Internal Medicine
2 questionsIn axillary nerve paralysis, which of the following statements is false?
Tuberculosis of the spine; what is the most common site affected?
NEET-PG 2012 - Internal Medicine NEET-PG Practice Questions and MCQs
Question 1001: In axillary nerve paralysis, which of the following statements is false?
- A. Extension of shoulder with arm abducted to 90 degrees is impossible (Correct Answer)
- B. Deltoid muscle is wasted
- C. Small area of numbness is present over the shoulder region
- D. Patient cannot initiate abduction
Explanation: Extension of shoulder with arm abducted to 90 degrees is impossible - The **axillary nerve** primarily innervates the **deltoid** and **teres minor muscles**. [2] - While axillary nerve paralysis would affect abduction and external rotation, the ability to *extend* the shoulder from an abducted position is mainly a function of muscles like the **posterior deltoid** (also innervated by axillary nerve to varying degrees) and latissimus dorsi, and its impossibility is not a definitive and exclusive sign of axillary nerve paralysis, as other muscles contribute to extension. *Deltoid muscle is wasted* - The **deltoid muscle** is the principal muscle supplied by the **axillary nerve**. [2] - Paralysis leads to **denervation atrophy**, causing visible wasting and weakness of the deltoid. [1] *Small area of numbness is present over the shoulder region* - The **axillary nerve** gives rise to the **upper lateral cutaneous nerve of the arm**. - Damage to the nerve results in sensory loss in a small, circumscribed area over the **deltoid insertion**. [2] *Patient cannot initiate abduction* - The **deltoid muscle**, innervated by the **axillary nerve**, is the primary abductor of the arm after the initial 0-15 degrees (supraspinatus). [2] - Paralysis of the deltoid significantly impairs or prevents the initiation and execution of **shoulder abduction**.
Question 1002: Tuberculosis of the spine; what is the most common site affected?
- A. Sacral
- B. Dorsolumbar (Correct Answer)
- C. Lumbosacral
- D. Cervical
Explanation: ***94ed055d-c7da-4d18-a2fd-52720dfe8b6e*** - The **dorsolumbar (thoracolumbar)** region is the most common site of **spinal tuberculosis (Pott's disease)** [1] due to its high vascularity, facilitating hematogenous spread. - **Spinal tuberculosis** typically affects the vertebral bodies, leading to their destruction, kyphosis (angular deformity), and potentially neurological deficits [1]. *aebdfe6c-98dc-4073-892f-bb24d047bab4* - The **sacral** region can be affected by **tuberculosis**, but it is considerably less common than the thoracolumbar region. - Involvement of the sacrum is often associated with **direct extension** from adjacent structures, such as the sacroiliac joint, rather than primary vertebral involvement. *15c1feef-e3ca-496f-a180-127d52b77bfa* - **Cervical spine tuberculosis** is relatively rare, accounting for a small percentage of all spinal tuberculosis cases. - While possible, it presents with specific challenges due to the proximity of vital neurological and vascular structures. *d05d4d13-bb83-4f26-aa2d-c9c0203d299c* - The **lumbosacral region** (L5-S1) can be involved in **tuberculosis**, but it is less frequently affected than the thoracolumbar region. - While the lumbar spine is a common site, the entire lumbosacral region as a single entity is not the most common spot for spinal TB.
Orthopaedics
5 questionsWhat is a Pulled Elbow?
How is the degree of deformity in scoliosis calculated?
What is the primary pathology associated with Congenital Dislocation of the Hip (CDH)?
In neglected cases of CTEV, which joints are fused?
What is the primary reason for early stabilization of a femur shaft fracture?
NEET-PG 2012 - Orthopaedics NEET-PG Practice Questions and MCQs
Question 1001: What is a Pulled Elbow?
