Anatomy
9 questionsWhich of the following is not a branch of the splenic artery?
Which of the following is not formed by the external oblique muscle?
Prolactin secreting gland develops from -
Which of the following statements about the femoral triangle is NOT true?
Fibrous stroma of liver is derived from -
Which structure may persist as a remnant of the Müllerian duct in males?
Which of the following is NOT a boundary of the foramen of Winslow?
Nephron is derived from ?
Shortest part of male urethra is :
NEET-PG 2015 - Anatomy NEET-PG Practice Questions and MCQs
Question 151: 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].
Question 152: 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 153: Prolactin secreting gland develops from -
- A. Infundibulum
- B. Rathke's pouch (Correct Answer)
- C. Tuber cinereum
- D. 3rd ventricle
Explanation: ***Rathke's pouch*** - The **anterior pituitary gland**, which secretes prolactin [2], develops embryologically from **Rathke's pouch**. - Rathke's pouch is an **ectodermal evagination** from the roof of the primitive oral cavity (stomodeum). *Infundibulum* - The **infundibulum** is also known as the pituitary stalk, connecting the hypothalamus to the posterior pituitary [1]. - It is derived from **neuroectoderm** and forms part of the posterior pituitary, not the prolactin-secreting anterior pituitary [1]. *Tuber cinereum* - The **tuber cinereum** is a part of the **hypothalamus**. - It is involved in regulating several bodily functions but does not directly give rise to the prolactin-secreting gland. *3rd ventricle* - The **3rd ventricle** is one of the four ventricles of the brain, filled with **cerebrospinal fluid**. - It is a part of the central nervous system and is not involved in the embryological development of the pituitary gland.
Question 154: 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 155: Fibrous stroma of liver is derived from -
- A. Endoderm from the foregut
- B. Endoderm from the midgut
- C. Endoderm from the hindgut
- D. Mesoderm from the septum transversum (Correct Answer)
Explanation: ***Mesoderm from the septum transversum*** - The **fibrous stroma of the liver**, which provides its structural framework, develops from the **mesoderm** of the **septum transversum** [1]. - The septum transversum is a thick mass of mesoderm that contributes to the formation of the **diaphragm** and the connective tissue elements of the liver [1]. *Endoderm from the foregut* - While the **parenchymal cells (hepatocytes)** of the liver are derived from the **endoderm of the foregut**, this tissue forms the functional units, not the fibrous supporting stroma. - The endoderm forms the glandular tissue, while the mesoderm forms the connective tissue [1]. *Endoderm from the midgut* - The midgut endoderm gives rise to structures like the **small intestine**, cecum, appendix, ascending colon, and part of the transverse colon, but not the liver's stroma [2]. - Its primary role is in forming the epithelial lining of these digestive organs. *Endoderm from the hindgut* - The hindgut endoderm develops into the distal third of the transverse colon, descending colon, sigmoid colon, rectum, and superior part of the anal canal, - It plays no role in the development of the liver's fibrous stroma.
Question 156: Which structure may persist as a remnant of the Müllerian duct in males?
- A. Seminal vesicle
- B. Epididymis
- C. Prostatic utricle (Correct Answer)
- D. Ureter
Explanation: ***Prostatic utricle*** - The **Müllerian ducts** (paramesonephric ducts) are primarily female reproductive structures. In males, the **anti-Müllerian hormone (AMH)** causes their regression. - The **prostatic utricle** is a small blind-ended pouch located at the prostatic urethra, representing the remnant of the fused caudal ends of the Müllerian ducts. *Seminal vesicle* - The **seminal vesicles** develop from the **mesonephric (Wolffian) ducts**, not the Müllerian ducts. - They contribute to semen production and are functional male reproductive organs, not remnants of female structures. *Epididymis* - The **epididymis** also develops from the **mesonephric (Wolffian) ducts**. - It functions in sperm maturation and storage and is part of the male reproductive tract, not a Müllerian remnant. *Ureter* - The **ureters** are conduits for urine from the kidneys to the bladder and develop from the **ureteric bud**, an outgrowth of the mesonephric duct, but are distinct from Müllerian structures. - They are part of the urinary system in both sexes and are not considered remnants of the Müllerian duct.
Question 157: Which of the following is NOT a boundary of the foramen of Winslow?
