Skeletal System Indian Medical PG Practice Questions and MCQs
Practice Indian Medical PG questions for Skeletal System. These multiple choice questions (MCQs) cover important concepts and help you prepare for your exams.
Skeletal System Indian Medical PG Question 1: Intramembranous ossification is seen in which bones?
- A. Maxilla (Correct Answer)
- B. Long bones
- C. Pelvis
- D. No bones undergo intramembranous ossification
Skeletal System Explanation: ***Maxilla***
- The **maxilla** is one of the cranial bones formed through **intramembranous ossification** [1].
- This process involves the direct differentiation of **mesenchymal stem cells** into osteoblasts, without a cartilaginous precursor [1], [2].
*Long bones*
- Long bones, such as the **femur** and **humerus**, primarily form through **endochondral ossification** [1].
- **Endochondral ossification** involves the formation of a **hyaline cartilage model** that is subsequently replaced by bone [1].
*Pelvis*
- Bones of the **pelvis** (e.g., ilium, ischium, pubis) mainly develop via **endochondral ossification** [1].
- Some flat parts of the pelvis might involve elements of both types but the primary mechanism is **endochondral**.
*No bones undergo intramembranous ossification*
- This statement is incorrect; several bones, particularly flat bones of the skull and facial bones like the **maxilla** and **mandible**, indeed form through **intramembranous ossification** [1].
- This essential process is responsible for the development of bones that protect vital organs and contribute to facial structure.
Skeletal System Indian Medical PG Question 2: Joint involved in movement of head from left to right.
- A. Atlanto axial (Correct Answer)
- B. Atlanto occipital
- C. C2- C3 Joint
- D. C3- C4 Joint
Skeletal System Explanation: ***Atlanto axial***
- The **atlantoaxial joint** is responsible for the **rotation of the head**, allowing for movements such as shaking the head "no."
- This joint is a **pivot joint** formed between the atlas (C1 vertebra) and the axis (C2 vertebra), specifically the **dens** of the axis articulating with the anterior arch of the atlas.
*Atlanto occipital*
- The **atlanto-occipital joint** primarily facilitates **flexion and extension of the head** (nodding "yes" movement).
- This joint connects the **atlas (C1)** to the **occipital bone** of the skull.
*C2- C3 Joint*
- The **C2-C3 joint** is a typical **intervertebral joint** in the cervical spine.
- While it contributes to overall cervical spine mobility, it does not primarily mediate the **rotational movement** of the head.
*C3- C4 Joint*
- The **C3-C4 joint** is another **intervertebral joint** in the cervical spine.
- Its main roles include some degree of **flexion, extension, and lateral bending**, but it is not the primary joint for head rotation.
Skeletal System Indian Medical PG Question 3: Greatest movement is seen in which type of joint?
- A. Diarthroses. (Correct Answer)
- B. Synarthroses.
- C. Synchondroses.
- D. Amphiarthroses.
Skeletal System Explanation: ***Diarthroses***
- **Diarthroses**, or **synovial joints**, are characterized by a **synovial cavity** that allows for **free movement** between articulating bones [1].
- Examples include the **shoulder, knee, and hip joints**, which permit a wide range of motion essential for daily activities.
*Synarthroses*
- **Synarthroses** are **immovable joints** where bones are very close together and often interlock, preventing any significant movement.
- Examples include the **sutures of the skull**, which provide stability and protection for the brain.
*Synchondroses*
- **Synchondroses** are a type of **cartilaginous joint** where bones are united by **hyaline cartilage**, allowing for little to no movement.
- An example is the **epiphyseal growth plate** in long bones, which is temporary and ossifies with age.
*Amphiarthroses*
- **Amphiarthroses** are joints that allow **limited movement** and are typically found where bones are joined by **fibrocartilage** or dense fibrous tissue.
- Examples include the **pubic symphysis** and the **intervertebral discs**, which provide some flexibility and shock absorption.
Skeletal System Indian Medical PG Question 4: Type I collagen is present in all EXCEPT:
- A. Ligament
- B. Aponeurosis
- C. Cartilage (Correct Answer)
- D. Bone
Skeletal System Explanation: Cartilage
- **Type II collagen** is the predominant collagen found in hyaline and elastic cartilage (the typical forms of cartilage), providing their characteristic tensile strength and resilience [2].
- Type I collagen is NOT the primary collagen in cartilage, making this the correct answer.
- Note: Fibrocartilage is a specialized form that does contain Type I collagen, but standard cartilage refers to hyaline and elastic types.
*Ligament*
- **Type I collagen** is the primary structural component of ligaments, providing high tensile strength to connect bones and stabilize joints.
- Its presence allows ligaments to withstand significant pulling forces without stretching excessively.
