarly to see the left retroperitoneal space. [[Peritoneal | + | feedback1="'''Incorrect.''' The pancreas is enclosed by a fold of visceral peritoneum so is intraperitoneal. The kidneys are located between the parietal peritoneum and the body wall, hence they are considered retroperitoneal. In practice, this means that the kidneys (and associated structures such as adrenal glands and ovaries) can be easily visualised at exploratory surgery by performing either a duodenal manoeuvre (for the right kidney) or colic manoeuvre (for the left kidney). The duodenal manoeuvre involves lifting the descending duodenum up, and moving it gently across the abdominal cavity to the left side of the body. This causes the mesoduodenum to catch the abdominal viscera and pull them to the left, allowing the right retroperitoneal space to be seen. The colic manoeuvre uses the descending colon and mesocolon similarly to see the left retroperitoneal space. [[Peritoneal Cavity - Anatomy & Physiology#Retroperitoneal Organs|WikiVet Article: Retroperitoneal organs]]" |
− | feedback5="'''Incorrect.''' The spleen is enclosed by a fold of visceral peritoneum so is intraperitoneal. The kidneys are located between the parietal peritoneum and the body wall, hence they are considered retroperitoneal. In practice, this means that the kidneys (and associated structures such as adrenal glands and ovaries) can be easily visualised at exploratory surgery by performing either a duodenal manoeuvre (for the right kidney) or colic manoeuvre (for the left kidney). The duodenal manoeuvre involves lifting the descending duodenum up, and moving it gently across the abdominal cavity to the left side of the body. This causes the mesoduodenum to catch the abdominal viscera and pull them to the left, allowing the right retroperitoneal space to be seen. The colic manoeuvre uses the descending colon and mesocolon similarly to see the left retroperitoneal space. [[Peritoneal | + | feedback5="'''Incorrect.''' The spleen is enclosed by a fold of visceral peritoneum so is intraperitoneal. The kidneys are located between the parietal peritoneum and the body wall, hence they are considered retroperitoneal. In practice, this means that the kidneys (and associated structures such as adrenal glands and ovaries) can be easily visualised at exploratory surgery by performing either a duodenal manoeuvre (for the right kidney) or colic manoeuvre (for the left kidney). The duodenal manoeuvre involves lifting the descending duodenum up, and moving it gently across the abdominal cavity to the left side of the body. This causes the mesoduodenum to catch the abdominal viscera and pull them to the left, allowing the right retroperitoneal space to be seen. The colic manoeuvre uses the descending colon and mesocolon similarly to see the left retroperitoneal space. [[Peritoneal Cavity - Anatomy & Physiology#Retroperitoneal Organs|WikiVet Article: Retroperitoneal organs]]" |
− | feedback4="'''Incorrect.''' The duodenum is enclosed by a fold of visceral peritoneum so is intraperitoneal. The kidneys are located between the parietal peritoneum and the body wall, hence they are considered retroperitoneal. In practice, this means that the kidneys (and associated structures such as adrenal glands and ovaries) can be easily visualised at exploratory surgery by performing either a duodenal manoeuvre (for the right kidney) or colic manoeuvre (for the left kidney). The duodenal manoeuvre involves lifting the descending duodenum up, and moving it gently across the abdominal cavity to the left side of the body. This causes the mesoduodenum to catch the abdominal viscera and pull them to the left, allowing the right retroperitoneal space to be seen. The colic manoeuvre uses the descending colon and mesocolon similarly to see the left retroperitoneal space. [[Peritoneal | + | feedback4="'''Incorrect.''' The duodenum is enclosed by a fold of visceral peritoneum so is intraperitoneal. The kidneys are located between the parietal peritoneum and the body wall, hence they are considered retroperitoneal. In practice, this means that the kidneys (and associated structures such as adrenal glands and ovaries) can be easily visualised at exploratory surgery by performing either a duodenal manoeuvre (for the right kidney) or colic manoeuvre (for the left kidney). The duodenal manoeuvre involves lifting the descending duodenum up, and moving it gently across the abdominal cavity to the left side of the body. This causes the mesoduodenum to catch the abdominal viscera and pull them to the left, allowing the right retroperitoneal space to be seen. The colic manoeuvre uses the descending colon and mesocolon similarly to see the left retroperitoneal space. [[Peritoneal Cavity - Anatomy & Physiology#Retroperitoneal Organs|WikiVet Article: Retroperitoneal organs]]" |
image= ""> | image= ""> | ||
</WikiQuiz> | </WikiQuiz> | ||
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choice2="The greater omentum and the stomach" | choice2="The greater omentum and the stomach" | ||
correctchoice="3" | correctchoice="3" | ||
