Abdomen — MCQs

Abdomen Indian Medical PG Practice Questions and MCQs

Question 751: Floor of Petit triangle is formed by?

A. Internal oblique muscle (Correct Answer)
B. Sacrospinalis muscle
C. Rectus abdominis muscle
D. Fascia Transversalis layer

Explanation: ***Internal oblique muscle*** - The **Petit triangle** (lumbar triangle) is a landmark defined by the **latissimus dorsi posteriorly**, the **external oblique anteriorly**, and the **iliac crest inferiorly**. - Its **floor** is consistently formed by the **internal oblique muscle**, which lies deep to the external oblique [1]. *Sacrospinalis muscle* - The **sacrospinalis muscle** (erector spinae) is part of the deep back muscles, located medial to the Petit triangle. - It forms part of the **vertebral column's musculature** and is not directly associated with the floor of the Petit triangle. *Rectus abdominis muscle* - The **rectus abdominis muscle** is located medially in the anterior abdominal wall [1]. - It is distinct from the lateral abdominal wall muscles that form the boundaries and floor of the Petit triangle. *Fascia Transversalis layer* - The **fascia transversalis** is a deeper fascial layer lining the abdominal wall. - While it's deep to the internal oblique, the **muscle itself** forms the immediate anatomical floor of the Petit triangle.

Question 752: Gastrosplenic ligament contains ?

A. Splenic vessels
B. Tail of pancreas
C. Short gastric artery (Correct Answer)
D. Portal vein

Explanation: ***Short gastric artery*** - The **short gastric arteries** are branches of the **splenic artery** and supply the **fundus** and upper part of the **greater curvature** of the stomach. - These vessels travel within the **gastrosplenic ligament** (or gastrosplenic omentum), connecting the greater curvature of the stomach to the hilum of the spleen [1]. *Splenic vessels* - The **splenic artery** and **vein** primarily travel within the **splenorenal ligament** (or lienorenal ligament), connecting the spleen to the posterior abdominal wall. - These major vessels supply and drain the spleen itself, not typically running within the gastrosplenic ligament [1]. *Tail of pancreas* - The **tail of the pancreas** is typically located within the **splenorenal ligament**, closely associated with the **hilum of the spleen** [1]. - It does not extend into the gastrosplenic ligament, which connects the stomach to the spleen. *Portal vein* - The **portal vein** is a major vessel formed by the confluence of the **splenic vein** and **superior mesenteric vein**, and it is located in the **hepatoduodenal ligament** (part of the lesser omentum) along with the hepatic artery and common bile duct. - This vessel is far removed from the gastrosplenic ligament, which is situated between the stomach and spleen.

Question 753: Sensory nerve supply of gall bladder is through -

A. Vagus nerve (Cranial Nerve X) (Correct Answer)
B. Celiac plexus (sympathetic fibers)
C. Trigeminal nerve (Cranial Nerve V)
D. Facial nerve (Cranial Nerve VII)

Explanation: ***Vagus nerve (Cranial Nerve X)*** - The **vagus nerve** provides the primary **sensory (visceral afferent) innervation** to the gallbladder, carrying information about distension, contraction, and physiological state. - These **parasympathetic sensory fibers** travel through the vagus nerve to medullary centers, monitoring gallbladder function and participating in reflex arcs. - The vagus nerve is the main pathway for **general sensory innervation** of the gallbladder as per standard anatomical texts. *Celiac plexus (sympathetic fibers)* - The **celiac plexus** contains **sympathetic afferent fibers** that primarily transmit **pain sensation** from the gallbladder, especially during inflammation or biliary colic [1]. - These pain fibers travel via sympathetic pathways to spinal segments **T8-T9**, mediating referred pain to the epigastric region and right upper quadrant [1]. - While important for pain transmission, the celiac plexus is not classified as the primary sensory nerve supply in anatomical nomenclature. *Trigeminal nerve (Cranial Nerve V)* - The **trigeminal nerve** provides **sensory innervation to the face** and motor innervation to muscles of mastication. - It has no role in innervation of abdominal viscera, including the gallbladder. *Facial nerve (Cranial Nerve VII)* - The **facial nerve** controls **facial expression muscles**, provides taste sensation to the anterior two-thirds of the tongue, and supplies parasympathetic fibers to lacrimal and salivary glands. - It does not innervate any abdominal organs.

Question 754: Inferior epigastric artery forms the boundary of?

