Anatomy
2 questionsWhich of the following statements regarding axillary lymph nodes is incorrect?
What is the approximate ratio of connective tissue to smooth muscle in the cervix?
NEET-PG 2013 - Anatomy NEET-PG Practice Questions and MCQs
Question 431: Which of the following statements regarding axillary lymph nodes is incorrect?
- A. Posterior group lies along subscapular vessels
- B. Lateral group lies along lateral thoracic vessels (Correct Answer)
- C. Apical group is terminal lymph nodes
- D. Apical group lies along axillary vessels
Explanation: ***Lateral group lies along lateral thoracic vessels*** - The **lateral group** of axillary lymph nodes is located along the **axillary vein**, receiving lymph primarily from the upper limb [1]. - The **lateral thoracic vessels** are associated with the central and posterior groups of axillary lymph nodes, not the lateral group. *Posterior group lies along subscapular vessels* - The **posterior (subscapular) group** of axillary lymph nodes is indeed located along the **subscapular vessels**. - This group receives lymph from the posterior wall of the trunk and the posterior shoulder region. *Apical group is terminal lymph nodes* - The **apical group** (also known as the subclavian group) is considered the **terminal lymph nodes** of the axilla. - Lymph from all other axillary nodes eventually drains into the apical group before continuing to the supraclavicular nodes and then into the subclavian lymphatic trunk [2]. *Apical group lies along axillary vessels* - The **apical group** of axillary lymph nodes is situated in the apex of the axilla, superior to the pectoralis minor muscle, and lies in close proximity to the **axillary vessels** [1]. - This location allows it to receive lymph from other axillary groups and drain into the supraclavicular lymph nodes.
Question 432: What is the approximate ratio of connective tissue to smooth muscle in the cervix?
- A. 2:1
- B. 5:1
- C. 15:1
- D. Approximately 8:1 (Correct Answer)
Explanation: ***Approximately 8:1*** - The **cervix** is predominantly composed of **fibrous connective tissue**, which provides its structural integrity and rigidity [1]. - This high ratio of **collagenous connective tissue** to smooth muscle is crucial for maintaining pregnancy and undergoing significant remodeling during parturition [1]. - The approximate ratio is **8:1 to 10:1**, with connective tissue forming about 85-90% of cervical tissue [1]. *2:1* - This ratio would imply a significantly higher proportion of **smooth muscle** (33%), making the cervix much more muscular and less fibrous than it actually is. - Such a composition would compromise the cervical function of maintaining a **closed uterine orifice** during pregnancy. *5:1* - While higher than 2:1, this ratio still underestimates the true dominance of **connective tissue** in the cervical structure. - The **cervix's mechanical properties**, including its ability to resist stretching, are primarily due to its abundant collagen content. *15:1* - This ratio overestimates the proportion of connective tissue, suggesting less than 7% smooth muscle. - While the cervix is indeed fibrous, it does contain a modest amount of **smooth muscle** (10-15%) particularly in the internal os region, making this ratio too extreme [1].
Biochemistry
5 questionsWhich vitamin is primarily associated with the antioxidant properties of glutathione?
Which of the following statements about vitamin E is false?
Which vitamin is primarily involved in redox reactions?
Which is not a dietary fiber ?
Which of the following is activated by calmodulin?
NEET-PG 2013 - Biochemistry NEET-PG Practice Questions and MCQs
Question 431: Which vitamin is primarily associated with the antioxidant properties of glutathione?
- A. Vitamin E
- B. Niacin (Correct Answer)
- C. Vitamin C
- D. Vitamin A
Explanation: ***Niacin*** - **Niacin** (Vitamin B3) is the vitamin most directly associated with glutathione's antioxidant properties - Niacin is a precursor to **NAD+** and **NADP+**, which are converted to **NADPH** - **NADPH is the essential cofactor** for **glutathione reductase**, the primary enzyme that reduces oxidized glutathione (GSSG) back to its active reduced form (GSH) - This NADPH-dependent enzymatic pathway is the **main mechanism** for maintaining the body's glutathione antioxidant system - Without adequate niacin → NADPH, glutathione cannot be efficiently regenerated *Vitamin C* - **Vitamin C** can non-enzymatically reduce GSSG to GSH, providing a **secondary backup mechanism** - While vitamin C does support glutathione regeneration, this is an **indirect, non-enzymatic process** - It acts as an antioxidant itself but is not the primary vitamin associated with glutathione's antioxidant function *Vitamin E* - **Vitamin E** is a **lipid-soluble antioxidant** that primarily protects cell membranes from oxidative damage - Works synergistically with other antioxidants but has **no direct role** in glutathione synthesis or regeneration *Vitamin A* - **Vitamin A** (retinol) is crucial for vision, immune function, and cell differentiation - Has some antioxidant properties as a carotenoid derivative but **no direct involvement** in glutathione metabolism
Question 432: Which of the following statements about vitamin E is false?