− | feedback3="'''Correct!''' As the stomach develops there is a great expansion of the dorsal suspension of the stomach or the greater omentum. The greater omentum is a double layer of peritoneum which attaches to the greater curvature of the stomach and the dorsal body wall. The cavity between the layers is the omental bursa and the opening to it is the epiploic foramen. [[Peritoneal | + | feedback3="'''Correct!''' As the stomach develops there is a great expansion of the dorsal suspension of the stomach or the greater omentum. The greater omentum is a double layer of peritoneum which attaches to the greater curvature of the stomach and the dorsal body wall. The cavity between the layers is the omental bursa and the opening to it is the epiploic foramen. [[Peritoneal Cavity - Anatomy & Physiology|WikiVet Article: Peritoneal cavity]]" |
− | feedback1="'''Incorrect.''' As the stomach develops there is a great expansion of the dorsal suspension of the stomach or the greater omentum. The greater omentum is a double layer of peritoneum which attaches to the greater curvature of the stomach and the dorsal body wall. The cavity between the layers is the omental bursa and the opening to it is the epiploic foramen. [[Peritoneal | + | feedback1="'''Incorrect.''' As the stomach develops there is a great expansion of the dorsal suspension of the stomach or the greater omentum. The greater omentum is a double layer of peritoneum which attaches to the greater curvature of the stomach and the dorsal body wall. The cavity between the layers is the omental bursa and the opening to it is the epiploic foramen. [[Peritoneal Cavity - Anatomy & Physiology|WikiVet Article: Peritoneal cavity]]" |
− | feedback5="'''Incorrect.''' As the stomach develops there is a great expansion of the dorsal suspension of the stomach or the greater omentum. The greater omentum is a double layer of peritoneum which attaches to the greater curvature of the stomach and the dorsal body wall. The cavity between the layers is the omental bursa and the opening to it is the epiploic foramen. [[Peritoneal | + | feedback5="'''Incorrect.''' As the stomach develops there is a great expansion of the dorsal suspension of the stomach or the greater omentum. The greater omentum is a double layer of peritoneum which attaches to the greater curvature of the stomach and the dorsal body wall. The cavity between the layers is the omental bursa and the opening to it is the epiploic foramen. [[Peritoneal Cavity - Anatomy & Physiology|WikiVet Article: Peritoneal cavity]]" |
− | feedback4="'''Incorrect.''' As the stomach develops there is a great expansion of the dorsal suspension of the stomach or the greater omentum. The greater omentum is a double layer of peritoneum which attaches to the greater curvature of the stomach and the dorsal body wall. The cavity between the layers is the omental bursa and the opening to it is the epiploic foramen. [[Peritoneal | + | feedback4="'''Incorrect.''' As the stomach develops there is a great expansion of the dorsal suspension of the stomach or the greater omentum. The greater omentum is a double layer of peritoneum which attaches to the greater curvature of the stomach and the dorsal body wall. The cavity between the layers is the omental bursa and the opening to it is the epiploic foramen. [[Peritoneal Cavity - Anatomy & Physiology|WikiVet Article: Peritoneal cavity]]" |
− | feedback2="'''Incorrect.''' As the stomach develops there is a great expansion of the dorsal suspension of the stomach or the greater omentum. The greater omentum is a double layer of peritoneum which attaches to the greater curvature of the stomach and the dorsal body wall. The cavity between the layers is the omental bursa and the opening to it is the epiploic foramen. [[Peritoneal | + | feedback2="'''Incorrect.''' As the stomach develops there is a great expansion of the dorsal suspension of the stomach or the greater omentum. The greater omentum is a double layer of peritoneum which attaches to the greater curvature of the stomach and the dorsal body wall. The cavity between the layers is the omental bursa and the opening to it is the epiploic foramen. [[Peritoneal Cavity - Anatomy & Physiology|WikiVet Article: Peritoneal cavity]]" |
image= ""> | image= ""> | ||
</WikiQuiz> | </WikiQuiz> | ||
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</WikiQuiz> | </WikiQuiz> | ||
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+ | [[Category:Alimentary System Anatomy & Physiology Quizzes]] |
Latest revision as of 10:40, 26 June 2011
|
Questions reviewed by: | Mr David Kilroy MVB CVMA MRCVS Tony Sarma BVM&S CertSAS MRCVS |
1 |
The lesser omentum forms between which structures? |
2 |
What do enterochromaffin-like (ECL) cells, which can be found in the gastric mucosa, secrete? |
3 |
The falciform ligament forms between which two structures? |
4 |
The caudal border of which muscle forms the inguinal ligament? |
5 |
To which lobe of the liver does the hepatorenal ligament attach? |
6 |
Fibres of the internal abdominal oblique muscle run in which direction? |
7 |
A slit in the aponeurosis of which muscle forms the superficial inguinal ring? |
8 |
Which of the following organs is considered to be retroperitoneal? |
9 |
The omental bursa is the space between which structures? |
10 |
Which of the following layers is NOT incised when a cat is spayed through a flank incision? |