NEET-PG 2015

1414 Questions — Page 9 of 142

Anatomy

9 questions

Q81

What is the correct sequence of uterine blood flow?

Q82

Heart tube is formed in a gelatinous matrix rich in:

Q83

What structures are derived from the neural crest?

Q84

Which of the following is a derivative of ventral mesogastrium ?

Q85

What is the remnant of the umbilical artery?

Q86

Which of the following is a derivative of paramesonephric duct in males ?

Q87

Fibrous stroma of liver is derived from -

Q88

Gastrosplenic ligament contains ?

Q89

Prolactin secreting gland develops from -

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

Question 81: What is the correct sequence of uterine blood flow?

A. Uterine A → Radial A → Arcuate A → Spiral A
B. Uterine A → Spiral A → Radial A → Arcuate A
C. Uterine A → Arcuate A → Spiral A → Radial A
D. Uterine A → Arcuate A → Radial A → Spiral A (Correct Answer)

Explanation: ***Uterine A → Arcuate A → Radial A → Spiral A*** - The **uterine artery** is the primary blood supply, branching into several arteries within the myometrium. - **Arcuate arteries** encircle the uterus, giving off perpendicular branches called **radial arteries**, which then give rise to the **spiral arteries** that supply the endometrium [1]. *Uterine A → Radial A → Arcuate A → Spiral A* - This sequence is incorrect because **radial arteries** arise from **arcuate arteries**, not the other way around. - **Arcuate arteries** are larger circumferential vessels that branch into the smaller radial arteries. *Uterine A → Spiral A → Radial A → Arcuate A* - This sequence is highly incorrect as **spiral arteries** are the most distal branches supplying the endometrium, not preceding radial or arcuate arteries [1]. - The flow is from larger to smaller vessels, with **spiral arteries** being the smallest and most terminal. *Uterine A → Arcuate A → Spiral A → Radial A* - This sequence incorrectly places **spiral arteries** before **radial arteries**. - **Radial arteries** are the immediate precursors to **spiral arteries**, providing direct branches to them.

Question 82: Heart tube is formed in a gelatinous matrix rich in:

A. Hyaluronic acid secreted by the endocardium
B. Chondroitin sulfate secreted by the endocardium
C. Hyaluronic acid secreted by the myocardium (Correct Answer)
D. Chondroitin sulfate secreted by the myocardium

Explanation: ***Hyaluronic acid secreted by the myocardium*** - The developing **heart tube** forms within a gelatinous extracellular matrix that is rich in **hyaluronic acid**. - This **hyaluronic acid** is secreted by the **myocardium** (the developing heart muscle), which plays a crucial role in the initial formation and remodeling of the heart. *Hyaluronic acid secreted by the endocardium* - While the endocardium is an important layer of the heart, it is the **myocardium** that primarily secretes the **hyaluronic acid** critical for heart tube formation during early development. - The **endocardium** forms the inner lining and primarily acts in blood-tissue interaction and valvular development later on. *Chondroitin sulfate secreted by the endocardium* - **Chondroitin sulfate** is a component of the extracellular matrix, but it is not the primary proteoglycan responsible for the initial formation environment of the heart tube. - Furthermore, its secretion is not predominantly from the **endocardium** in this context. *Chondroitin sulfate secreted by the myocardium* - Although the myocardium is responsible for secreting extracellular matrix components, **chondroitin sulfate** is not the predominant or critical molecule responsible for the initial gelatinous matrix allowing heart tube formation. - **Hyaluronic acid** plays this key role in early cardiogenesis.

Question 83: What structures are derived from the neural crest?

A. Melanocytes
B. Dental papillae
C. Adrenal medulla
D. All of the options (Correct Answer)

Explanation: ***All of the options*** - The **neural crest** is a multipotent, migratory cell population that contributes to the formation of many diverse tissues and organs during vertebrate development. - Neural crest cells give rise to a wide array of derivatives, including components of the nervous system, pigment cells, skeletal and connective tissues of the head and face, and endocrine glands [1]. *Melanocytes* - **Melanocytes**, the pigment-producing cells found in the skin, hair, eyes, and other tissues, are derived from the **neural crest** [2]. - These cells migrate extensively during development from the neural crest to their final destinations throughout the body. - Neural crest-derived melanocytes produce melanin, which provides pigmentation and protection against UV radiation [2]. *Dental papillae* - The **dental papilla** is crucial for tooth development and is formed from **ectomesenchymal cells** that are derived from the cranial neural crest. - These cells differentiate into the odontoblasts that produce dentin and also contribute to the pulp of the tooth. *Adrenal medulla* - The cells of the **adrenal medulla**, which produce catecholamines like epinephrine and norepinephrine, are specialized **postganglionic sympathetic neurons** derived from the neural crest. - They develop from neuroectodermal cells that migrate to the developing adrenal gland.