- A. Act as antioxidant
- B. Chemically tocopherol
- C. Water soluble vitamin (Correct Answer)
- D. Prevent lipid peroxidation of cell membrane
Explanation: ***Water soluble vitamin*** - This statement is false because **vitamin E** is a **fat-soluble vitamin**, meaning it dissolves in lipids and is stored in the body's fatty tissues and liver. - Its absorption requires the presence of dietary fat and bile salts, unlike water-soluble vitamins. *Act as antioxidant* - **Vitamin E** is a powerful **lipid-soluble antioxidant**, protecting cell membranes from damage by scavenging **free radicals**. - It helps prevent **oxidative damage** to polyunsaturated fatty acids within cell membranes. *Chemically tocopherol* - The most biologically active form of **vitamin E** is **alpha-tocopherol**, although vitamin E encompasses a group of eight fat-soluble compounds, including tocopherols and tocotrienols. - This term correctly identifies the chemical nature of the prominent forms of vitamin E. *Prevent lipid peroxidation of cell membrane* - As an **antioxidant**, **vitamin E** specifically interferes with the **propagation of lipid peroxidation**, a chain reaction that damages cell membranes by oxidizing their lipid components. - It donates an electron to **free radicals**, thereby neutralizing them and protecting the integrity of the cell membrane.
Question 433: Which vitamin is primarily involved in redox reactions?
- A. Pyridoxine
- B. Biotin
- C. Folic acid
- D. Riboflavin (Correct Answer)
Explanation: ***Riboflavin*** - **Riboflavin** (Vitamin B2) is a precursor to **flavin adenine dinucleotide (FAD)** and **flavin mononucleotide (FMN)**, which are crucial coenzymes in many **redox reactions**. - These coenzymes act as electron carriers in metabolic pathways, including the **electron transport chain**, where they accept and donate electrons. *Pyridoxine* - **Pyridoxine** (Vitamin B6) is primarily involved in **amino acid metabolism**, including transamination, decarboxylation, and racemization. - It functions as **pyridoxal phosphate (PLP)**, a coenzyme for many enzymes in these pathways, but not directly in redox reactions. *Biotin* - **Biotin** (Vitamin B7) is a coenzyme for **carboxylase enzymes**, which are involved in carboxylation reactions (addition of a carboxyl group). - Its main roles are in **fatty acid synthesis**, gluconeogenesis, and leucine metabolism, not direct redox reactions. *Folic acid* - **Folic acid** (Vitamin B9) is essential for **one-carbon metabolism**, involved in transferring one-carbon units in the synthesis of nucleotides (DNA/RNA) and amino acids. - It functions as **tetrahydrofolate (THF)**, playing a critical role in cell division and growth, but not as a direct redox agent.
Question 434: Which is not a dietary fiber ?
- A. Lignin
- B. Pectin
- C. Cellulose
- D. Lactulose (Correct Answer)
Explanation: ***Lactulose*** - **Lactulose is NOT a dietary fiber** - it is a synthetic disaccharide used pharmaceutically as an osmotic laxative and for treating hepatic encephalopathy. - Unlike true dietary fibers, lactulose is a manufactured drug, not a naturally occurring food component. - While it is fermented by colonic bacteria (similar to fiber), it does not meet the definition of dietary fiber. *Lignin* - Lignin is a complex aromatic polymer that provides structural support to plant cell walls. - It is classified as a non-polysaccharide dietary fiber that is largely indigestible by human enzymes. - Contributes to fecal bulk and is considered an insoluble fiber. *Pectin* - Pectin is a soluble dietary fiber found naturally in fruits, particularly in apple peels and citrus fruits. - Forms a gel when mixed with water, slowing gastric emptying and aiding digestion. - Beneficial for gut health and blood glucose regulation. *Cellulose* - Cellulose is the most abundant dietary fiber and a major structural component of plant cell walls. - An insoluble fiber composed of β-1,4-linked glucose polymers that cannot be digested by human enzymes. - Contributes to stool bulk and promotes regular bowel movements.
Question 435: Which of the following is activated by calmodulin?
- A. Muscle phosphorylase
- B. Calcium/calmodulin-dependent protein kinase (Correct Answer)
- C. Phospholipase C
- D. Adenylyl cyclase
Explanation: ***Calcium/calmodulin-dependent protein kinase*** - **Calmodulin** is a **calcium-binding messenger protein** that, when bound to calcium, undergoes a conformational change allowing it to activate various enzymes, including **calcium/calmodulin-dependent protein kinases** (CaMKs). - CaMKs play crucial roles in many cellular processes, including **metabolism**, **gene expression**, and **neurotransmission**, by phosphorylating target proteins. *Muscle phosphorylase* - **Muscle phosphorylase** (glycogen phosphorylase) is primarily activated by **epinephrine**, **AMP**, and **nerve stimulation** (via calcium), but not directly by calmodulin. - Its activation leads to the breakdown of **glycogen** into glucose-1-phosphate. *Phospholipase C* - **Phospholipase C (PLC)** is typically activated by **G protein-coupled receptors** and **tyrosine kinase receptors**, leading to the production of **inositol trisphosphate (IP3)** and **diacylglycerol (DAG)**. - While it plays a role in calcium signaling upstream (releasing calcium from stores), it is not directly activated by calmodulin. *Adenylyl cyclase* - **Adenylyl cyclase (AC)** is a key enzyme in generating **cyclic AMP (cAMP)**, and is commonly regulated by **G proteins** (specifically Gs and Gi subunits). - While certain isoforms (AC1, AC3, AC8) can be directly activated by calcium/calmodulin, **CaMK** remains the most classical and direct example of calmodulin activation.
