Anatomy
5 questionsAnal valve is found in which part of anal canal?
Which structures are located anterior to the transverse sinus?
Rouviere nodes are situated in?
Which lymph nodes are involved in the lymphatic drainage of the lateral wall of the nose?
All are lateral branches of the abdominal aorta, EXCEPT which of the following?
NEET-PG 2012 - Anatomy NEET-PG Practice Questions and MCQs
Question 391: Anal valve is found in which part of anal canal?
- A. Lower
- B. At anus
- C. Middle (Correct Answer)
- D. Upper
Explanation: ***Middle*** - The **anal valves** are crescentic folds located at the level of the **pectinate (dentate) line** in the middle portion of the anal canal. - They mark the inferior limit of the **anal columns** and form small recesses called **anal sinuses**. *Lower* - The lower part of the anal canal, below the pectinate line, is lined by **anoderm** and lacks anal valves. - This region is sensitive to pain due to somatic innervation. *At anus* - The anus refers to the external opening and perianal skin, which does not contain anal valves. - The anal canal transitions into the perianal skin at the anocutaneous line. *Upper* - The upper part of the anal canal, above the pectinate line, contains the **anal columns (columns of Morgagni)** but not the anal valves themselves, which are located at the base of these columns. - This region is lined by columnar epithelium and is relatively insensitive to pain.
Question 392: Which structures are located anterior to the transverse sinus?
- A. Right atrium
- B. Left atrium
- C. Right pulmonary artery
- D. Aorta (Correct Answer)
Explanation: ***Aorta*** - The **transverse sinus of the pericardium** is a passage within the pericardial cavity that separates the great arteries (aorta and pulmonary trunk) anteriorly from the atria and great veins posteriorly. - The **ascending aorta** and **pulmonary trunk** are both located anterior to the transverse sinus. - This anatomical relationship is clinically important during cardiac surgery, as the transverse sinus can be used to pass ligatures around the great vessels. *Right atrium* - The **right atrium** is located posterior to the transverse sinus. - It forms part of the posterior wall of the pericardial cavity and receives the superior and inferior venae cavae. - The transverse sinus separates the atria from the anteriorly positioned great arteries. *Left atrium* - The **left atrium** is also positioned posterior to the transverse sinus. - It forms the base of the heart and receives the pulmonary veins. - Like the right atrium, it lies behind the plane of the transverse sinus. *Right pulmonary artery* - The **right pulmonary artery** is a branch of the pulmonary trunk that passes to the right lung. - While the **pulmonary trunk** itself is anterior to the transverse sinus, the **right pulmonary artery** branch courses laterally and posteriorly, passing behind the ascending aorta and superior vena cava. - Therefore, the right pulmonary artery is NOT considered anterior to the transverse sinus in the same way the main great vessels (aorta and pulmonary trunk) are.
Question 393: Rouviere nodes are situated in?
- A. Retropharynx (Correct Answer)
- B. Nasopharyngeal region
- C. Oral region
- D. Supraclavicular region
Explanation: ***Retropharynx*** - Rouviere nodes are a group of **retropharyngeal lymph nodes** located in the space behind the pharynx. - They are clinically significant as they are the **first station of lymphatic drainage** for the nasopharynx and can be involved in cancers of that region. *Nasopharyngeal region* - While Rouviere nodes drain the nasopharynx, they are **located *behind* the nasopharynx** in the retropharyngeal space, not within the nasopharyngeal region itself. - The nasopharynx is the superior part of the pharynx, above the soft palate. *Oral region* - The oral cavity drainage primarily involves **submandibular, submental, and deep cervical lymph nodes**. - Rouviere nodes are not typically involved in the initial lymphatic drainage of the oral region. *Supraclavicular region* - **Supraclavicular nodes** are located above the clavicle in the supraclavicular fossa and represent a distant drainage site. - Involvement of these nodes usually indicates more **advanced disease** or drainage from organs in the chest or abdomen.
Question 394: Which lymph nodes are involved in the lymphatic drainage of the lateral wall of the nose?
- A. Deep cervical nodes
- B. Retropharyngeal nodes
- C. Submandibular nodes
- D. All of the options (Correct Answer)
Explanation: ***All of the options*** - The lymphatic drainage from the **lateral wall of the nose** follows a sequential pathway involving **submandibular nodes**, **retropharyngeal nodes**, and ultimately the **deep cervical nodes**. - This question tests understanding of the complete lymphatic drainage pathway, not just the primary drainage site. - All three node groups are anatomically involved in draining lymph from the lateral nasal wall. **Drainage Pathway:** - **Submandibular nodes** (Primary): The anterior and middle portions of the lateral nasal wall drain primarily to the submandibular lymph nodes. - **Retropharyngeal nodes** (Secondary): The posterior portions of the lateral wall and areas near the nasal pharynx drain to retropharyngeal nodes. - **Deep cervical nodes** (Final pathway): Lymph from both submandibular and retropharyngeal nodes eventually drains into the deep cervical chain, particularly the jugulodigastric and juguloomohyoid nodes. *Why not just one node group?* - The lateral wall of the nose has an extensive lymphatic network with multiple drainage routes. - Different regions of the lateral wall have preferential drainage to different node groups. - Understanding the complete drainage pathway is clinically important for assessing spread of infections and malignancies from the nasal cavity.