*Aponeurosis*
- **Type I collagen** is abundant in aponeuroses, which are flat sheet-like tendons that connect muscles to bones or other muscles.
- This type of collagen provides the necessary tensile strength for these broad connective tissues.
*Bone*
- **Type I collagen** is the most abundant collagen in bone matrix, accounting for approximately 90% of its organic content [1].
- It forms a robust scaffold that gives bone its flexibility and tensile strength, working in conjunction with mineralized components like hydroxyapatite [1].
Skeletal System Indian Medical PG Question 5: Muscles attached to the greater tubercle of the humerus include which of the following?
- A. Latissimus dorsi
- B. Teres major
- C. Pectoralis major
- D. Supraspinatus (Correct Answer)
Skeletal System Explanation: ***Supraspinatus***
- The **supraspinatus muscle** is one of the four rotator cuff muscles and inserts onto the **superior facet of the greater tubercle** of the humerus.
- Its primary function is to **abduct the arm** in the initial 15 degrees.
*Latissimus dorsi*
- The **latissimus dorsi** inserts onto the **floor of the bicipital groove** of the humerus, not the greater tubercle.
- It is primarily responsible for **extension, adduction, and internal rotation** of the arm.
*Teres major*
- The **teres major muscle** inserts onto the **medial lip of the bicipital groove** (intertubercular sulcus) of the humerus.
- Its actions are similar to the latissimus dorsi, including **adduction, extension, and internal rotation** of the arm.
*Pectoralis major*
- The **pectoralis major muscle** inserts onto the **lateral lip of the bicipital groove** (intertubercular sulcus) of the humerus.
- Its main actions are **adduction, internal rotation**, and **flexion of the humerus**.
Skeletal System Indian Medical PG Question 6: A 55-year-old male, known smoker, complains of calf pain while walking. He experiences calf pain while walking but can continue walking with effort. Which grade of claudication does this patient fall under?
- A. Grade I (Mild claudication)
- B. Grade II (Moderate claudication) (Correct Answer)
- C. Grade III (Severe claudication)
- D. Grade IV (Ischemic rest pain)
Skeletal System Explanation: ***Grade II (Moderate claudication)***
- **Grade II claudication** is characterized by **intermittent claudication** where the patient experiences pain while walking but can **continue walking with effort**.
- This level of claudication reflects a moderate degree of peripheral arterial disease, where blood flow is sufficiently compromised to cause pain with exertion but not severe enough to force immediate cessation of activity.
- The patient in this scenario can continue ambulation despite discomfort, which is the defining feature of this grade.
*Grade I (Mild claudication)*
- **Grade I claudication** involves discomfort or pain that the patient can **tolerate without significantly altering their gait or pace**.
- In this stage, the pain is minimal, and the patient may perceive it as a dull ache or mild fatigue rather than true pain.
- Walking can continue without significant effort or limitation.
*Grade III (Severe claudication)*
- **Grade III claudication** is marked by pain that is **severe enough to stop the patient from walking within a short distance** (typically less than 200 meters).
- The pain forces the patient to rest and recover before they can resume walking.
- This represents significant functional limitation in daily activities.
*Grade IV (Ischemic rest pain)*
- **Grade IV**, also known as **critical limb ischemia**, involves **pain even at rest**, especially in the feet or toes, often worsening at night when the limb is elevated.
- This stage indicates severe arterial obstruction and is frequently associated with **ulcers, non-healing wounds, or gangrene**.
- This represents advanced peripheral arterial disease requiring urgent intervention.
**Note:** This grading system is a simplified clinical classification. The standard medical classifications for peripheral arterial disease are the **Fontaine classification** (Stages I-IV) and **Rutherford classification** (Categories 0-6).
Skeletal System Indian Medical PG Question 7: Which muscles are paralyzed if there is hyperextension of metacarpophalangeal joint and flexion of the interphalangeal joint?
- A. Extensor digitorum
- B. Adductor pollicis
- C. Pronator quadratus muscle
- D. Interossei and lumbricals (Correct Answer)
Skeletal System Explanation: ***Interossei and lumbricals***
- Paralysis of the **interossei** and **lumbricals** leads to an imbalance in muscle forces, causing the **extensor digitorum** to hyperextend the **metacarpophalangeal (MCP)** joints. Together with the interossei, these muscles normally bring about flexion of the MP joints and extension of the interphalangeal (IP) joints [1].
- The unopposed action of the **flexor digitorum profundus** and **superficialis** then causes flexion of the **proximal interphalangeal (PIP)** and **distal interphalangeal (DIP)** joints, resulting in a **claw hand** deformity.
*Extensor digitorum*
- Paralysis of the **extensor digitorum** would primarily result in an inability to extend the fingers, leading to a **flexed posture** rather than hyperextension of the MCP joints.