- A. Subluxation of proximal radio ulnar joint
- B. Complete separation of the elbow joint
- C. No injury present
- D. Partial dislocation of the radial head (Correct Answer)
Explanation: ***Partial dislocation of the radial head*** - A pulled elbow, also known as **nursemaid's elbow**, specifically refers to a **subluxation of the radial head** from the annular ligament. - This injury typically occurs in young children when their arm is suddenly pulled or jerked, causing the **radial head** to slip out of the **annular ligament**. *Complete separation of the elbow joint* - A complete separation of the elbow joint would involve a **full dislocation** of the humeroulnar or humeroradial joints, a much more severe injury than a pulled elbow. - This would present with more significant deformity and instability compared to the subtle presentation of a pulled elbow. *Subluxation of proximal radio ulnar joint* - While the injury involves the radius and ulna, the specific subluxation in a pulled elbow is that of the **radial head** at the **humero-radial joint**, not primarily the proximal radio-ulnar joint itself. - The focus is on the annular ligament's integrity around the radial head, rather than direct forces acting on the proximal radio-ulnar articulation. *No injury present* - A pulled elbow is a recognized and common **pediatric orthopedic injury** requiring intervention to reduce the radial head. - The child will typically present with pain, refusal to use the affected arm, and a characteristic holding posture.
Question 1002: How is the degree of deformity in scoliosis calculated?
- A. Hamburger method
- B. Haldane method
- C. Milwaukee method
- D. Cobb's method (Correct Answer)
Explanation: ***Cobb's method*** - This is the **standard radiographic measurement** used to assess the severity of spinal curvature in scoliosis. - It involves drawing lines along the **most tilted vertebrae** at the ends of the curve and measuring the angle formed by their intersection. *Hamburger method* - This is not a recognized method for calculating the degree of deformity in scoliosis. - There is **no established medical or orthopedic technique** bearing this name for scoliosis assessment. *Haldane method* - This method is primarily used in **biochemistry** to describe **enzyme kinetics** and is unrelated to scoliosis measurement. - It describes the relationship between reaction rates and reactant concentrations in biological systems. *Milwaukee method* - The **Milwaukee brace** is a historical type of orthotic device used to treat scoliosis, but it is not a method for calculating the degree of deformity. - While it is associated with scoliosis treatment, it does not involve the measurement of the curve itself.
Question 1003: What is the primary pathology associated with Congenital Dislocation of the Hip (CDH)?
- A. Large head of femur
- B. Shallow acetabulum (Correct Answer)
- C. Excessive retroversion
- D. Coxa vara deformity
Explanation: ***Shallow acetabulum*** - A **shallow or dysplastic acetabulum** is the primary pathological feature in CDH, leading to an unstable or dislocated femoral head. - This anatomical abnormality prevents the femoral head from seating properly, causing **instability** and potential **dislocation**. *Large head of femur* - While femoral head abnormalities can occur, a **disproportionately large femoral head** is not the primary or most common pathological feature causing CDH. - The issue primarily lies with the **acetabular socket** rather than the size of the femoral head itself. *Excessive retroversion* - **Femoral retroversion** (backward twisting of the femoral neck relative to the femoral condyles) can be a contributing factor or an associated finding, but it is not the primary anatomical defect. - The principal pathology is the **inadequate containment** of the femoral head by a poorly formed acetabulum. *Coxa vara deformity* - **Coxa vara** is a deformity where the angle between the head and shaft of the femur is decreased. - While it can be associated with or contribute to hip instability in some conditions, it is not the primary or defining pathological feature of CDH.
Question 1004: In neglected cases of CTEV, which joints are fused?
- A. Calcaneocuboid, talonavicular, and talocalcaneal joints (Correct Answer)
- B. Tibiotalar, calcaneocuboid, and talonavicular joints
- C. None of the above joints
- D. Ankle joint, calcaneocuboid, and talonavicular joints
Explanation: ***Calcaneocuboid, talonavicular, and talocalcaneal joints*** - In neglected cases of **clubfoot (CTEV)**, a **triple arthrodesis** is performed to correct the deformity. - This procedure involves the fusion of the **subtalar (talocalcaneal)**, **talonavicular**, and **calcaneocuboid joints** to provide a stable, plantigrade foot. *Tibiotalar, calcaneocuboid, and talonavicular joints* - The **tibiotalar joint (ankle joint)** is generally preserved in triple arthrodesis for CTEV to maintain ankle motion. - Fusing the tibiotalar joint would significantly **reduce ankle dorsiflexion and plantarflexion**, leading to a stiff ankle. *None of the above joints* - This option is incorrect because the fusion of specific joints is a recognized surgical treatment for severe, neglected CTEV. - **Triple arthrodesis** is a well-established procedure for correcting rigid foot deformities. *Ankle joint, calcaneocuboid, and talonavicular joints* - As mentioned, fusion of the **ankle joint (tibiotalar joint)** is generally avoided in triple arthrodesis for CTEV to preserve functional ankle motion. - The goal is to stabilize the foot while retaining as much articulation as possible in the ankle itself.
