What is the caloric requirement for an adult male engaged in heavy physical work?
What is the SI unit of luminous intensity?
What is the intensity in decibel of normal conversation in humans?
Miracle fruit is used to change the taste from?
Osteoclasts have all of the following functions except -
The role of human placental lactogen is :
Antimullerian hormone is secreted by ?
Locking of the knee involves which of the following?
Oxygen consumption increases in pregnancy by
Cardiac output in pregnancy shows significant increase from which week of gestation
NEET-PG 2015 - Physiology NEET-PG Practice Questions and MCQs
Question 101: What is the caloric requirement for an adult male engaged in heavy physical work?
- A. 3500 kcal/d (Correct Answer)
- B. 2000 kcal/d
- C. 2500 kcal/d
- D. 3000 kcal/d
Explanation: ***3500 kcal/d*** - Adult males engaged in **heavy physical work** have significantly higher energy demands due to increased **metabolic expenditure**. - This level of caloric intake is necessary to support physical activity, maintain muscle mass, and prevent weight loss in individuals with demanding occupations. *2000 kcal/d* - This caloric intake is typically recommended for adult females who are **sedentary** or for adult males engaging in light activity, which is insufficient for heavy physical work. - It would likely lead to a **caloric deficit** and weight loss for an individual performing heavy labor. *2500 kcal/d* - This level of intake is more appropriate for moderately active adult males, but it would often be **insufficient** for those performing heavy physical work. - Individuals engaged in heavy labor require additional energy to fuel their intense activities to maintain **energy balance**. *3000 kcal/d* - While a higher intake, 3000 kcal/d might still be **borderline** or insufficient for an adult male engaged in very heavy or sustained physical work. - This value might be appropriate for moderately heavy work, but heavy work often necessitates an even higher **caloric intake** to meet energy demands.
Question 102: 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 103: 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**.
Question 104: Miracle fruit is used to change the taste from?
- A. Sour to Bitter
- B. Sour to Sweet (Correct Answer)
- C. Bitter to Sweet
- D. Salty to Sweet
Explanation: ***Sour to Sweet*** - The **miracle fruit** (Synsepalum dulcificum) contains a glycoprotein called **miraculin**. - Miraculin binds to taste receptors on the tongue and modifies their perception, making **sour foods taste sweet**. *Sour to Bitter* - The primary effect of miracle fruit is to convert **sour tastes into sweet tastes**, not bitter ones. - No known natural compound consistently changes sour perception to bitter. *Bitter to Sweet* - While miraculin makes sour foods sweet, it does not typically convert **bitter tastes into sweet sensations**. - Bitter taste perception involves different receptor pathways that are not significantly altered by miraculin. *Salty to Sweet* - Miracle fruit primarily targets **sour taste receptors**. - It does not have a significant effect on altering the perception of **salty tastes to sweet**.
Question 105: Osteoclasts have all of the following functions except -
- A. Receptor for parathormone (Correct Answer)
- B. Ruffled border
- C. Bone resorption
- D. RANK ligand production
Explanation: ***Receptor for parathormone*** - **Osteoclasts** do not directly have receptors for **parathormone (PTH)**; instead, **osteoblasts** have PTH receptors. - When PTH binds to osteoblasts, they release factors (like **RANKL**) that stimulate osteoclast activity, thus indirectly regulating bone resorption. *Bone resorption* - **Osteoclasts** are specialized cells primarily responsible for **resorbing bone matrix**, a critical process in bone remodeling. - They secrete **acids and enzymes** to break down the mineral and organic components of bone. *Ruffled border* - The **ruffled border** is a characteristic morphological feature of active osteoclasts, representing a highly folded plasma membrane. - This specialized structure increases the surface area for the secretion of **protons and lysosomal enzymes** into the bone-resorbing compartment. *RANK ligand production* - **Osteoclasts** do not produce **RANK ligand (RANKL)**; rather, they have **RANK receptors** that bind to RANKL produced by **osteoblasts and stromal cells**. - The binding of RANKL to RANK is essential for the **differentiation, activation, and survival** of osteoclasts.
Question 106: The role of human placental lactogen is :
- A. Stimulate milk production
- B. Promotes growth of breast for lactation.
- C. Supports fetal growth and development. (Correct Answer)
- D. Provide fetal nutrition by antagonizing the action of insulin in maternal circulation, breakdown of fats and proteins and transport of fatty acids and amino acids from maternal to fetal circulation.
Explanation: ***Supports fetal growth and development.*** - Human placental lactogen (hPL) acts as a **growth hormone** for the fetus, primarily by altering maternal metabolism to favor fetal nutrient supply. - It increases **maternal insulin resistance**, leading to higher maternal glucose and free fatty acids, which are then shunted to the fetus, supporting its growth and development. *Stimulate milk production* - **Prolactin**, secreted by the anterior pituitary, is the primary hormone responsible for stimulating milk production (lactogenesis). - While hPL has some structural similarity to growth hormone and prolactin, its primary role is not to directly stimulate milk production during pregnancy; rather, it prepares the breasts. *Promotes growth of breast for lactation.* - hPL, along with **estrogen** and **progesterone**, contributes to the **mammary gland development** during pregnancy, preparing the breasts for lactation. - However, its direct role is more about **mammary gland proliferation and differentiation** rather than initiation of milk production. *Provide fetal nutrition by antagonizing the action of insulin in maternal circulation, breakdown of fats and proteins and transport of fatty acids and amino acids from maternal to fetal circulation.* - This is a highly detailed and largely accurate description of *how* hPL supports fetal growth and development, making it a mechanism rather than the primary, concise role. - It describes the metabolic changes induced by hPL, which ultimately lead to the **support of fetal growth and development**.