- It would not cause the characteristic flexion of the interphalangeal joints seen in this condition.
*Adductor pollicis*
- Paralysis of the **adductor pollicis** would affect the thumb's ability to adduct, impacting pinch strength and grasp, but it does not directly cause the described finger deformity.
- This muscle is primarily involved in thumb movement, not the general finger mechanics described.
*Pronator quadratus muscle*
- The **pronator quadratus muscle** is responsible for **pronation of the forearm**.
- Its paralysis would affect forearm rotation at the wrist, but it has no direct role in the movement or posture of the metacarpophalangeal or interphalangeal joints.
Skeletal System Indian Medical PG Question 8: The bone matrix has the following crystals -
- A. Calcium pyrophosphate
- B. Calcium hydroxyapatite (Correct Answer)
- C. Calcium phosphate
- D. Calcium sulphate
Skeletal System Explanation: ***Calcium hydroxyapatite***
- The primary mineral component of bone matrix is **calcium hydroxyapatite**, which gives bone its rigidity and strength [1].
- These crystals are formed from **calcium and phosphate ions** arranged in a specific crystalline structure within the collagen fibers [1].
*Calcium pyrophosphate*
- **Calcium pyrophosphate dihydrate (CPPD)** crystals are associated with **pseudogout**, a condition causing joint inflammation, not the normal bone matrix [1].
- They are found in articular cartilage and synovial fluid, not as a structural component of healthy bone.
*Calcium phosphate*
- While hydroxyapatite is a form of **calcium phosphate**, simply "calcium phosphate" is too general and does not specify the exact crystalline structure found in bone [1].
- Many calcium phosphate compounds exist, but **hydroxyapatite** is the specific and most abundant one in bone [1].
*Calcium sulphate*
- **Calcium sulfate** is not a naturally occurring mineral component of the bone matrix in vertebrates.
- It is sometimes used in medical applications as a **bone graft substitute** or a drug delivery system, but not as an endogenous component.
Skeletal System Indian Medical PG Question 9: Which anatomical site in the jaw is known to have the highest bone density?
- A. Posterior mandible
- B. Posterior maxilla
- C. Anterior maxilla
- D. Anterior mandible (Correct Answer)
Skeletal System Explanation: ***Anterior mandible***
- This region generally exhibits the **highest cortical bone thickness** and density, making it a very stable area for dental implants.
- The compact bone structure here allows for excellent primary stability of implants and is less prone to resorption than other areas.
*Posterior mandible*
- While generally dense, the posterior mandible can be more variable, often containing areas of **lower density** due to the presence of the **inferior alveolar nerve canal** and potentially larger marrow spaces.
- It also has a higher prevalence of **trabecular bone** compared to the anterior region.
*Posterior maxilla*
- This area is characterized by the **lowest bone density** in the jaws, often described as type IV D4 bone, due to its highly trabecular and porous nature.
- The presence of the **maxillary sinus** further limits bone volume and density, making it a challenging site for implant placement.
*Anterior maxilla*
- Bone density in the anterior maxilla is typically moderate, between that of the posterior maxilla and the anterior mandible.
- It often has a thinner cortical plate and more **trabecular bone** compared to the anterior mandible, making it slightly less dense.
Skeletal System Indian Medical PG Question 10: The image shows presence of:
- A. Compact bone
- B. Hyaline cartilage
- C. Fibrocartilage (Correct Answer)
- D. Myositis ossificans
Skeletal System Explanation: ***Fibrocartilage***
- The image displays characteristic features of fibrocartilage, including visible bundles of **collagen fibers** (appearing wavy and somewhat disorganized) interspersed with **chondrocytes** residing in lacunae.
- The arrangement and presence of abundant collagen make it suitable for locations requiring robust **tensile strength** and **shock absorption**, such as intervertebral discs and menisci.
*Compact bone*
- Compact bone would typically show **Haversian systems (osteons)** with concentric lamellae surrounding a central canal, which are not evident in this image.
- The cellular components, **osteocytes**, would be found within lacunae, but the overall matrix and organization are distinct from cartilage.
*Hyaline cartilage*
- Hyaline cartilage has a **smooth, glassy matrix** with very fine collagen fibers that are not usually visible under light microscopy, unlike the distinct bundles seen here.
- Chondrocytes in hyaline cartilage often appear in **isogenous groups** (clusters of cells), which are not prominently featured in this image.
*Myositis ossificans*
- **Myositis ossificans** is a condition where bone forms within muscle tissue, typically following trauma, and would show mature or immature bone tissue, not cartilage.
- Histologically, it would present with **osteoid formation** and calcification within muscle, along with inflammatory cells, which are absent in this image.
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