NEET-PG 2013 Practice Questions

Q: Which part of the heart is located in the anterosuperior sternal region?

Right ventricle.. ***Right ventricle*** - The **right ventricle** forms the **most anterior part of the heart**, located directly behind the sternum and costal cartilages [1]. - Its position explains why **sternal precordial leads** (e.g., V1, V2) on an ECG primarily reflect right ventricular activity [1]. *Right atrium and auricle* - While part of the right atrium is anterior, the **right ventricle is significantly more anterior** and occupies the majority of the anterosuperior sternal region [1]. - The **right auricle** is a small, anterior appendage, but the broader chamber occupying this region is the ventricle [1]. *Left atrium* - The **left atrium** is the **most posterior chamber of the heart**, forming the base [1]. - It lies near the esophagus, making it susceptible to compression by an enlarged left atrium. *Left ventricle* - The **left ventricle** forms the **apex of the heart** and is located primarily on the **left and inferior** aspects. - It is not the most anterior structure; the right ventricle is positioned anteriorly to it [1].

Q: What is the most dependent part of the peritoneal cavity in a female in the standing position?

Pouch of Douglas. ***Pouch of Douglas*** - The **rectouterine pouch** (Pouch of Douglas) is the most dependent part of the peritoneal cavity in females when standing. - It lies between the **rectum posteriorly** and the **uterus anteriorly**, extending down to the posterior fornix of the vagina [1]. - Due to gravity, any free fluid in the peritoneal cavity (blood, pus, ascitic fluid) collects here in the upright position. - **Clinical significance:** This is why culdocentesis (needle aspiration through the posterior vaginal fornix) can detect intraperitoneal fluid [1]. *Vesicouterine pouch* - Located between the **uterus posteriorly** and the **bladder anteriorly** [1]. - It is **superior** to the Pouch of Douglas and therefore not the most dependent part. - Fluid would collect in the Pouch of Douglas before reaching this pouch in a standing position. *Paracolic gutter* - The **paracolic gutters** are peritoneal recesses lateral to the ascending and descending colon. - While they can collect fluid, they are **not the lowest point** in the peritoneal cavity in an upright position. - The right paracolic gutter can serve as a pathway for fluid to spread between the pelvis and subphrenic spaces. *None of the options* - This is incorrect as the **Pouch of Douglas** is definitively the most dependent part of the peritoneal cavity in females in the standing position. - It is a well-established anatomical fact taught in all standard anatomy textbooks.

Q: Which testis is typically positioned higher?

Right testis. ***Right testis*** - The **right testis** is commonly positioned slightly higher than the left testis in most males [1]. - This anatomical variation is due to the **left spermatic cord** being inherently longer, which allows the left testis to hang lower. *Left testis* - The **left testis** is typically positioned lower than the right testis. - Its lower position is attributed to the generally **longer left spermatic cord**. *It varies between individuals* - While minor individual variations exist, a consistent pattern of the **right testis** being higher is observed in the majority of males. - The differences in cord length lead to a general trend, not complete randomness in height. *Both are at the same level* - It is uncommon for both testes to be at precisely the **same level**. - The **asymmetrical length** of the spermatic cords makes equal positioning rare.

Q: A person had injury to right upper limb, he is not able to extend fingers but able to extend wrist and elbow. Nerve injured is ?

Posterior interosseous. ***Posterior interosseous*** - This nerve supplies the muscles responsible for **finger extension**, such as the **extensor digitorum**, **extensor indicis**, and **extensor digiti minimi**. - A lesion here would spare wrist and elbow extension because the nerves to the **extensor carpi radialis longus/brevis** and **triceps brachii** branch off the radial nerve proximal to the origin of the posterior interosseous nerve. *Radial* - A more proximal **radial nerve injury** would result in the inability to extend the wrist (leading to **wrist drop**), fingers, and thumb, which is not seen here as wrist extension is preserved. - It also innervates the **triceps brachii**, and a high radial nerve injury would affect elbow extension; this patient can extend their elbow. *Median* - The **median nerve** primarily innervates muscles responsible for **flexion** of the wrist and fingers, as well as **thumb opposition** and **pronation**. - Its injury would not directly lead to an inability to extend the fingers, but rather weakness in flexion and specific thumb movements. *Ulnar* - The **ulnar nerve** innervates most of the **intrinsic hand muscles** and the **flexor carpi ulnaris**, leading to weakness in finger abduction/adduction and flexion of the 4th and 5th digits. - It does not control finger extension, so an injury would not cause this specific deficit.