- A. Inferior vena cava
- B. Free border of lesser omentum
- C. 4th part of Duodenum (Correct Answer)
- D. Caudate lobe of liver
Explanation: 4th part of Duodenum[1] - The foramen of Winslow (epiploic foramen) is an opening that connects the greater sac to the lesser sac of the peritoneum. The 4th part of the duodenum is not a boundary of this foramen. - The 4th part of the duodenum is located at the duodenojejunal junction on the left side of the abdomen, far from the foramen of Winslow. - Note: The 1st part of the duodenum (D1) forms the inferior boundary of the foramen of Winslow, along with the hepatic artery. Inferior vena cava[1] - The inferior vena cava (IVC) forms the posterior boundary of the foramen of Winslow. - It lies behind the peritoneum that forms the posterior wall of the lesser sac at this point. Free border of lesser omentum[1] - The free border of the lesser omentum (hepatoduodenal ligament) forms the anterior boundary of the foramen of Winslow. - This ligament contains the portal triad (hepatic artery proper, portal vein, and common bile duct). Caudate lobe of liver[1] - The caudate lobe of the liver forms the superior boundary of the foramen of Winslow.[1] - It lies above the opening, contributing to its roof.
Question 158: Nephron is derived from ?
- A. Ureteric bud
- B. Mesonephric duct
- C. Metanephros (Correct Answer)
- D. Mesonephros
Explanation: ***Metanephros*** - The **metanephric mesenchyme**, also known as the **metanephros**, gives rise to the excretory units of the kidney, which are the nephrons. - This mesenchymal tissue differentiates to form the **glomerulus**, Bowman's capsule, proximal and distal convoluted tubules, and the loop of Henle. *Ureteric bud* - The **ureteric bud** originates from the mesonephric duct and forms the collecting system of the kidney, including the ureter, renal pelvis, calyces, and collecting ducts. - It induces the differentiation of the metanephric mesenchyme but does not directly form the nephron itself. *Mesonephric duct* - The **mesonephric duct** (Wolffian duct) is a primitive embryonic structure that gives rise to the ureteric bud and parts of the male reproductive system. - It does not directly form any part of the nephron. *Mesonephros* - The **mesonephros** is a transient embryonic kidney that functions briefly during fetal development. - It degenerates and does not contribute to the formation of the definitive nephrons in the mature kidney.
Question 159: Shortest part of male urethra is :
- A. Prostatic
- B. Membranous (Correct Answer)
- C. Bulbar
- D. Penile
Explanation: ***Membranous*** - The **membranous urethra** is the shortest and narrowest part of the male urethra, passing through the **deep perineal pouch**. - Its short length makes it particularly vulnerable to injury during trauma to the pelvis [1]. *Prostatic* - The **prostatic urethra** is approximately 3-4 cm long and runs through the prostate gland. - It is one of the longer segments of the male urethra and drains the ejaculatory ducts. *Bulbar* - The **bulbar urethra** is a segment of the spongy (penile) urethra, located within the bulb of the penis [1]. - It is generally longer than the membranous part and wider distally. *Penile* - The **penile urethra**, also known as the spongy urethra, is the longest part of the male urethra, extending through the corpus spongiosum of the penis. - It measures around 15 cm and expands at its distal end to form the navicular fossa.
Surgery
1 questionsWhich of the following statements is true about branchial cysts?
NEET-PG 2015 - Surgery NEET-PG Practice Questions and MCQs
Question 151: Which of the following statements is true about branchial cysts?
- A. Branchial cysts are more common in males than females.
- B. They mostly arise from the second branchial cleft. (Correct Answer)
- C. Surgical intervention is not always necessary.
- D. They can cause dysphagia and hoarseness if infected.
Explanation: ***They mostly arise from the second branchial cleft.*** - **Second branchial cleft cysts** are the most common type, accounting for approximately **95%** of all branchial anomalies. - They typically present as a smooth, fluctuant mass along the **anterior border of the sternocleidomastoid muscle** at the junction of the upper and middle third of the neck. - These cysts result from **incomplete obliteration** of the second branchial cleft during embryonic development. *Branchial cysts are more common in males than females.* - Branchial cysts have **no significant sex predilection**, affecting males and females with roughly equal frequency. - The overall incidence is relatively rare, with most cases presenting in late childhood or early adulthood. *Surgical intervention is not always necessary.* - **Complete surgical excision** is the **definitive treatment** and is strongly recommended for all branchial cysts. - Indications for surgery include: prevention of **recurrent infections**, risk of **abscess formation**, elimination of cosmetic concerns, and removal due to potential (though rare) **malignant transformation**. - While very small asymptomatic cysts may occasionally be observed, this carries significant risk of future complications, making surgery the standard of care in clinical practice. *They can cause dysphagia and hoarseness if infected.* - While an **infected branchial cyst** causes local inflammatory signs (pain, swelling, warmth, erythema), it **rarely causes dysphagia or hoarseness** unless exceptionally large. - These symptoms would require the cyst to compress the **pharynx** (dysphagia) or involve the **recurrent laryngeal nerve** (hoarseness), which is uncommon even with infection. - The primary presentation of infected cysts includes **tender neck mass** with overlying skin changes and possible **abscess formation**.