Question 107: Antimullerian hormone is secreted by ?
- A. Theca cells
- B. Leydig cells
- C. Both Sertoli cells and granulosa cells (Correct Answer)
- D. None of the above
Explanation: ***Both Sertoli cells and granulosa cells*** - **Antimullerian hormone (AMH)** is produced by **Sertoli cells in males** and **granulosa cells in females** - In **males**: Sertoli cells secrete AMH during fetal development to cause **regression of Müllerian ducts** (which would otherwise develop into uterus, fallopian tubes, and upper vagina) - In **females**: Granulosa cells of developing ovarian follicles secrete AMH, which serves as a **marker of ovarian reserve** and inhibits excessive follicle recruitment - This is the only option that correctly identifies both cell types that produce AMH *Theca cells* - Theca cells are found in ovarian follicles and produce **androgens** (androstenedione and testosterone), not AMH - These androgens are converted to estrogens by granulosa cells via aromatase enzyme - Theca cells do not produce antimullerian hormone *Leydig cells* - Leydig cells are located in the **testes** and produce **testosterone** - They do not produce antimullerian hormone - Only Sertoli cells (not Leydig cells) produce AMH in males *None of the above* - This is incorrect because AMH is indeed produced by specific cell types: **Sertoli cells in males** and **granulosa cells in females**
Question 108: Locking of the knee involves which of the following?
- A. Internal rotation of the tibia with the foot on the ground
- B. Contraction of the popliteus muscle
- C. Internal rotation of the femur with the foot on the ground (Correct Answer)
- D. External rotation of femur with the foot off the ground
Explanation: ***Internal rotation of the femur with the foot on the ground*** - When the foot is on the ground (closed kinematic chain), the **femur rotates internally on the tibia** during the end stages of knee extension. This creates a more stable, "locked" position of the knee. - This **terminal rotation of the femur** increases the contact area and tension in the cruciate ligaments, enhancing joint stability for weight-bearing. *Internal rotation of the tibia with the foot on the ground* - This describes the action of the **popliteus muscle** when "unlocking" the knee from full extension, not the locking mechanism itself. - With the foot on the ground, the tibia is fixed, and internal rotation would typically be a movement for unlocking, not locking. *Contraction of the popliteus muscle* - The **popliteus muscle** is primarily responsible for **unlocking the knee** from full extension, by causing internal rotation of the tibia (or external rotation of the femur). - Its contraction would lead to initial flexion of the knee, releasing the locked position, not establishing it. *External rotation of femur with the foot off the ground* - With the foot off the ground (open kinematic chain), **external rotation of the tibia** occurs during the final degrees of extension to lock the knee, not external rotation of the femur. - The locking mechanism requires specific relative rotation between femur and tibia; external rotation of the femur alone would not achieve the screw-home mechanism necessary for knee locking.
Question 109: Oxygen consumption increases in pregnancy by
- A. 10%
- B. 20% (Correct Answer)
- C. 30%
- D. 40%
Explanation: ***20%*** - During **pregnancy**, the maternal **metabolic rate increases** to support fetal growth and the physiological changes occurring in the mother's body. - This increased metabolic demand leads to a **rise in oxygen consumption** by approximately 20% compared to the non-pregnant state. *10%* - A 10% increase is an **underestimation** of the physiological change in oxygen consumption during pregnancy. - The demands of supporting a growing fetus and increased maternal tissue mass require a more substantial metabolic adjustment. *30%* - While oxygen consumption does increase significantly, a 30% rise is generally considered an **overestimation** of the average increase. - The typical physiological adaptation usually falls within the 15-25% range. *40%* - A 40% increase in oxygen consumption would represent an **extreme physiological demand** that is not typically observed during an uncomplicated pregnancy. - Such a drastic increase might indicate underlying pathology rather than normal adaptation.
Question 110: Cardiac output in pregnancy shows significant increase from which week of gestation
- A. 25 weeks
- B. 35 weeks
- C. 5 weeks
- D. 15 weeks (Correct Answer)
Explanation: ***15 weeks*** - Cardiac output shows a **significant and clinically measurable increase around 10-15 weeks of gestation**, which continues to rise, peaking between **20-28 weeks**. - This rise is primarily due to an increase in both **stroke volume** (increased by 25-30%) and **heart rate** (increased by 10-15 bpm) to meet the metabolic demands of the growing fetus and placenta. - By 15 weeks, cardiac output has typically increased by approximately **20-30% above pre-pregnancy levels**. *5 weeks* - While cardiac output does begin to rise very early in pregnancy (as early as 5-8 weeks), the increase at this stage is **subtle and not yet significant**. - At 5 weeks, the **placental circulation is still in early development**, and the hemodynamic changes are just beginning. - The question asks about **significant increase**, which is not yet established at 5 weeks. *25 weeks* - By 25 weeks, cardiac output has already completed its major rise and is at or near its **peak levels** (40-50% above baseline). - The **significant increase had already occurred** much earlier, around 10-15 weeks. - This timing represents the plateau phase rather than the initial significant increase. *35 weeks* - At 35 weeks, cardiac output remains elevated at near-peak levels but the **major increase happened much earlier** in pregnancy. - By this gestational age, the cardiovascular system has been adapted for months. - There may be minor positional variations (e.g., aortocaval compression in supine position) but no new significant increase occurs.