Q: A surgeon removes a part of the liver located to the left of the falciform ligament. Which segments of the liver are removed?

Segments II & III. ***Segments II & III*** - The liver segments are defined by their **vascular supply** originating from the **portal vein** and **hepatic artery**, and their **biliary drainage** [1]. - The **falciform ligament** separates the **left lobe** of the liver into **medial** and **lateral** sections. The portion to its left corresponds to the lateral left lobe, which includes **segments II and III** [1, 2]. *Segments I & IV* - **Segment I** (`caudate lobe`) is located **posteriorly**, independent of the falciform ligament, and is supplied by both the left and right portal and hepatic arterial systems [1]. - **Segment IV** (`quadrate lobe`) is part of the **medial left lobe** and is situated to the **right of the falciform ligament** [1]. *Segments V & VI* - These segments are located in the **right lobe** of the liver, which is to the **right of the main portal fissure**, and are not associated with the falciform ligament's immediate left. - **Segment V** is **anterior** and **inferior**, and **Segment VI** is **posterior** and **inferior** within the right lobe. *Segments VII & VIII* - These segments are also located in the **right lobe** of the liver, specifically in the **superior** aspects [1]. - **Segment VII** is **posterior** and **superior**, while **Segment VIII** is **anterior** and **superior** in the right lobe, far from the falciform ligament.

Q: Vertebral arteries of both sides unite to form

Basilar artery. Basilar artery - The paired vertebral arteries ascend through the neck via the transverse foramina of cervical vertebrae and enter the skull through the foramen magnum. - At the level of the pontomedullary junction, the two vertebral arteries merge to form a single basilar artery. Anterior spinal artery - The anterior spinal artery is formed by the union of two small branches derived from each vertebral artery near their intracranial origin. - It supplies the anterior two-thirds of the spinal cord, running along the anterior median fissure. Posterior spinal artery - The posterior spinal arteries are typically two vessels, one arising from each vertebral artery (or less commonly from the posterior inferior cerebellar artery). - They supply the posterior one-third of the spinal cord and do not form a single major merged vessel in the brainstem. Medullary artery - There is no single major artery termed the "medullary artery" formed by the union of the vertebral arteries. - The medulla oblongata is supplied by branches directly from the vertebral arteries and the basilar artery, such as the posterior inferior cerebellar artery (PICA) and direct medullary branches.

Q: Type 3 respiratory failure occurs due to ?

Post-operative atelectasis. ***Post-operative atelectasis*** - **Type 3 respiratory failure**, also known as **perioperative respiratory failure**, is characterized by hypoxemia occurring typically after surgery. - **Atelectasis**, the collapse of lung tissue, is a common cause of hypoxemia in the post-operative period due to shallow breathing, pain, and anesthesia affecting lung volumes. *Kyphoscoliosis* - This condition leads to a **restrictive lung disease** due to chest wall deformity, causing chronic respiratory failure. [1] - It more typically results in **Type 2 respiratory failure** (hypercapnic) due to impaired ventilation over time. [1] *Flail chest* - Flail chest is a severe chest wall injury causing paradoxical movement, leading to **acute respiratory failure**. - It is often associated with **Type 1 (hypoxemic)** or **Type 2 (hypercapnic)** respiratory failure due to trauma-induced lung injury and impaired mechanics. *Pulmonary fibrosis* - This is a progressive interstitial lung disease causing **restrictive ventilatory defect** and impaired gas exchange. - It leads to chronic **Type 1 respiratory failure** (hypoxemic) as the lung tissue becomes stiff and scarred.

Q: P wave is due to:

Atrial depolarization. **Atrial depolarization** - The **P wave** on an electrocardiogram (ECG) represents the electrical activity associated with the **depolarization of the atria**. - This depolarization leads to **atrial contraction**, pushing blood into the ventricles. *Atrial repolarization* - **Atrial repolarization** also occurs but is usually hidden within the **QRS complex** and thus not separately visible as a distinct wave on a standard ECG. - While it's an electrical event, it does not produce the P wave. *Ventricular depolarization* - **Ventricular depolarization** is represented by the **QRS complex** on an ECG. - This electrical activity leads to **ventricular contraction**, pumping blood out of the heart. *Ventricular repolarization* - **Ventricular repolarization** is represented by the **T wave** on an ECG. - This process allows the ventricles to relax and refill with blood.