Question 1005: What is the primary reason for early stabilization of a femur shaft fracture?
- A. To prevent significant blood loss.
- B. To reduce pain and discomfort.
- C. To facilitate quicker healing.
- D. To prevent fat embolism syndrome and systemic complications (Correct Answer)
Explanation: ***To prevent fat embolism syndrome and systemic complications*** - Early stabilization of femur shaft fractures significantly **reduces the incidence of fat embolism syndrome (FES)**. Fat emboli released from the bone marrow can travel to the lungs and brain, causing severe respiratory distress and neurological deficits. - By stabilizing the fracture, the **release of fat globules is minimized**, thereby preventing FES and associated systemic complications such as acute respiratory distress syndrome (ARDS) and adult respiratory distress syndrome (ADRS). *To prevent significant blood loss.* - While femur fractures can cause significant blood loss, the primary reason for early stabilization is not solely to prevent it but to reduce complications. **Blood loss is a direct consequence**, but FES poses a greater immediate threat to life. - Furthermore, **blood loss can often be managed initially by other means**, such as fluid resuscitation and direct pressure, while FES requires prompt reduction of fracture movement. *To reduce pain and discomfort.* - Reducing pain and discomfort is an important benefit of stabilization, but it is **not the primary life-saving reason** for early intervention. Analgesics and proper splinting can also address pain. - The focus on early stabilization goes beyond symptomatic relief to actively prevent **potentially fatal systemic complications**. *To facilitate quicker healing.* - While stability is crucial for proper healing, **early stabilization primarily addresses acute, life-threatening complications** rather than long-term healing rates. Optimal healing depends on many factors, including blood supply and infection control, not solely on initial stabilization. - **Quicker healing is a secondary benefit**; the immediate priority is to prevent acute morbidity and mortality associated with the fracture.
Pathology
1 questionsIn which condition is pannus formation typically observed?
NEET-PG 2012 - Pathology NEET-PG Practice Questions and MCQs
Question 1001: In which condition is pannus formation typically observed?
- A. RA (Correct Answer)
- B. Osteoarthritis (OA)
- C. Gout (Gouty Arthritis)
- D. Psoriatic Arthritis (PsA)
Explanation: ***RA*** - **Pannus** is a characteristic feature of **rheumatoid arthritis**, representing an aggressive, hyperplastic synovial tissue that invades and destroys cartilage and bone [1], [2]. - This destructive granulation tissue primarily consists of fibroblasts, macrophages, and inflammatory cells, contributing to joint erosion [1]. *Osteoarthritis (OA)* - While **osteophytes** (bone spurs) and **cartilage degradation** are hallmarks of OA, **pannus formation** is not seen. - OA involves breakdown of articular cartilage due to mechanical stress and biochemical changes, not synovial invasion. *Gout (Gouty Arthritis)* - Gout is characterized by the deposition of **monosodium urate crystals** in joints, leading to acute inflammation [4]. - The formation of **tophi** (urate crystal deposits) is typical, but not **pannus** [4]. *Psoriatic Arthritis (PsA)* - PsA can cause joint inflammation and erosion similar to RA but does not typically involve the extensive **pannus formation** characteristic of RA [3]. - Specific features of PsA include **enthesitis**, dactylitis and involvement of **DIP joints** [3]. **References:** [1] Cross SS. Underwood's Pathology: A Clinical Approach. 6th ed. Common Clinical Problems From Osteoarticular And Connective Tissue Disease, pp. 677-678. [2] Kumar V, Abbas AK, et al.. Robbins and Cotran Pathologic Basis of Disease. 9th ed. Bones, Joints, and Soft Tissue Tumors, p. 1212. [3] Kumar V, Abbas AK, et al.. Robbins and Cotran Pathologic Basis of Disease. 9th ed. Bones, Joints, and Soft Tissue Tumors, pp. 1214-1215. [4] Kumar V, Abbas AK, et al.. Robbins and Cotran Pathologic Basis of Disease. 9th ed. Bones, Joints, and Soft Tissue Tumors, p. 1218.