Question 84: Which of the following is a derivative of ventral mesogastrium ?

A. Lesser omentum (Correct Answer)
B. Splenorenal ligament
C. Greater omentum
D. Gastrosplenic ligament

Explanation: ***Lesser omentum*** - The **lesser omentum** is formed from the **ventral mesogastrium**, which connects the developing stomach to the anterior abdominal wall [1]. - It specifically derives from the part of the ventral mesogastrium that encloses the developing liver and extends to the lesser curvature of the stomach and the duodenum [1]. *Greater omentum* - The **greater omentum** develops from the **dorsal mesogastrium**, which means it is a derivative of the dorsal rather than the ventral mesentery [1]. - It arises from a rapid growth and fusion of the **dorsal mesogastrium**, hanging from the greater curvature of the stomach. *Splenorenal ligament* - The **splenorenal ligament** develops from the **dorsal mesogastrium**, specifically from the portion that connects the spleen to the posterior abdominal wall (near the kidney). - Its formation is a consequence of the rotation of the stomach and the development of the spleen within the dorsal mesentery. *Gastrosplenic ligament* - The **gastrosplenic ligament** is also derived from the **dorsal mesogastrium**, connecting the greater curvature of the stomach to the hilum of the spleen. - As the stomach rotates, the dorsal mesogastrium expands, eventually forming both the gastrosplenic and splenorenal ligaments.

Question 85: What is the remnant of the umbilical artery?

A. Ligamentum arteriosum
B. Ligament teres
C. Ligamentum venosum
D. Medial umbilical ligament (Correct Answer)

Explanation: ***Medial umbilical ligament*** - The **umbilical arteries** (paired structures) carry deoxygenated blood from the fetus to the placenta during development [2]. - After birth, these arteries obliterate and persist as the **medial umbilical ligaments** (two in number, one on each side), extending from the internal iliac arteries to the umbilicus along the anterior abdominal wall. - The proximal portions of the umbilical arteries remain patent as the **superior vesical arteries**, which supply the bladder. *Ligamentum arteriosum* - This is the remnant of the **ductus arteriosus**, which shunted blood from the pulmonary artery to the aorta, bypassing the fetal lungs [2]. - It connects the arch of the aorta to the pulmonary artery. *Ligament teres* - Also known as the **round ligament of the liver**, this is the remnant of the **fetal umbilical vein** (a single midline structure) [1]. - The umbilical vein carried oxygenated blood from the placenta to the fetus [1], [2]. *Ligamentum venosum* - This is the fibrous remnant of the **ductus venosus**, a shunt in fetal circulation that bypassed the liver by connecting the umbilical vein to the inferior vena cava [1]. - It is located deep within the liver, forming a fissure.

Question 86: Which of the following is a derivative of paramesonephric duct in males ?

A. Trigone of bladder
B. Paraphoron
C. Prostatic utricle (Correct Answer)
D. Gartner's duct

Explanation: ***Prostatic utricle*** - The **prostatic utricle** is a blind-ending pouch located in the prostatic urethra. - It represents a **rudimentary derivative of the paramesonephric (Müllerian) duct** in males, which normally regresses due to the presence of Müllerian-inhibiting substance (MIS). *Trigone of bladder* - The trigone of the bladder is derived from the caudal ends of the **mesonephric ducts** (Wolffian ducts), not the paramesonephric ducts. - It forms through the incorporation of these ducts into the posterior wall of the bladder. *Paraphoron* - The **paraphoron** is a vestigial structure found in females, representing remnants of the caudal parts of the **epoophoron tubules**. - These are derived from the **mesonephric tubules**, not the paramesonephric ducts, and are not found in males. *Gartner's duct* - **Gartner's duct** is a remnant of the **mesonephric (Wolffian) duct** in females, typically running along the lateral wall of the vagina or uterus. - It is not found in males and is derived from a different embryonic structure than the paramesonephric duct.

Question 87: 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 88: 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 89: 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.

Surgery

1 questions

Q81

Which of the following statements is true about branchial cysts?