Question 395: All are lateral branches of the abdominal aorta, EXCEPT which of the following?
- A. Right testicular artery
- B. Left renal artery
- C. Middle suprarenal artery
- D. Celiac trunk (Correct Answer)
Explanation: ***Celiac trunk*** - The **celiac trunk** is an anterior branch of the abdominal aorta, supplying the foregut derivatives. - It arises from the ventral aspect of the aorta, distinguishing it from lateral branches. *Right testicular artery* - The **testicular arteries** (gonadal arteries) are paired lateral branches of the abdominal aorta. - They arise inferior to the renal arteries and descend to supply the testes in males. *Left renal artery* - The **renal arteries** [1] [3] are large paired lateral branches of the abdominal aorta. - They supply the kidneys [2] and typically arise just inferior to the superior mesenteric artery. *Middle suprarenal artery* - The **middle suprarenal arteries** are paired lateral branches, typically arising directly from the abdominal aorta. - They supply the suprarenal (adrenal) glands [2].
Biochemistry
1 questionsWhich of the following usually require a RNA intermediate for cloning/replication?
NEET-PG 2012 - Biochemistry NEET-PG Practice Questions and MCQs
Question 391: Which of the following usually require a RNA intermediate for cloning/replication?
- A. Cosmids
- B. Retroviruses (Correct Answer)
- C. Plasmids
- D. Transposons
Explanation: ***Retroviruses*** - **All retroviruses require an RNA intermediate** for their replication cycle, making this the correct answer. - Retroviruses have an **RNA genome** that must be **reverse transcribed into DNA** by reverse transcriptase enzyme before integration into the host genome. - The integrated DNA (provirus) is then transcribed back to RNA, which serves both as mRNA for viral proteins and as genomic RNA for new virions. - Examples include **HIV, HTLV**, and other retroviruses that definitively use this RNA → DNA → RNA replication strategy. *Transposons* - This option is **too broad** to be correct. Only **retrotransposons** (Class I transposons) use RNA intermediates via a "copy-and-paste" mechanism involving reverse transcription. - However, **DNA transposons** (Class II) move by a "cut-and-paste" DNA mechanism **without any RNA intermediate**. - Since the question asks what "usually requires" RNA intermediate, and many common transposons (like bacterial Tn5, Tn10) are DNA transposons, this answer is imprecise. *Cosmids* - Cosmids are **hybrid cloning vectors** containing cos sites from bacteriophage lambda combined with plasmid sequences. - They replicate as **DNA plasmids** in bacteria using DNA-dependent DNA polymerase. - No RNA intermediate is involved in their replication mechanism. *Plasmids* - Plasmids are **extrachromosomal circular DNA molecules** that replicate independently within bacterial or yeast cells. - Replication occurs via **DNA-to-DNA synthesis** using DNA polymerase. - No RNA intermediate is required for plasmid propagation.
Microbiology
1 questionsWhat is the most common bacterial cause of multiple sinus tracts resulting from an infection of the great toe?
NEET-PG 2012 - Microbiology NEET-PG Practice Questions and MCQs
Question 391: What is the most common bacterial cause of multiple sinus tracts resulting from an infection of the great toe?
- A. Tuberculosis
- B. Pseudomonas aeruginosa
- C. Staphylococcus aureus
- D. Actinomyces (Correct Answer)
Explanation: ***Actinomyces*** - **Actinomycosis** is known for causing **chronic suppurative infections** with **multiple draining sinus tracts** and characteristic **sulfur granules**. - The causative organism is **Actinomyces israelii**, an anaerobic, gram-positive, filamentous bacterium. - While rare, it can affect bones, leading to **osteomyelitis**, especially in the feet, presenting with these multifocal sinus tracts. *Tuberculosis* - **Tuberculosis of bone** is typically a **monoarticular affection**, often affecting larger joints, and does not commonly present with multiple draining sinus tracts like actinomycosis. - It is more common in the spine (**Pott's disease**) and large weight-bearing joints, rather than solely the great toe with multiple sinuses. *Staphylococcus aureus* - **Staphylococcus aureus** is the most common cause of **acute osteomyelitis** and can lead to draining sinuses. - However, it typically causes **single or localized sinus tracts** rather than the extensive, multiple sinus formation associated with actinomycosis. *Pseudomonas aeruginosa* - **Pseudomonas aeruginosa** is often associated with **osteomyelitis following puncture wounds** through footwear. - While it can cause chronic infections, it is not primarily known for forming the characteristic **multiple, long-standing sinus tracts** seen with Actinomyces.
Physiology
3 questionsWhat is the primary physiological effect of increased 2,3-DPG on hemoglobin?
