FMGE 2024 — Orthopaedics
3 Previous Year Questions with Answers & Explanations
The diagnosis in a patient who is unable to perform internal and external rotation of the hip is?
A patient experienced a fall onto an outstretched hand, and an X-ray revealed a fracture of the base of the first metacarpal with accompanying subluxation at the carpometacarpal (CMC) joint. Define this type of fracture.
Identify the type of fracture in a patient who sustained a road traffic accident resulting in fractures of both the tibia and fibula.
FMGE 2024 - Orthopaedics FMGE Practice Questions and MCQs
Question 1: The diagnosis in a patient who is unable to perform internal and external rotation of the hip is?
- A. Dislocation of hip (Correct Answer)
- B. Pelvis fracture
- C. Acetabular fractures
- D. Femur head fracture
Explanation: ***Dislocation of hip***- Inability to perform **internal and external rotation** (both active and passive) is a hallmark sign of a **dislocated joint**, indicating mechanical blockage due to the displacement of the **femoral head** from the acetabulum.- Hip dislocations (especially posterior) present with severe pain and a **fixed deformity** (usually internal rotation, adduction, and mild flexion), which mechanically prevents any rotary movement.*Femur head fracture*- While a **femur head fracture** causes severe pain and guarded movement, it typically allows some rotation, provided the displacement is not severe enough to cause mechanical locking within the joint.- Differentiating features usually include shortening and **external rotation** of the limb (in displaced fractures), but complete mechanical block of all rotation is less specific than in frank dislocation.*Acetabular fractures*- These fractures cause gross instability and pain, but motion may still be present unless the fracture fragments are severely displaced or impinging on the **femoral head**.- The primary focus of a symptomatic acetabular fracture is significant pain, often exacerbated by axial loading, rather than a total mechanical block of rotation.*Pelvis fracture*- **Pelvis fractures** (especially stable types) cause severe pain and limit weight-bearing, but the hip joint often retains some range of motion, particularly passive rotation, if the acetabulum is intact.- Unstable pelvic ring injuries (e.g., Malgaigne fracture) are defined by instability of the bony ring and potential for hemorrhage, not by complete mechanical inability to rotate the hip joint itself.
Question 2: A patient experienced a fall onto an outstretched hand, and an X-ray revealed a fracture of the base of the first metacarpal with accompanying subluxation at the carpometacarpal (CMC) joint. Define this type of fracture.
- A. B. Scaphoid fracture
- B. C. Reverse Colle’s fracture
- C. A. Bennett’s fracture (Correct Answer)
- D. D. Colle’s fracture
Explanation: ***Bennett’s fracture***- This is a characteristic **intra-articular fracture** at the base of the **first metacarpal**, which extends into the carpometacarpal (CMC) joint.- The main metacarpal shaft is typically pulled proximally and radially by the **Abductor Pollicis Longus** tendon, leading to the obligatory **subluxation** described.*Scaphoid fracture*- This injury involves one of the **carpal bones** (the scaphoid) in the wrist, not the metacarpal bases or MCP/CMC joints.- Although commonly caused by a fall onto an outstretched hand (FOOSH), its primary presentation is tenderness in the **anatomical snuffbox**.*Reverse Colle’s fracture*- This fracture, also known as **Smith’s fracture**, affects the **distal radius** in the forearm.- It is defined by the **volar** (palmar) displacement of the distal radial fragment, opposite to the displacement seen in a typical Colle's fracture.*Colle’s fracture*- This common FOOSH injury affects the **distal radius** bones in the forearm, not the hand joints.- It is defined by the characteristic **dorsal** (posterior) displacement of the distal radial fragment, often creating a 'dinner fork' deformity.
Question 3: Identify the type of fracture in a patient who sustained a road traffic accident resulting in fractures of both the tibia and fibula.
- A. Depressed skull fracture
- B. Patella sleeve fracture
- C. Bumper Fracture (Correct Answer)
- D. Cervical fracture
Explanation: ***Bumper Fracture*** - A **bumper fracture** refers to fractures of the **tibia and fibula** sustained when a pedestrian is struck by a vehicle bumper during a **road traffic accident**. - The term typically describes **mid-shaft or proximal shaft fractures** of both bones caused by direct lateral impact from a car bumper. - This matches the clinical scenario of **both tibia and fibula fractures** following RTA, making it the correct answer. - Note: The term can also refer specifically to lateral tibial plateau fractures, but in the context of "both bones" being fractured, it refers to the shaft fracture pattern. *Patella sleeve fracture* - This is a rare **avulsion fracture** seen almost exclusively in **children and adolescents**, involving the superior or inferior pole of the patella. - It results from forceful contraction of the **quadriceps** or sudden loading, causing avulsion of the cartilaginous sleeve. - This does not involve both tibia and fibula, making it incorrect for this scenario. *Depressed skull fracture* - This fracture involves the **calvarium (skull)** where bone fragments are pushed inward toward the brain. - While RTAs can cause head injuries, the question specifically describes fractures of the **tibia and fibula** (lower limb bones), not skull injury. *Cervical fracture* - Refers to fractures involving the **cervical vertebrae** in the neck region. - Although cervical spine injuries occur in RTAs, this does not match the clinical scenario of **lower limb long bone fractures** (tibia and fibula).