Gastrointestinal System — MCQs

Gastrointestinal System Indian Medical PG Practice Questions and MCQs

Question 521: Pepsinogen is activated by?

A. H+ (Correct Answer)
B. Gastrin
C. Enterokinase
D. Trypsin

Explanation: ***H+*** - **Pepsinogen**, a zymogen, is activated by the **acidic environment** created by the secretion of **hydrochloric acid (H+)** in the stomach. - The H+ ions cause a conformational change in pepsinogen, leading to the autocatalytic cleavage of a small peptide segment, forming the active enzyme **pepsin**. *Enterokinase* - **Enterokinase** is an enzyme found in the brush border of the small intestine that activates **trypsinogen to trypsin**. - It plays a crucial role in the activation of pancreatic proteases, not gastric pepsinogen. *Gastrin* - **Gastrin** is a hormone that stimulates the secretion of **hydrochloric acid (HCl)** and pepsinogen by the stomach's parietal and chief cells, respectively. - While it *promotes* the conditions for pepsinogen activation, it does not directly activate pepsinogen itself. *Trypsin* - **Trypsin** is a protease found in the small intestine, formed from **trypsinogen** through the action of enterokinase. - Its primary role is to digest proteins and activate other pancreatic zymogens, not gastric pepsinogen.

Question 522: Which of the following statements about iron absorption is false?

A. Major site of absorption is duodenum
B. Absorbed in ferrous form
C. Stored as Ferritin
D. Pancreatic secretions improve the absorption (Correct Answer)

Explanation: ***Pancreatic secretions improve the absorption*** - This statement is **false** because **pancreatic secretions reduce iron absorption** by increasing the pH and contributing to the formation of insoluble iron complexes, making iron less available for mucosal uptake. - Additionally, exocrine pancreatic insufficiency can lead to **iron deficiency**, further supporting the inhibitory role of pancreatic enzymes in high concentrations or altered functionality. *Major site of absorption is duodenum* - The **duodenum** is indeed the **primary site of iron absorption** due to its acidic environment and high concentration of iron transporters. - Iron absorption efficiency progressively decreases distal to the duodenum in the small intestine. *Stored as Ferritin* - Iron is primarily stored in the body, particularly in the liver, spleen, and bone marrow, in the form of **ferritin**, which is a protein complex that sequesters iron. - This storage mechanism prevents **iron toxicity** while allowing for controlled release when needed for erythropoiesis or other metabolic functions. *Absorbed in ferrous form* - Dietary non-heme iron (Fe3+) must be reduced to its **ferrous form (Fe2+)** by **duodenal cytochrome B (Dcytb)** on the brush border for optimal absorption into the enterocyte. - Heme iron, found in meat, is absorbed directly as a porphyrin ring and then broken down, but the majority of dietary iron is non-heme and requires reduction to Fe2+ for uptake.

Question 523: Maximum water reabsorption in the gastrointestinal tract occurs in:

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

Explanation: ***Jejunum*** - The **jejunum** is the site of **maximum water absorption** in the gastrointestinal tract by volume. - Approximately **5-6 liters of water** are absorbed daily in the jejunum, which is the largest absolute amount of any GI segment. - While the jejunum is known primarily for nutrient absorption (carbohydrates, proteins, fats), it handles the bulk of fluid absorption due to the large volume of secretions (saliva, gastric juice, bile, pancreatic juice) entering the upper GI tract. *Colon* - The **colon** absorbs approximately **1-2 liters of water** daily, which is significantly less than the jejunum. - However, the colon is crucial for **concentrating feces** and has high efficiency in water reabsorption (absorbs ~90% of water entering it). - It plays a vital role in final water conservation, but not maximum absolute volume absorption. *Ileum* - The **ileum** absorbs approximately **2-3 liters of water** daily, along with bile acids and vitamin B12. - Its water absorption capacity is important but less than the jejunum. *Stomach* - The **stomach** has minimal water absorption capacity. - Only small amounts of water and certain substances like alcohol are absorbed here. - The stomach primarily functions in digestion and mixing food with gastric secretions.

Question 524: Gastric acid secretion is stimulated by all except-

A. Gastric distension
B. Gastrin
C. Smell of food
D. Somatostatin (Correct Answer)

Explanation: ***Somatostatin*** - **Somatostatin** is a **peptide hormone** that **inhibits** gastric acid secretion by suppressing the release of gastrin and histamine. - It acts as a **negative feedback mechanism** to regulate stomach acid. *Gastric distension* - **Gastric distention** during the **gastric phase** of digestion stimulates the release of **gastrin**, which in turn promotes acid secretion. - This is a local reflex mediated by the **enteric nervous system** and vagal reflexes. *Gastrin* - **Gastrin** is a hormone secreted by **G cells** in the stomach, which directly stimulates **parietal cells** to secrete hydrochloric acid. - It also promotes the growth of the gastric mucosa. *Smell of food* - The **smell of food** initiates the **cephalic phase** of digestion, mediated by the **vagus nerve**. - This **vagal stimulation** directly stimulates parietal cells to secrete acid and also releases **acetylcholine**, which promotes gastrin release.

Question 525: What is the reflex in which there is inhibition of gastric emptying when there is acid and hypertonic solution in the duodenum?

A. Enterogastric (Correct Answer)
B. Gastroileal
C. Gastrocolic
D. Myenteric

Explanation: ***Enterogastric*** - The **enterogastric reflex** is initiated when the duodenum detects the presence of acid and hypertonic solutions, signifying that the chyme is not yet ready for further digestion and absorption. - This reflex inhibits **gastric emptying** to allow more time for the stomach to process its contents and for the duodenum to neutralize the acid and dilute the hypertonic solution. *Gastroileal* - The **gastroileal reflex** increases motility in the ileum when the stomach is distended, facilitating the movement of chyme into the large intestine. - This reflex does not primarily involve the inhibition of gastric emptying due to duodenal contents. *Gastrocolic* - The **gastrocolic reflex** increases the motility of the colon in response to the stretching of the stomach by food. - Its main function is to prepare the large intestine for upcoming chyme and does not directly inhibit gastric emptying. *Myenteric* - The **myenteric plexus** (Auerbach's plexus) is a network of neurons located between the longitudinal and circular layers of the muscularis propria throughout the gastrointestinal tract. - While it plays a crucial role in controlling gut motility and is involved in numerous reflexes, it refers to a neural plexus rather than a specific reflex mechanism for inhibiting gastric emptying due to duodenal stimuli.

Question 526: Small intestinal peristalsis is controlled by :

A. Meissner's plexus
B. Vagus nerve
C. Parasympathetic system
D. Myenteric plexus (Correct Answer)

Explanation: ***Myenteric plexus*** - The **myenteric (Auerbach's) plexus** is located between the longitudinal and circular muscle layers of the muscularis propria and is primarily responsible for **controlling gastrointestinal motility**, including peristalsis. - Its neurons coordinate the contractions and relaxations of these muscle layers to propel contents through the alimentary canal. *Meissners plexus* - The **Meissner's (submucosal) plexus** is located in the submucosa and mainly controls **glandular secretion**, local blood flow, and absorption, rather than muscle motility. - While it subtly influences motility through local reflexes, it is not the primary controller of peristalsis. *Vagus nerve* - The **vagus nerve (cranial nerve X)** provides parasympathetic innervation to the small intestine, modulating activity but not directly initiating or solely controlling peristalsis. - It influences the activity of the enteric nervous system (including the myenteric plexus) but does not itself generate the complex, coordinated patterns of muscle contraction. *Parasympathetic system* - The **parasympathetic nervous system**, through nerves like the vagus, generally **stimulates gastrointestinal motility**, but it acts by modulating the intrinsic enteric nervous system. - The local control and generation of specific peristaltic movements are primarily mediated by the enteric nervous system, especially the myenteric plexus.

Question 527: What is the primary hormonal action of cholecystokinin (CCK) in response to fat and protein in the duodenum?

A. Stimulates gallbladder contraction
B. Inhibits gastric emptying
C. Increases gastric acid secretion
D. Stimulates pancreatic enzyme secretion (Correct Answer)

Explanation: ***Stimulates pancreatic enzyme secretion*** - **Cholecystokinin (CCK)** is released by **I cells** in the duodenum and jejunum in response to **fat and protein** in the small intestine. - CCK's primary actions include stimulating **pancreatic enzyme secretion** (amylase, lipase, proteases) and **gallbladder contraction** to release bile. - Both actions work synergistically to digest fats and proteins, making CCK essential for **enzymatic digestion and fat emulsification**. *Stimulates gallbladder contraction* - This is indeed a **major primary function** of CCK (cholecysto = gallbladder, kinin = movement). - CCK causes gallbladder contraction to release stored bile for fat emulsification. - Both pancreatic enzyme secretion and gallbladder contraction are co-equal primary functions; in exam context, pancreatic enzyme secretion is often prioritized as it reflects the broader digestive enzyme role. *Inhibits gastric emptying* - CCK does slow gastric emptying, but this is a **secondary regulatory effect** rather than a primary hormonal action. - This allows time for proper digestion of fats and proteins in the small intestine. *Increases gastric acid secretion* - **Incorrect.** CCK actually has an **inhibitory effect** on gastric acid secretion. - **Gastrin** is the primary hormone that increases gastric acid secretion from parietal cells.

Question 528: What is the primary function of the myenteric plexus?

A. Regulating GI secretion
B. Regulating local blood flow
C. Regulating motility (Correct Answer)
D. Regulating absorption

Explanation: ***Regulating motility*** - The myenteric plexus, also known as **Auerbach's plexus**, is primarily responsible for coordinating the **rhythmic contractions** and **relaxation of the gastrointestinal (GI) smooth muscle**. - Its strategic location between the **longitudinal and circular muscle layers** allows it to directly influence the strength and frequency of peristalsis, thus regulating the movement of food through the digestive tract. *Regulating GI secretion* - While it has some indirect influence, the **submucosal plexus** (Meissner's plexus) is the primary neural network regulating **secretory functions** of the GI tract. - The myenteric plexus's main role is more directly related to muscle contraction and relaxation rather than glandular secretion. *Regulating local blood flow* - Local blood flow in the GI tract is primarily regulated by the **sympathetic and parasympathetic nervous systems**, along with local metabolic factors and hormones. - The myenteric plexus has a minimal direct role in the control of **GI blood vessel smooth muscle**. *Regulating absorption* - Absorption is primarily a function of the **intestinal epithelial cells** and is regulated by various transport mechanisms, hormones, and local factors. - While the enteric nervous system influences mucosal function indirectly, the myenteric plexus's primary role is **motor control** rather than directly regulating nutrient absorption processes.

Question 529: Lower esophageal sphincter pressure is increased by all of the following substances, EXCEPT:

A. Motilin
B. Gastrin
C. Substance P
D. Secretin (Correct Answer)

Explanation: ***Secretin*** - **Secretin** is a gastrointestinal hormone that *decreases* lower esophageal sphincter (LES) pressure - This hormone is released from S cells in the duodenum in response to acidic chyme - Its primary role is to stimulate the pancreas to release **bicarbonate-rich fluid** to neutralize acidic chyme entering the duodenum - By decreasing LES pressure, it facilitates the passage of gastric contents into the duodenum during digestion *Gastrin* - **Gastrin** is a hormone that *increases* lower esophageal sphincter (LES) pressure - This helps prevent gastroesophageal reflux when the stomach is distended - It also stimulates the secretion of **gastric acid** by parietal cells in the stomach - Released from G cells in the gastric antrum in response to protein ingestion *Motilin* - **Motilin** is a peptide hormone that *increases* lower esophageal sphincter (LES) pressure - It initiates the **migrating motor complex (MMC)** during the interdigestive period - Stimulates gastric and intestinal motility - Released from M cells in the duodenum and jejunum *Substance P* - **Substance P** is a neuropeptide that *increases* lower esophageal sphincter (LES) pressure - Functions as both a neurotransmitter and neuromodulator in the enteric nervous system - Plays a role in **smooth muscle contraction** and gastrointestinal motility - Also involved in pain transmission and inflammatory responses

Question 530: Cholecystokinin is produced from:

A. Hepatocyte
B. Gastric mucosa
C. Duodenal mucosa (Correct Answer)
D. Epithelial cells of distal common bile duct

Explanation: ***Duodenal mucosa*** - **Cholecystokinin (CCK)** is primarily secreted by **I cells**, which are specialized enteroendocrine cells located in the **mucosa of the duodenum** and jejunum. - The release of CCK is stimulated by the presence of **fatty acids** and **amino acids** in the small intestine. *Hepatocyte* - **Hepatocytes** are the main functional cells of the liver, responsible for bile production, metabolism, and detoxification. - They **do not produce regulatory hormones** like cholecystokinin. *Gastric mucosa* - The **gastric mucosa** primarily produces **gastrin**, hydrochloric acid, and pepsinogen, which are involved in gastric digestion. - It does **not secrete cholecystokinin**, which is involved in stimulating gallbladder contraction and pancreatic enzyme release. *Epithelial cells of distal common bile duct* - The **epithelial cells of the common bile duct** are involved in bile transport and modification, but **not in hormone production**. - Their primary role is to line the duct and contribute to the composition of bile.

Practice by Chapter

Gastrointestinal Motility

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Gastrointestinal Secretions

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Digestion and Absorption

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Gastrointestinal Hormones

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Hepatobiliary Physiology

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Pancreatic Exocrine Function

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Gastrointestinal Circulation

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Intestinal Immune System

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Gut Microbiome

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Regulation of Food Intake

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