Biomechanics of Lower Limb – MCQs

1. The hip joint is classified as:

(A) Hinge joint

(B) Ball-and-socket joint

(D) Pivot joint

2. The primary function of the acetabular labrum is:

(A) Deepen hip socket and increase stability

(B) Flex the knee

(D) Rotate the pelvis

3. The knee joint is a:

(A) Modified hinge joint

(B) Saddle joint

(D) Plane joint

4. The menisci of the knee function to:

(A) Absorb shock and improve joint congruency

(B) Rotate the tibia

(D) Prevent ACL injuries

5. The anterior cruciate ligament (ACL) prevents:

(A) Anterior translation of tibia on femur

(B) Posterior translation of tibia on femur

(D) Varus stress

6. The posterior cruciate ligament (PCL) prevents:

(A) Posterior translation of tibia on femur

(B) Anterior translation of femur on tibia

(D) Lateral shift of patella

7. The patella increases:

(A) Lever arm of quadriceps

(B) Stability of hip

(D) Hamstring strength

8. The ankle joint is primarily a:

(A) Hinge joint

(B) Ball-and-socket joint

(D) Saddle joint

9. Plantarflexion and dorsiflexion occur at the:

(A) Talocrural joint

(B) Subtalar joint

(D) Metatarsophalangeal joint

10. Inversion and eversion occur at the:

(A) Subtalar joint

(B) Talocrural joint

(D) Hip joint

11. The iliotibial band provides stability to the:

(A) Lateral knee

(B) Medial ankle

(D) Pelvis only

12. The quadriceps are primary movers for:

(A) Knee extension

(B) Knee flexion

(D) Hip abduction

13. The hamstrings are responsible for:

(A) Knee flexion and hip extension

(B) Knee extension and hip flexion

(D) Pelvis stabilization only

14. The gastrocnemius crosses:

(A) Knee and ankle joints

(B) Hip joint only

(D) Toes only

15. The soleus acts mainly during:

(A) Plantarflexion in standing

(B) Dorsiflexion during swing

(D) Knee flexion

16. The gluteus medius is a prime mover of:

(A) Hip abduction

(B) Hip flexion

(D) Knee extension

17. Weakness of the gluteus medius results in:

(A) Trendelenburg gait

(B) Vaulting gait

(D) Antalgic gait

18. The main stabilizer of the medial knee is the:

(A) Medial collateral ligament (MCL)

(B) Lateral collateral ligament (LCL)

(D) PCL

19. The main stabilizer of the lateral knee is the:

(A) Lateral collateral ligament (LCL)

(B) MCL

(D) Meniscus

20. The windlass mechanism involves tightening of:

(A) Plantar fascia during toe extension

(B) Achilles tendon during plantarflexion

(D) Hamstrings during knee extension

21. The hip adductors are active during:

(A) Gait stance phase

(B) Arm swing

(D) Shoulder abduction

22. Tibialis anterior is a prime mover for:

(A) Dorsiflexion

(B) Plantarflexion

(D) Eversion

23. Peroneus longus assists in:

(A) Eversion and plantarflexion

(B) Inversion only

(D) Knee extension

24. The calcaneus functions as a:

(A) Lever arm for plantarflexors

(B) Flexor pulley

(D) Axial stabilizer

25. The Q-angle is greater in:

(A) Females

(B) Males

(D) Elderly

26. The ACL is commonly injured in:

(A) Non-contact pivoting movements

(B) Swimming

(D) Walking slowly

27. The screw-home mechanism occurs in the:

(A) Knee joint

(B) Hip joint

(D) Subtalar joint

28. The screw-home mechanism refers to:

(A) Tibial external rotation in terminal extension

(B) Tibial internal rotation during flexion

(D) Ankle inversion

29. The Achilles tendon is the:

(A) Strongest tendon in the body

(B) Weakest tendon in the body

(D) Smallest tendon in the body

30. The plantar arches provide:

(A) Shock absorption and weight distribution

(B) Hip stability

(D) Spinal extension

31. The medial arch is supported by the:

(A) Spring ligament

(B) LCL

(D) IT band

32. The lateral arch is stabilized mainly by the:

(A) Long plantar ligament

(B) PCL

(D) Meniscus

33. Genu valgum describes:

(A) Knock knees

(B) Bow legs

(D) Locked knees

34. Genu varum describes:

(A) Bow legs

(B) Knock knees

(D) Weak arches

35. Excessive pronation of the foot can lead to:

(A) Medial knee stress

(B) Lateral hip stress

(D) Shoulder instability

36. During gait, plantarflexors are most active in:

(A) Push-off phase

(B) Swing phase

(D) Midstance only

37. Hip flexors are most active during:

(A) Swing phase

(B) Stance phase

(D) Push-off

38. Quadriceps control knee flexion during:

(A) Heel strike and loading response

(B) Midstance

(D) Swing phase

39. Hamstrings decelerate the leg during:

(A) Terminal swing

(B) Heel strike

(D) Midstance

40. The gluteus maximus is most active during:

(A) Initial stance and rising from sitting

(B) Swing phase

(D) Plantarflexion

41. Coxa vara is a condition where:

(A) Decreased femoral neck-shaft angle

(B) Increased femoral neck-shaft angle

(D) Knee varus

42. Coxa valga is:

(A) Increased femoral neck-shaft angle

(B) Decreased femoral angle

(D) Bow legs

43. The pelvis tilts anteriorly during:

(A) Hip flexion

(B) Hip extension

(D) Ankle dorsiflexion

44. Pelvic drop on one side is prevented by:

(A) Contralateral gluteus medius

(B) Ipsilateral quadriceps

(D) Gastrocnemius

45. The tibiofibular joints provide:

(A) Stability for ankle mortise

(B) Knee flexion

(D) Arch support

46. The talus transmits:

(A) Body weight to calcaneus

(B) Hip rotation forces

(D) No mechanical load

47. Overuse injury of the tibialis anterior is:

(A) Shin splints

(B) Plantar fasciitis

(D) IT band syndrome

48. Plantar fasciitis is caused by:

(A) Inflammation of plantar fascia

(B) Tear of meniscus

(D) ACL sprain

49. The popliteus muscle unlocks the knee by:

(A) Medial rotation of tibia

(B) Lateral rotation of tibia

(D) Flexion of femur

50. Functional biomechanics of the lower limb emphasize:

(A) Stability and mobility for gait and weight-bearing

(B) Arm swing mechanics

(D) Shoulder stability only