NEET-PG 2015

1414 Questions — Page 11 of 142

Anatomy

10 questions

Q101

The uterine artery is a branch of which of the following?

Q102

Tail of pancreas develops from -

Q103

Haustrations are present in -

Q104

Which of the following provides the MOST COMPLETE description of muscles attached to the perineal body?

Q105

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

Q106

Which of the following statements about the femoral triangle is NOT true?

Q107

Sensory nerve supply of gall bladder is through -

Q108

Uvula vesicae seen in bladder is formed from the following structure?

Q109

Ligament which prevents the spleen from falling in left iliac fossa -

Q110

Floor of Petit triangle is formed by?

NEET-PG 2015 - Anatomy NEET-PG Practice Questions and MCQs

Question 101: The uterine artery is a branch of which of the following?

A. Left common iliac artery
B. Internal iliac artery (Correct Answer)
C. Internal pudendal artery
D. Ovarian artery

Explanation: ***Internal iliac artery*** - The **uterine artery** is a direct branch of the **internal iliac artery**, specifically its anterior division, which supplies blood to the uterus [1]. - This artery is crucial for maintaining the vascular supply to the uterus, especially during pregnancy. *Left common iliac artery* - The **common iliac artery** bifurcates into the **internal iliac artery** and the **external iliac artery** [2]; it is not a direct source of the uterine artery. - The common iliac artery is a more proximal vessel in the arterial tree. *Internal pudendal artery* - The **internal pudendal artery** is also a branch of the **internal iliac artery**, but it primarily supplies the perineum and external genitalia, not the uterus. - It is often associated with structures such as the clitoris, labia, and structures of the anal triangle. *Ovarian artery* - The **ovarian artery** originates directly from the **abdominal aorta**, usually just below the renal arteries, and supplies the ovaries [2]. - Although it supplies the reproductive system, it is distinct from the uterine artery's origin and primary territory.

Question 102: Tail of pancreas develops from -

A. Hepatic diverticulum
B. Ventral pancreatic bud
C. Dorsal pancreatic bud (Correct Answer)
D. All of the options

Explanation: Dorsal pancreatic bud - The dorsal pancreatic bud forms the majority of the pancreas, including the body, tail, and most of the head [1]. - It arises from the dorsal mesentery of the duodenum [1]. Hepatic diverticulum - The hepatic diverticulum gives rise to the liver, gallbladder, and bile ducts [2]. - It is separate from the pancreatic development and does not contribute to the pancreas. Ventral pancreatic bud - The ventral pancreatic bud forms only a small part of the pancreas, specifically the inferior portion of the head and the uncinate process [1]. - It rotates posteriorly with the duodenum to fuse with the dorsal bud [1]. All of the options - This option is incorrect because only the dorsal pancreatic bud forms the tail of the pancreas [1]. - The hepatic diverticulum does not contribute to pancreatic development at all, and the ventral pancreatic bud only forms the uncinate process and part of the head [1].

Question 103: Haustrations are present in -

A. Duodenum
B. Ileum
C. Jejunum
D. Colon (Correct Answer)

Explanation: ***Colon*** - **Haustrations** are characteristic sacculations or pouches that give the colon its segmented appearance [1]. - They are formed by the tonic contractions of the **teniae coli**, which are three distinct bands of longitudinal smooth muscle found in the muscularis externa of the colon. *Duodenum* - The duodenum is the first part of the small intestine and is characterized by **plicae circulares (circular folds)** and **villi**, not haustrations. - Its primary role is chemical digestion and initial absorption, with a smooth, folded inner surface. *Ileum* - The ileum is the final and longest part of the small intestine, featuring **Peyer's patches** (lymphoid nodules) and prominent plicae circulares [2], but lacks haustrations. - Its main function is the absorption of vitamin B12 and bile salts [2]. *Jejunum* - The jejunum is the middle section of the small intestine, known for its tall and numerous **plicae circulares** and villi, making it highly efficient for nutrient absorption. - It does not possess haustrations, which are unique to the large intestine.

Question 104: Which of the following provides the MOST COMPLETE description of muscles attached to the perineal body?

