NEET-PG 2015

1414 Questions — Page 16 of 142

Anatomy

8 questions

Q151

Fibrous stroma of liver is derived from -

Q152

Inferior pancreaticoduodenal artery is a branch of which of the following arteries?

Q153

Nephron is derived from ?

Q154

Fossa ovalis is a remnant of -

Q155

The internal anal sphincter is a part of which of the following?

Q156

Which artery passes through the anatomical snuffbox?

Q157

What is the posterior relation of the neck of the pancreas?

Q158

Hilton's law primarily relates to which of the following?

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

Question 151: 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 152: Inferior pancreaticoduodenal artery is a branch of which of the following arteries?

A. Splenic artery
B. Left gastric artery
C. Gastroduodenal artery
D. Superior mesenteric artery (Correct Answer)

Explanation: ***Superior mesenteric artery*** - The **inferior pancreaticoduodenal artery** is a direct branch of the **superior mesenteric artery (SMA)**. - It supplies the **head of the pancreas** and the **duodenum**, anastomosing with branches from the gastroduodenal artery. *Splenic artery* - The splenic artery is a branch of the **celiac trunk** and primarily supplies the **spleen**, stomach, and pancreas (via pancreatic branches). - It does not give rise to the inferior pancreaticoduodenal artery. *Left gastric artery* - The left gastric artery is a branch of the **celiac trunk** and supplies the **lesser curvature of the stomach** and distal esophagus. - It has no direct connection to the inferior pancreaticoduodenal artery. *Gastroduodenal artery* - The gastroduodenal artery is a branch of the **common hepatic artery** (from the celiac trunk) and gives off the **anterior and posterior superior pancreaticoduodenal arteries**. - While it supplies the head of the pancreas and duodenum, it is not the origin of the inferior pancreaticoduodenal artery, which arises from the SMA.

Question 153: 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 154: Fossa ovalis is a remnant of -

A. Septum primum (Correct Answer)
B. Septum secundum
C. Septum spurium
D. AV cushion

Explanation: ***Septum primum*** - The **fossa ovalis** is a depression in the right atrium that represents the sealed-off foramen ovale [2]. - It is formed from the **septum primum**, which becomes the floor of the fossa ovalis. *Septum secundum* - The **septum secundum** forms the limbus or rim of the fossa ovalis, not the fossa itself. - This structure develops later than the septum primum and partially covers the foramen ovale during fetal development [2]. *Septum spurium* - The **septum spurium** is an embryonic ridge in the right atrium that typically regresses during development and does not contribute to the fossa ovalis. - It is a transient structure formed by the confluence of the right and left venous valves. *AV cushion* - The **atrioventricular (AV) cushions** contribute to the formation of the AV valves and the atrial and ventricular septa, but not directly to the fossa ovalis [1]. - They are crucial for separating the atria from the ventricles and forming the mitral and tricuspid valves.

Question 155: The internal anal sphincter is a part of which of the following?

A. Puborectalis muscle
B. Deep perineal muscles
C. Internal longitudinal fibers
D. Internal circular fibers (Correct Answer)

Explanation: ***Internal circular fibers*** - The **internal anal sphincter** is an involuntary muscle formed by the thickening of the **circular smooth muscle layer** of the rectum. - This sphincter maintains **tonic contraction** and is responsible for about 80% of resting anal pressure [1]. *Puborectalis muscle* - The **puborectalis muscle** is a voluntary muscle, forming a sling around the anorectal junction to maintain the **anorectal angle** [1]. - It is part of the **levator ani muscles**, which are skeletal muscles, not smooth muscle [1]. *Deep perineal muscles* - The **deep perineal muscles** are a group of skeletal muscles located in the urogenital diaphragm. - They are involved in functions such as **urinary continence** and **erection**, but do not form the internal anal sphincter. *Internal longitudinal fibers* - The **longitudinal muscle layer** of the rectum continues downwards as the conjoined longitudinal muscle, which blends with the external anal sphincter. - These fibers contribute to the **anorectal ring** and support the anal canal but do not form the internal anal sphincter itself.

Question 156: Which artery passes through the anatomical snuffbox?

A. Radial artery (Correct Answer)
B. Brachial artery
C. Ulnar artery
D. Interosseus artery

Explanation: ***Radial artery*** - The **radial artery** is palpable within the **anatomical snuffbox**, as it courses over the scaphoid and trapezium bones towards the deep palmar arch. - This location is clinically significant for feeling the pulse and is vulnerable to injury, especially during **scaphoid fractures**. *Brachial artery* - The **brachial artery** is found in the **arm**, typically running in the cubital fossa, well proximal to the anatomical snuffbox. - It bifurcates into the radial and ulnar arteries at the level of the elbow, not within the wrist structures. *Ulnar artery* - The **ulnar artery** typically lies on the **medial side of the forearm** and wrist, contributing to the superficial palmar arch. - It does not pass through the anatomical snuffbox, which is located on the lateral aspect of the wrist. *Interosseus artery* - The **interosseus arteries** (anterior and posterior) run between the radius and ulna in the forearm, supplying muscles and bones. - These arteries are deep within the forearm compartments and do not traverse the superficial anatomical snuffbox at the wrist.

Question 157: What is the posterior relation of the neck of the pancreas?

A. IVC
B. Aorta
C. Common bile duct
D. Origin of portal vein (Correct Answer)

Explanation: ***Origin of portal vein*** - The **neck of the pancreas** is intimately associated with the formation of the **hepatic portal vein** [1]. - The **superior mesenteric vein** and **splenic vein** unite behind the pancreatic neck to form the **hepatic portal vein** [1]. *IVC* - The **inferior vena cava (IVC)** lies posterior to the **head of the pancreas**, not the neck. - While it's in proximity, it does not directly relate to the neck in the same way the portal vein does. *Aorta* - The **abdominal aorta** lies posterior to the **body** and **tail of the pancreas**, further superior and to the left. - It is not a direct posterior relation of the pancreatic neck. *Common bile duct* - The **common bile duct** passes through a groove on the posterior surface of the pancreatic **head**, sometimes even embedded within it. - It is not a direct posterior relation of the pancreatic neck, which is a different segment.

Question 158: Hilton's law primarily relates to which of the following?

A. Nerve innervation only
B. Nerve supply of joints, muscles moving them, and overlying skin (Correct Answer)
C. Blood supply to joints
D. None of the above

Explanation: ***Nerve supply of joints, muscles moving them, and overlying skin*** - **Hilton's law** states that the nerve supplying a joint also supplies the muscles that move the joint and the skin overlying the insertions of those muscles - This anatomical principle is clinically significant as it explains **referred pain patterns** from joints to surrounding structures - The law demonstrates the **functional integration** between joint innervation, muscle control, and cutaneous sensation *Nerve innervation only* - While Hilton's law involves nerve innervation, this option is too vague and incomplete - The law specifically describes the **relationship between three components**: joint nerves, muscle nerves, and cutaneous nerves - Simply stating "nerve innervation only" misses the **clinical significance** of the anatomical pattern *Blood supply to joints* - This refers to the vascular supply of joints (articular arteries), which is important for joint nutrition - However, **Hilton's law** specifically addresses **nerve supply patterns**, not vascular anatomy - Blood supply to joints follows different anatomical principles *None of the above* - This is incorrect because Hilton's law clearly relates to the integrated nerve supply pattern described in the correct option - The law is a fundamental principle in anatomy explaining the **functional relationship** between joint, muscle, and skin innervation

Physiology

2 questions

Q151

Which of the following is not a recognized stage of prophase I in meiosis?

Q152

Spermatogenesis begins at -