A. Femoral triangle
B. Hesselbach's triangle (Correct Answer)
C. Adductor canal
D. Popliteal triangle

Explanation: ***Hesselbach's triangle*** - The **inferior epigastric artery** forms the superolateral border of Hesselbach's triangle [1]. - This triangle is clinically significant as it is a common site for **direct inguinal hernias** due to its relative weakness [1]. *Femoral triangle* - The femoral triangle is bounded by the **inguinal ligament superiorly**, the **sartorius muscle laterally**, and the **adductor longus muscle medially**. - It contains the **femoral nerve**, artery, and vein. *Adductor canal* - The adductor canal is an intermuscular tunnel located in the **thigh**, containing the **femoral artery and vein** and the **saphenous nerve**. - Its boundaries are the **vastus medialis**, adductor longus/magnus, and sartorius muscles. *Popliteal triangle* - This term is not a standard anatomical triangle. The correct term is the **popliteal fossa**, which is a diamond-shaped space behind the knee joint. - The popliteal fossa contains structures such as the **popliteal artery and vein**, tibial nerve, and common fibular nerve.

Question 755: Which of the following structures does NOT pass through the deep inguinal ring?

A. Spermatic cord
B. Internal spermatic fascia
C. Round ligament
D. Ilioinguinal nerve (Correct Answer)

Explanation: The ilioinguinal nerve typically passes through the superficial inguinal ring but does not travel through the deep inguinal ring [1]. It lies in the inguinal canal, superficial to the spermatic cord in males and the round ligament in females [1]. The spermatic cord in males enters the inguinal canal through the deep inguinal ring [2]. It contains structures like the vas deferens, testicular artery, pampiniform plexus, and nerves. The internal spermatic fascia is a covering of the spermatic cord that originates from the transversalis fascia at the deep inguinal ring [2]. In females, the round ligament of the uterus is the homologous structure to the spermatic cord in males, and it passes through the deep inguinal ring to enter the inguinal canal. It helps maintain the anteversion of the uterus.

Question 756: Which of the following is not formed by the external oblique muscle?

A. Inguinal ligament
B. Lacunar ligament
C. Pectineal ligament
D. Conjoint tendon (Correct Answer)

Explanation: ***Conjoint tendon*** - The **conjoint tendon** is formed by the conjoined aponeuroses of the **internal oblique** and **transversus abdominis muscles**, not the external oblique [1]. - It provides posterior wall reinforcement to the inguinal canal. - This is the structure that is definitively **NOT formed by the external oblique muscle**. *Lacunar ligament* - The **lacunar ligament** (Gimbernat's ligament) is a triangular fascial band formed by the medial reflection of the **inguinal ligament**. - It is derived from the **external oblique aponeurosis** and forms the medial boundary of the femoral ring. *Pectineal ligament* - The **pectineal ligament** (Cooper's ligament) is a thickening of the periosteum along the pecten pubis (pectineal line) [3]. - While it is continuous with the lacunar ligament, it is not directly formed by the external oblique muscle itself, but rather represents a separate periosteal structure. - For the purposes of this question, the conjoint tendon is the most appropriate answer as it has no contribution from the external oblique. *Inguinal ligament* - The **inguinal ligament** (Poupart's ligament) is formed by the inferomedial border of the **external oblique aponeurosis**, folding back on itself [2]. - It spans between the **anterior superior iliac spine** and the **pubic tubercle**.

Question 757: Superficial inguinal ring is a defect in the:

A. Internal oblique muscle
B. Transverse abdominis aponeurosis
C. External oblique aponeurosis (Correct Answer)
D. Internal oblique aponeurosis

Explanation: ***External oblique aponeurosis*** - The **superficial inguinal ring** is a triangular opening in the **aponeurosis of the external oblique muscle** [1]. - It allows passage of the **spermatic cord** in males and the **round ligament of the uterus** in females. *Transverse abdominis aponeurosis* - The **transverse abdominis aponeurosis** contributes to the posterior wall of the **inguinal canal**, but not the superficial inguinal ring itself [2]. - The deepest abdominal muscle, its aponeurosis forms the **conjoint tendon** with the internal oblique aponeurosis. *Internal oblique muscle* - The **internal oblique muscle** forms the arching roof and part of the anterior wall of the **inguinal canal** [2]. - Its aponeurosis contributes to the **conjoint tendon** and the falx inguinalis. *Internal oblique aponeurosis* - The **internal oblique aponeurosis** is part of the anterior wall and forms the conjoint tendon with the transverse abdominis aponeurosis [2]. - This aponeurosis does not form the superficial inguinal ring; instead, it is found deeper to the external oblique aponeurosis.