A. Deep transverse perineal
B. Ischiocavernosum
C. Two unpaired : (i) External anal sphincter, (ii) Fibres of longitudinal muscle coat of anal canal.
D. Four paired muscles including bulbospongiosus, superficial transverse perineal, deep transverse perineal, and levator ani. In females, sphincter urethrovaginalis is also attached. (Correct Answer)

Explanation: Four paired muscles including bulbospongiosus, superficial transverse perineal, deep transverse perineal, and levator ani. In females, sphincter urethrovaginalis is also attached. [1] - The **perineal body** (or central tendon of the perineum) is a fibromuscular mass located in the midline of the perineum, serving as an important point of attachment for multiple muscles essential for pelvic floor integrity. - This option correctly identifies **four paired muscles** (bulbospongiosus, superficial transverse perineal, deep transverse perineal, and levator ani) and additionally mentions the **sphincter urethrovaginalis** in females, providing the most thorough description. [1] *Ischiocavernosus* - The **ischiocavernosus** muscle surrounds the crus of the penis or clitoris and attaches to the ischial tuberosity and pubic ramus. - While it contributes to perineal function, it does **not** directly attach to the perineal body, making this option incorrect. *Deep transverse perineal* - The **deep transverse perineal** muscle does attach to the perineal body and is part of the urogenital diaphragm. [1] - However, it is only one of several muscles, making this an incomplete description compared to the correct answer. *Two unpaired: (i) External anal sphincter, (ii) Fibres of longitudinal muscle coat of anal canal* - The **external anal sphincter** does indeed have fibers that connect to the perineal body, and the longitudinal muscle coat of the anal canal also contributes. [1] - However, this option *only* lists two unpaired structures and omits major paired muscles (bulbospongiosus, superficial transverse perineal, deep transverse perineal, and levator ani), making it an incomplete description of all attachments.

Question 105: 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 106: Which of the following statements about the femoral triangle is NOT true?

A. Contains the femoral vessels
B. Floor is formed by adductor longus (Correct Answer)
C. Lateral margin is formed by sartorius
D. Medial margin is formed by adductor longus

Explanation: ***Floor is formed by adductor longus*** - The floor of the femoral triangle is actually formed by the **iliopsoas** laterally and the **pectineus** medially. - The **adductor longus** forms part of the medial boundary of the femoral triangle, not its floor. - This is the INCORRECT statement (correct answer for a "NOT true" question). *Contains the femoral vessels* - The femoral triangle is a crucial anatomical space containing the **femoral artery**, **femoral vein**, and **femoral nerve**. - These structures are organized from lateral to medial as nerve, artery, vein (NAVY). *Lateral margin is formed by sartorius* - The **sartorius muscle** forms the lateral boundary of the femoral triangle. - Its medial border defines one of the triangle's sides. *Medial margin is formed by adductor longus* - The **adductor longus** does form the medial boundary of the femoral triangle. - This is anatomically correct along with the inguinal ligament (superior boundary) and sartorius (lateral boundary).

Question 107: 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 108: Uvula vesicae seen in bladder is formed from the following structure?

A. Lateral lobe of the prostate
B. Anterior lobe of the prostate
C. Posterior lobe of the prostate
D. Median lobe of the prostate (Correct Answer)

Explanation: ***Median lobe of the prostate*** - The **uvula vesicae** is a slight median elevation on the internal surface of the **bladder base**, immediately behind the **internal urethral orifice**. - This elevation is formed by the underlying **median (middle) lobe of the prostate** projecting upward beneath the bladder mucosa. - In **benign prostatic hyperplasia (BPH)**, enlargement of the median lobe accentuates this prominence and can cause significant urinary obstruction. *Lateral lobe of the prostate* - Enlargement of the **lateral lobes** causes lateral compression of the prostatic urethra, not a median elevation at the bladder neck. - While they are the most common site of **BPH**, they do not form the uvula vesicae. *Anterior lobe of the prostate* - The **anterior lobe** (or anterior fibromuscular stroma) is located in front of the urethra and is non-glandular. - It does not contribute to the formation of the uvula vesicae or cause significant urinary symptoms. *Posterior lobe of the prostate* - The **posterior lobe** is located behind the urethra and is the most common site for **prostate cancer**. - It does not project into the bladder base and therefore does not form the uvula vesicae.

Question 109: Ligament which prevents the spleen from falling in left iliac fossa -

A. Phrenicocolic ligament (Correct Answer)
B. Lienorenal ligament
C. Upper pole of right kidney
D. Sigmoid colon

Explanation: ***Phrenicocolic ligament*** - The **phrenicocolic ligament** is a fold of peritoneum that extends from the left colic flexure to the diaphragm, under the spleen. - It forms a shelf that **supports the spleen** and prevents it from descending into the left iliac fossa. *Lienorenal ligament* - The **lienorenal (splenorenal) ligament** connects the hilum of the spleen to the posterior abdominal wall (specifically over the left kidney) [1]. - While it helps to anchor the spleen, its primary role is not preventing caudal displacement, but rather containing the **splenic artery and vein** and the tail of the pancreas [1]. *Upper pole of right kidney* - The **right kidney** is located on the opposite side of the abdominal cavity from the spleen. - It plays no role in supporting the spleen or preventing its descent. *Sigmoid colon* - The **sigmoid colon** is a part of the large intestine located in the left lower quadrant of the abdomen and pelvis. - It is situated far below the spleen and has no direct anatomical connection or supporting role for the spleen.

Question 110: 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.