Physiology
3 questionsOssicles of middle ear are responsible for which of the following ?
Which of the following stimuli is detected by the vestibular macula?
Which of the following is responsible for localization of sound ?
NEET-PG 2013 - Physiology NEET-PG Practice Questions and MCQs
Question 431: Ossicles of middle ear are responsible for which of the following ?
- A. Amplification of sound intensity
- B. Reduction of sound intensity
- C. Protecting the inner ear
- D. Reduction of impedance for sound transmission (Correct Answer)
Explanation: ***Reduction of impedance for sound transmission*** - The ossicles (malleus, incus, and stapes) act as a **lever system** to match the impedance between the air-filled outer ear and the fluid-filled inner ear. - This impedance matching ensures that maximum sound energy is transferred to the cochlea, preventing significant **sound reflection**. *Amplification of sound intensity* - While the ossicles do slightly amplify the sound pressure, their primary role is not extensive amplification but rather **impedance matching**. - The amplification achieved is a byproduct of efficient energy transfer, rather than a direct goal of increasing sound intensity for its own sake. *Reduction of sound intensity* - This function is primarily attributed to the **acoustic reflex**, where the middle ear muscles contract to stiffen the ossicular chain in response to loud sounds. - The primary function of the ossicles themselves is to transmit sound efficiently, not to reduce intensity under normal conditions. *Protecting the inner ear* - While the **acoustic reflex** (involving middle ear muscles attached to the ossicles) offers some protection against very loud sounds by stiffening the ossicular chain, this is a separate, reflexive mechanism. - The intrinsic structure and primary mechanical function of the ossicles are centered on efficient sound transmission, not direct physical protection of the inner ear.
Question 432: Which of the following stimuli is detected by the vestibular macula?
- A. Change in head position
- B. Linear acceleration (Correct Answer)
- C. None of the options
- D. Gravity
Explanation: ***Linear acceleration*** - The **maculae** (in the utricle and saccule) are specifically designed to detect **linear acceleration**, including both dynamic movements (speeding up in a car, elevator motion) and the constant linear acceleration of **gravity**. - Hair cells in the maculae are displaced by movements of the **otolithic membrane** containing **otoconia** (calcium carbonate crystals) in response to linear acceleration forces. - The utricle primarily detects **horizontal linear acceleration**, while the saccule detects **vertical linear acceleration**. *Gravity* - While gravity is indeed detected by the maculae, gravity is actually a form of **constant linear acceleration** (9.8 m/s²). - The maculae use gravity to determine **static head position** and orientation, but this is a subset of their broader function of detecting linear acceleration. - "Linear acceleration" is the more comprehensive and physiologically accurate term. *Change in head position* - This term is too broad and encompasses both **linear** and **angular (rotational)** movements. - **Angular acceleration** (rotation) is detected by the **semicircular canals**, not the maculae. - The maculae specifically detect linear position changes relative to gravity, not rotational changes. *None of the options* - This is incorrect because the vestibular macula clearly detects linear acceleration as its primary function.
Question 433: Which of the following is responsible for localization of sound ?
- A. Cochlear nerve
- B. Cochlea
- C. Superior olivary nucleus (Correct Answer)
- D. Cochlear nuclei
Explanation: ***Superior olivary nucleus*** - The **superior olivary nucleus** is the first site in the auditory pathway where binaural (two-ear) input is integrated, which is crucial for **sound localization**. - It processes **interaural time differences (ITDs)** and **interaural level differences (ILDs)** to determine the horizontal position of a sound source. *Cochlear nerve* - The **cochlear nerve** transmits auditory information from the cochlea to the brainstem but does not perform the initial processing for sound localization. - It carries impulses for both ears independently, which are then integrated at higher centers. *Cochlea* - The **cochlea** is responsible for converting sound vibrations into electrical signals (transduction), encoding properties like pitch and loudness, but not directly for sound localization. - It acts as a mechanical analyzer, separating sound into its frequency components. *Cochlear nuclei* - The **cochlear nuclei** receive input solely from the ipsilateral cochlear nerve and primarily process monaural (one-ear) auditory information. - While they are a crucial relay in the auditory pathway, they do not integrate binaural cues for sound localization.