Radiology
1 questionsWhich of the following conditions is least likely to cause posterior scalloping of the vertebrae?
NEET-PG 2012 - Radiology NEET-PG Practice Questions and MCQs
Question 1001: Which of the following conditions is least likely to cause posterior scalloping of the vertebrae?
- A. Astrocytoma
- B. Neurofibromatosis
- C. Ependymoma
- D. Aortic aneurysm (Correct Answer)
Explanation: ***Aortic aneurysm*** - An **aortic aneurysm** is located **anterior to the vertebral column** and primarily affects the anterior aspect of the vertebral bodies, causing **anterior scalloping** due to chronic pulsatile erosion, not posterior scalloping. - Posterior scalloping requires intraspinal pathology that expands the spinal canal from within; an aortic aneurysm is extraspinal and anterior, making it the **least likely** cause of posterior scalloping. *Neurofibromatosis* - **Neurofibromatosis** commonly causes posterior vertebral scalloping due to **dural ectasia** (widening of the dural sac) and pressure erosion from expanding neurofibromas within the spinal canal. - This condition is also associated with paraspinal masses, posterior vertebral body erosion, and scoliosis. *Astrocytoma* - An **intramedullary astrocytoma** within the spinal cord can lead to expansion of the cord that causes chronic pressure on the posterior vertebral bodies from within the spinal canal. - This slow-growing intraspinal tumor gradually remodels the bone, causing posterior scalloping. *Ependymoma* - Similar to astrocytoma, an **intramedullary ependymoma** (the most common primary intramedullary tumor in adults) can enlarge the spinal cord, leading to pressure erosion on the posterior vertebral bodies. - This is a characteristic feature of slowly growing intraspinal masses, which cause remodeling of the bony spinal canal.
Surgery
1 questionsVolkmann's contracture: which artery is involved in this condition?
NEET-PG 2012 - Surgery NEET-PG Practice Questions and MCQs
Question 1001: Volkmann's contracture: which artery is involved in this condition?
- A. Radial
- B. Ulnar
- C. Brachial artery (Correct Answer)
- D. Anterior interosseous artery
Explanation: ***Brachial artery*** - **Volkmann's contracture** is an ischemic contracture of the forearm muscles, classically caused by injury or compression of the **brachial artery** - The most common cause is **supracondylar fracture of the humerus** in children, which can damage or compress the brachial artery - Brachial artery injury → **forearm ischemia** → **compartment syndrome** in the anterior (flexor) compartment → muscle necrosis → **ischemic contracture** - The **brachial artery** is the main arterial supply to the forearm, and its compromise leads to the widespread ischemia necessary for Volkmann's contracture - **Clinical features**: Flexion deformity of the wrist and fingers, claw hand, sensory loss in the distribution of median and ulnar nerves *Anterior interosseous artery* - The **anterior interosseous artery** is a branch of the common interosseous artery (from the ulnar artery) that supplies deep forearm muscles - While it contributes to forearm circulation, **isolated injury** to this smaller branch vessel does not typically cause the extensive ischemia required for Volkmann's contracture - The primary vascular pathology in Volkmann's contracture involves the **main arterial trunk** (brachial artery), not its distal branches *Radial* - The **radial artery** is one of the two terminal branches of the brachial artery in the forearm - It primarily supplies the **lateral compartment** and contributes to hand circulation - Isolated radial artery injury does not cause Volkmann's contracture, as the ulnar artery provides collateral circulation - The pathology requires compromise of the **main arterial supply** proximal to the forearm *Ulnar* - The **ulnar artery** is the other terminal branch of the brachial artery - It supplies the **medial forearm** and hand - Similar to radial artery, isolated ulnar artery injury has collateral compensation from the radial artery - Volkmann's contracture requires **proximal arterial compromise** (brachial artery level) affecting the entire forearm blood supply