Question 758: Which of the following vessels runs through the transverse mesocolon?

A. Right colic artery
B. Left colic artery
C. Middle colic artery (Correct Answer)
D. Iliocolic artery

Explanation: * **Middle colic artery** - The **middle colic artery** arises from the superior mesenteric artery and supplies the **transverse colon**, traversing between the two layers of the **transverse mesocolon** [1]. - Its location within the mesocolon makes it susceptible to injury during surgical procedures involving the transverse colon [2]. * *Right colic artery* - The **right colic artery** supplies the **ascending colon** and the right colic flexure, typically lying within retroperitoneal tissue and not the transverse mesocolon itself [2]. - It arises from the superior mesenteric artery but branches to supply structures primarily to the right side of the abdominal cavity. * *Left colic artery* - The **left colic artery** arises from the **inferior mesenteric artery** and supplies the descending colon and the left colic flexure [1]. - This vessel is located within the retroperitoneum and is not associated with the transverse mesocolon. * *Iliocolic artery* - The **iliocolic artery** is a terminal branch of the superior mesenteric artery, supplying the **ileum, cecum, appendix**, and beginning of the ascending colon. - It descends retroperitoneally to reach these structures and does not traverse the transverse mesocolon.

Question 759: Which of the following structures is not related to the third part of the duodenum?

A. Superior mesenteric vessels
B. Right ureter
C. Head of pancreas
D. Quadrate lobe of liver (Correct Answer)

Explanation: ***Quadrate lobe of liver*** - The **quadrate lobe of the liver** is located on the visceral surface of the liver, bounded by the gallbladder fossa, ligamentum teres, and porta hepatis. [1] - It is anatomically related to the **first part of the duodenum** and the pylorus, but has **no direct relationship** with the retroperitoneal **third part of the duodenum**, which lies at the L3 vertebral level. [2] - The third part of the duodenum is too inferior and posterior to have any relationship with the quadrate lobe. *Superior mesenteric vessels* - The **superior mesenteric artery** and **vein** cross **anteriorly** to the **third part of the duodenum** as it runs horizontally from right to left. - The duodenum passes between the aorta posteriorly and the superior mesenteric vessels anteriorly, creating a potential site for compression (**superior mesenteric artery syndrome**). *Right ureter* - The **right ureter** is a **posterior relation** of the **third part of the duodenum**, as both structures are retroperitoneal. [2] - The ureter descends on the psoas major muscle, passing behind the third part of the duodenum during its course toward the pelvis. *Head of pancreas* - The **head of pancreas**, specifically the **uncinate process**, lies **superior and posterior** to the **third part of the duodenum**. - The uncinate process hooks around posteriorly to the superior mesenteric vessels and has an intimate relationship with the third part of the duodenum.

Question 760: Which of the following is not a branch of the splenic artery?

A. Hilar branches of the splenic artery
B. Short Gastric Arteries
C. Arteria Pancreatica Magna
D. Right Gastroepiploic Artery (Correct Answer)

Explanation: ***Right Gastroepiploic Artery*** - This artery originates from the **gastroduodenal artery**, which is a branch of the **common hepatic artery**, not the splenic artery. - It supplies the greater curvature of the stomach and the greater omentum. *Hilar branches of the splenic artery* - These are direct branches of the splenic artery that enter the **hilum of the spleen** [1] to supply the organ itself. - They are essential for the blood supply to the spleen [1]. *Short Gastric Artery* - The **short gastric arteries** arise directly from the splenic artery or its terminal branches [1]. - They supply the fundus and a part of the greater curvature of the stomach [1]. *Arteria Pancreatica Magna* - Also known as the **great pancreatic artery**, this is a significant branch that typically arises from the **splenic artery**. - It supplies the body and tail of the pancreas [1].

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Anterior Abdominal Wall

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Peritoneum and Peritoneal Cavity

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Stomach and Intestines

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Liver, Gallbladder and Biliary Tract

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Pancreas and Spleen

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Kidneys and Suprarenal Glands

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Abdominal Vasculature

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Posterior Abdominal Wall

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Innervation of Abdominal Viscera

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Applied Anatomy and Clinical Correlations

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Abdomen — MCQs

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