What does Einthoven's law state regarding the relationship between the electrical potentials of the limb leads?
Which sensory modalities are most directly affected by lesions of the primary somatosensory cortex?
NEET-PG 2012 - Physiology NEET-PG Practice Questions and MCQs
Question 391: What is the primary physiological effect of increased 2,3-DPG on hemoglobin?
- A. Increased affinity of hemoglobin to oxygen
- B. Decreased affinity of hemoglobin to oxygen (Correct Answer)
- C. Left shift of oxygen-hemoglobin dissociation curve
- D. Right shift of oxygen-hemoglobin dissociation curve
Explanation: ***Decreased affinity of hemoglobin to oxygen*** - **2,3-Diphosphoglycerate (2,3-DPG)** binds to the beta subunits of deoxyhemoglobin, stabilizing the **deoxygenated state** and thus **reducing hemoglobin's affinity for oxygen**. - This is the **primary molecular mechanism** by which 2,3-DPG exerts its effect, facilitating **oxygen unloading** in peripheral tissues. - This decreased affinity manifests graphically as a **right shift** in the oxygen-hemoglobin dissociation curve. *Increased affinity of hemoglobin to oxygen* - This is incorrect because 2,3-DPG specifically works to **decrease hemoglobin's affinity** for oxygen, promoting oxygen release. - Increased affinity would mean oxygen is held more tightly, which is counterproductive for **oxygen delivery** to tissues. *Left shift of oxygen-hemoglobin dissociation curve* - A **left shift** indicates **increased affinity** of hemoglobin for oxygen, meaning oxygen is held more tightly. - Since 2,3-DPG decreases affinity, it causes a **right shift**, not a left shift. *Right shift of oxygen-hemoglobin dissociation curve* - While this is the **graphical representation** of 2,3-DPG's effect, it is a **consequence** of the primary molecular mechanism (decreased affinity). - A right shift signifies that for any given partial pressure of oxygen, hemoglobin is **less saturated** with oxygen, reflecting the decreased affinity caused by 2,3-DPG binding.
Question 392: What does Einthoven's law state regarding the relationship between the electrical potentials of the limb leads?
- A. I + III = II (Correct Answer)
- B. I - III = II
- C. I + II + III = 0
- D. I + III = avL
Explanation: ***I + III = II*** - Einthoven's law describes the relationship between the three **bipolar limb leads** (I, II, and III) in an **electrocardiogram (ECG)**. - It states that the electrical potential of Lead II is equal to the sum of the potentials of Lead I and Lead III (Lead II = Lead I + Lead III). - This can also be expressed as **I + III = II**, which is the **correct mathematical representation** of Einthoven's law. *I - III = II* - This equation is **incorrect** and does not represent Einthoven's law. - The correct relationship involves **addition** of Leads I and III, not subtraction. *I + II + III = 0* - This equation is **incorrect** as written with all positive signs. - Einthoven's law can be rearranged as **I + III - II = 0** (not I + II + III = 0). - The equation shown suggests adding all three leads to get zero, which is **mathematically inconsistent** with the correct formulation (I + III = II). *I + III = avL* - This equation is incorrect and does not relate to Einthoven's law. - **avL (augmented vector left)** is one of the augmented unipolar limb leads calculated as: avL = I - (II/2), not as a direct sum of Leads I and III.
Question 393: Which sensory modalities are most directly affected by lesions of the primary somatosensory cortex?
- A. Pain, temperature, and touch
- B. Vibration and proprioception
- C. Localization and two-point discrimination (Correct Answer)
- D. All of the options
Explanation: ***Localization and two-point discrimination*** - Lesions in the **primary somatosensory cortex** (S1) lead to profoundly impaired **discriminative touch**, which includes the ability to precisely localize tactile stimuli and distinguish between two closely spaced points. - These are the **most characteristic deficits** of S1 lesions, representing the cortex's unique role in processing **spatial discrimination and fine sensory analysis**. - S1 is essential for the **integrative functions** that allow precise spatial mapping of sensory inputs. *Pain, temperature, and touch* - Basic touch perception is affected, but **pain and temperature** are primarily mediated by the **spinothalamic tracts** with substantial processing in the thalamus, insular cortex, and anterior cingulate cortex rather than S1. - Crude touch sensation remains relatively preserved with S1 lesions; it is the **discriminative quality** that is lost. - These modalities are NOT the most directly affected by isolated S1 lesions. *Vibration and proprioception* - **Vibration** and **proprioception** are indeed significantly impacted by S1 lesions as S1 receives thalamic projections from the **dorsal column-medial lemniscus (DCML) pathway**. - However, these modalities have substantial **subcortical representation** in the thalamus and can be partially preserved even with cortical damage. - In contrast, **localization and two-point discrimination** are purely cortical functions with no subcortical processing, making them the MOST directly and exclusively dependent on S1 integrity. *All of the options* - This is incorrect because pain and temperature perception is NOT most directly affected by S1 lesions—these are primarily processed by other pathways and cortical areas (spinothalamic system, insular cortex).