Q: What is the critical closing pressure in the context of capillary physiology?

Pressure below which capillaries close. ***Pressure below which capillaries close*** - The **critical closing pressure** is the lowest pressure at which blood can flow through a capillary. - When the luminal pressure falls below this threshold, the capillary collapses due to **extrinsic tissue pressure** and intrinsic vascular tone. *Arterial pressure minus venous pressure* - This calculation represents the **arteriovenous pressure gradient**, which drives blood flow through a vascular bed. - It does not directly define the point at which capillaries collapse. *Capillary pressure minus venous pressure* - This difference primarily influences filtration and reabsorption of fluids across the capillary wall. - It is not directly related to the **critical closing pressure** of the capillaries. *None of the options* - This is incorrect as one of the provided options accurately defines the **critical closing pressure**.

Q: What is the normal mean velocity of blood flow in the aorta?

40-50 cm/sec. ***40-50 cm/sec*** - This range represents the **normal mean velocity** of blood flow in the **aorta**, reflecting efficient cardiac output and systemic circulation. - Blood flow velocity can vary slightly based on factors like age, cardiac health, and physical activity, but this range is a common physiological benchmark. *100-150 cm/sec* - This velocity is significantly **higher** than normal for mean aortic flow and would typically indicate a state of **hyperdynamic circulation** or specific pathological conditions. - Such elevated velocities might be seen in conditions like severe **aortic stenosis**, where the heart works harder to push blood through a narrowed valve. *200-250 cm/sec* - This range is **pathologically high** for mean aortic blood flow and is not compatible with normal physiological function. - Velocities in this range would strongly suggest a severe **cardiovascular abnormality**, such as critical **aortic stenosis** or a significant **arteriovenous shunt**. *250-300 cm/sec* - This velocity is **extremely high** and far exceeds any normal or even most pathological mean aortic flow rates found in humans. - Such high velocities would likely be associated with a highly turbulent and severely compromised cardiovascular system, potentially leading to **acute circulatory failure**.

Question 1

Which part of the heart is located in the anterosuperior sternal region?

Accepted Answer

Right ventricle.

Answer

Right atrium and auricle.

Answer

Left atrium.

Answer

Left ventricle.

Question 2

What is the most dependent part of the peritoneal cavity in a female in the standing position?

Accepted Answer

Pouch of Douglas

Answer

Vesicouterine pouch

Answer

Paracolic gutter

Answer

None of the options

Question 3

Which testis is typically positioned higher?

Accepted Answer

Right testis

Answer

It varies between individuals

Answer

Left testis

Answer

Both are at the same level

Question 4

A person had injury to right upper limb, he is not able to extend fingers but able to extend wrist and elbow. Nerve injured is ?

Accepted Answer

Posterior interosseous

Answer

Median

Answer

Ulnar

Answer

Radial

Question 5

A surgeon removes a part of the liver located to the left of the falciform ligament. Which segments of the liver are removed?

Accepted Answer

Segments II & III

Answer

Segments I & IV

Answer

Segments V & VI

Answer

Segments VII & VIII

Question 6

Vertebral arteries of both sides unite to form

Accepted Answer

Basilar artery

Answer

Anterior spinal artery

Answer

Posterior spinal artery

Answer

Medullary artery

Question 7

Type 3 respiratory failure occurs due to ?

Accepted Answer

Post-operative atelectasis

Answer

Kyphoscoliosis

Answer

Flail chest

Answer

Pulmonary fibrosis

Question 8

P wave is due to:

Accepted Answer

Atrial depolarization

Answer

Atrial repolarization

Answer

Ventricular depolarization

Answer

Ventricular repolarization

Question 9

What is the critical closing pressure in the context of capillary physiology?

Accepted Answer

Pressure below which capillaries close

Answer

Arterial pressure minus venous pressure

Answer

Capillary pressure minus venous pressure

Answer

None of the options

Question 10

What is the normal mean velocity of blood flow in the aorta?

Accepted Answer

40-50 cm/sec

Answer

100-150 cm/sec

Answer

200-250 cm/sec

Answer

250-300 cm/sec

NEET-PG 2013

Anatomy

Internal Medicine

Physiology