1. The Foot
Chapter 17

2. Foot Anatomy 26 Bones 7 Tarsal 5 Metatarsal 14 Phalanges 38 Joints
4 Arches

3. Toes
Designed to give wider base for balance and for propelling the body forward
First toe has 2 phalanges the remaining toes have 3
Sesamoids under the first metatarsal (in the flexor hallucis tendon) assist with reducing pressure in weight bearing, increase the mechanical advantage of the flexor tendons of the great toe, act as sliding pulleys for tendons

4. Sesamoid Bones 2 (medial and lateral) Under great toe
Functionpulley, increase leverage of tendons that control great toe

5. Metatarsals
Five bones that lie between and articulate with the tarsals and the phalanges
Ligamentous arrangement gives elasticity to the foot in weight bearing
MTP joints permit hinge action of phalanges
First metatarsal functions as the main weight bearing support during walking and running

6. Tarsals Calcaneous Talus
Largest tarsal bone; supports the talus and shapes the heel
Main functions: convey the body weight to the ground and serves as attachment of Achilles Tendon and plantar structures
Talus
Situated above the calcaneous; consists of the body, neck and head
Trochlea articulates with the medial and lateral malleoli to form the ankle joint

7. Tarsals
Navicular
Anterior to the talus on the medial aspect of the foot
Articulates with the three cuneiform bones
Cuboid
On the lateral aspect of the foot
Articulates posteriorly with the calcaneous and anteriorly with the fourth and fifth metatarsals
Cuneiforms
Three cuneiforms located between the navicular and the base of the three metatarsals on the medial aspect of the foot

8. Bones of the Foot

9. Bones of the Foot

10. Bones of the Foot

11. Tarsal Bones Talus Calcaneus Navicular Cuboid Cuniforms Medial
Intermediate
Lateral

12. Metatarsals & Phalanges

13. Regions of the Foot

15. Arches of the Foot
Arches provide support in weight bearing, absorb shock, and provide space on plantar surface of blood vessels, nerves, and muscles

16. Foot Arches Functions Support body weigh in an economical fashion
Absorb the shock of weight bearing
Provide a space on the plantar aspect of foot for blood vessels, nerves, and muscles

17. Arches of the Foot Lateral Longitudinal Arch
On outer aspect of the foot, formed by the calcaneous, cuboid and fifth metatarsal bone

18. Medial Longitudinal Arch
Highest of 3 arches of foot
Calcaneus, Talus, Navicular, Cuniforms & 1st three metatarsals
Supports—
Ligaments:
Spring ligament
Plantar fascia
Tendons:
Tibialis posterior
Tibialis anterior

19. Lateral Longitudinal Arch
Lower and flatter
Calcaneus, Talus, Cuboid, 4th & 5th metatarsals
Supports—
Ligaments:
Short plantar ligament
Plantar fascia
Tendons:
Peroneus longus

20. