Intestinal absorption of calcium is mainly increased by?
Vitamin D absorption is decreased by ?
Small intestinal peristalsis is controlled by :
Cholecystokinin is produced from:
Somatomedin-C deficiency causes?
Inotropic effect of thyroid hormone is by ?
What is the nature of the relationship between insulin and glucose concentration in the human body?
Which of the following statements about insulin-mediated transport of glucose is correct?
What is the SI unit of luminous intensity?
What is the intensity in decibel of normal conversation in humans?
NEET-PG 2015 - Physiology NEET-PG Practice Questions and MCQs
Question 91: Intestinal absorption of calcium is mainly increased by?
- A. Calcitriol (Correct Answer)
- B. Parathormone
- C. Glucocorticoids
- D. ACTH
Explanation: ***Calcitriol*** - **Calcitriol** (1,25-dihydroxyvitamin D3) is the hormonally active form of vitamin D, which is essential for increasing **calcium absorption** from the intestines. - It stimulates the synthesis of **calcium-binding proteins** in intestinal epithelial cells, facilitating active transport of calcium. *Parathormone* - **Parathormone (PTH)** primarily regulates calcium by increasing its reabsorption in the **kidneys** and stimulating its release from **bones**. - While it indirectly promotes calcitriol synthesis, its *direct* effect on intestinal calcium absorption is minimal compared to calcitriol. *Glucocorticoids* - **Glucocorticoids** generally have an *inhibitory* effect on calcium absorption in the intestine and can also increase renal excretion of calcium. - Prolonged use can lead to **osteoporosis** due to their negative impact on bone formation and calcium balance. *ACTH* - **ACTH (adrenocorticotropic hormone)** primarily stimulates the adrenal cortex to produce **cortisol** and other glucocorticoids. - It has **no direct role** in regulating calcium absorption from the intestines.
Question 92: Vitamin D absorption is decreased by ?
- A. Proteins
- B. Acid
- C. Lactose
- D. Fat malabsorption (Correct Answer)
Explanation: ***Fat malabsorption*** - **Vitamin D** is a **fat-soluble vitamin**, meaning it requires dietary fat for proper absorption in the small intestine. - Conditions causing **fat malabsorption**, such as **cystic fibrosis**, **celiac disease**, or **pancreatic insufficiency**, significantly reduce the uptake of vitamin D. *Proteins* - **Proteins** do not directly decrease vitamin D absorption; in fact, some dietary proteins can enhance vitamin D binding and transport in the bloodstream. - Their primary role is in structural and enzymatic functions, not impeding fat-soluble vitamin uptake. *Acid* - **Gastric acid** is important for the absorption of some nutrients, but it generally does not directly hinder the absorption of **fat-soluble vitamins** like vitamin D. - Conditions like **achlorhydria** primarily affect the absorption of minerals and vitamin B12, rather than vitamin D. *Lactose* - **Lactose** is a sugar found in milk, and its malabsorption (lactose intolerance) primarily causes gastrointestinal symptoms like bloating and diarrhea. - It does not directly interfere with the absorption of **fat-soluble vitamins**; rather, it affects carbohydrate digestion.
Question 93: 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 94: 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.
Question 95: Somatomedin-C deficiency causes?
- A. Growth retardation (Correct Answer)
- B. Genetic dwarfism
- C. Congenital hypothyroidism
- D. Type 1 diabetes mellitus
Explanation: ***Growth retardation*** - **Somatomedin-C** (also known as **Insulin-like Growth Factor 1 or IGF-1**) is a crucial mediator of **growth hormone's** effects on growth. - A deficiency in Somatomedin-C, therefore, directly leads to **impaired growth** and **stature**, manifesting as **growth retardation**. *Genetic dwarfism* - This term generally refers to dwarfism caused by various **genetic conditions** (e.g., achondroplasia), which may or may not involve the **growth hormone/IGF-1 axis**. - While Somatomedin-C deficiency can be genetic, "genetic dwarfism" is a broader term and not the most precise answer for the direct consequence. *Congenital hypothyroidism* - This condition results from **deficient thyroid hormone production** from birth. - It leads to neurological impairment and **growth failure**, but it is due to **thyroid hormone deficiency**, not Somatomedin-C deficiency. *Type 1 diabetes mellitus* - This is an **autoimmune disease** characterized by the **destruction of pancreatic beta cells**, leading to **insulin deficiency**. - It is entirely unrelated to **Somatomedin-C** or the growth hormone axis.
Question 96: Inotropic effect of thyroid hormone is by ?
- A. Membrane receptors
- B. cAMP
- C. cGMP
- D. Enhancement of Catecholamines (Correct Answer)
Explanation: ***Enhancement of Catecholamines*** - Thyroid hormones **potentiate the effects of catecholamines** (like adrenaline and noradrenaline) on the heart, leading to increased heart rate and contractility, which is an **inotropic effect**. - This occurs by increasing the number and sensitivity of **beta-adrenergic receptors** on cardiac muscle cells. *Membrane receptors* - While thyroid hormones do have some rapid, non-genomic effects that may involve **membrane receptors**, their primary and well-established inotropic effect is mediated indirectly through catecholamine sensitivity. - The classic action of thyroid hormones is via intracellular receptors that modulate gene expression, not direct membrane receptor signaling for inotropic effects. *cAMP* - **cAMP** is a common second messenger for many hormones, particularly those acting via G protein-coupled receptors. - While catecholamines themselves act through cAMP to exert their cardiac effects, thyroid hormones *enhance the action* of catecholamines rather than directly using cAMP as their primary inotropic mechanism. *cGMP* - **cGMP** is a second messenger often associated with nitric oxide signaling and vasodilation, contributing to cGMP-dependent protein kinases. - It is not the primary mediator for the *positive inotropic effect* of thyroid hormones on the heart.
Question 97: What is the nature of the relationship between insulin and glucose concentration in the human body?
- A. Linear
- B. Hyperbola
- C. Sigmoidal (Correct Answer)
- D. Bell Shaped
Explanation: ***Sigmoidal*** - The relationship between insulin and glucose concentration is best described as **sigmoidal**, characterized by a slow initial rise in insulin secretion at low glucose levels, followed by a steep increase at physiological glucose concentrations, and then a plateau at very high glucose levels. - This shape reflects the **beta cell's sensitivity to glucose**, where a minimal threshold of glucose is required to trigger insulin release, and then a maximal release capacity is reached. *Linear* - A **linear relationship** would imply that for every unit increase in glucose, there is a constant, proportional increase in insulin secretion, which is not physiologically accurate. - While insulin secretion does increase with glucose, the rate of increase varies significantly across different glucose concentrations. *Hyperbola* - A **hyperbolic relationship** typically suggests a rapid initial response that then gradually plateaus, often seen in enzyme kinetics. - While there is a plateau in insulin secretion at high glucose levels, the initial phase is not as rapid or proportionally inverse as a hyperbolic function would suggest. *Bell Shaped* - A **bell-shaped curve** describes a relationship where there is an optimal point, and deviations in either direction lead to a decrease in the response (e.g., enzyme activity vs. pH). - This is not characteristic of insulin secretion, as insulin levels generally continue to rise or plateau at higher glucose concentrations and do not decrease beyond an optimal point.
Question 98: Which of the following statements about insulin-mediated transport of glucose is correct?
- A. Via GLUT-2
- B. Main mechanism in RBCs
- C. Seen in adipose tissue (Correct Answer)
- D. Occurs primarily in the brain
Explanation: ***Seen in adipose tissue*** - **Adipose tissue** and **skeletal muscle** are the primary sites where glucose uptake from the bloodstream is significantly enhanced by insulin. - Insulin stimulates the translocation of **GLUT4 transporters** to the cell membrane in these tissues, increasing glucose entry. *Occurs primarily in the brain* - Glucose uptake into the **brain** is largely **insulin-independent**, primarily mediated by **GLUT1** and **GLUT3 transporters**. - The brain requires a constant supply of glucose and does not rely on insulin to facilitate its entry. *Via GLUT-2* - **GLUT2** is a **low-affinity, high-capacity** glucose transporter primarily found in the **liver**, **pancreatic beta cells**, kidneys, and small intestine. - It allows for rapid equilibration of glucose across membranes but is not directly involved in the **insulin-mediated uptake** seen in peripheral tissues. *Main mechanism in RBCs* - **Red blood cells (RBCs)** primarily use **GLUT1** for glucose transport, which is an **insulin-independent** process. - RBCs do not contain mitochondria and rely on glycolysis for energy, so they require a continuous, insulin-independent supply of glucose.
Question 99: What is the SI unit of luminous intensity?
- A. Candela (Correct Answer)
- B. Lumen
- C. Lux
- D. Coulomb
Explanation: ***Candela*** - The **candela (cd)** is the **SI base unit** used to measure **luminous intensity**. - **Luminous intensity** quantifies the power emitted by a light source in a particular direction per unit solid angle. *Lumen* - The **lumen (lm)** is the **SI derived unit** for **luminous flux**, which measures the total perceived power of light. - It describes the total amount of visible light emitted by a source in all directions, not its intensity in a specific direction. *Lux* - The **lux (lx)** is the **SI derived unit** for **illuminance**, which measures how much luminous flux is spread over a given area. - It indicates the perceived brightness of a surface, rather than the intensity of the light source itself. *Coulomb* - The **coulomb (C)** is the **SI derived unit** for **electric charge**. - It is completely unrelated to light or luminous intensity.
Question 100: What is the intensity in decibel of normal conversation in humans?
- A. 30dB
- B. 60dB (Correct Answer)
- C. 90dB
- D. 150dB
Explanation: ***60dB*** - The sound intensity of **normal human conversation** is typically around **60 decibels (dB)**. - This level is considered **moderate** and is comfortably audible without causing discomfort or hearing damage. *30dB* - A sound intensity of **30dB** is characteristic of a **quiet whisper** or a **soft rustle of leaves**. - This level is much **quieter** than a normal conversation and would require closer proximity to be clearly heard. *90dB* - **90dB** represents a significantly **louder sound**, comparable to that of a **lawnmower** or a **heavy truck** passing by. - Prolonged exposure to sounds at this intensity can start to cause **hearing damage**. *150dB* - **150dB** is an **extremely loud** and potentially **painful** sound level, similar to a **jet engine at takeoff** or a **firecracker** exploding nearby. - Exposure to sounds this intense can cause **immediate and permanent hearing loss**.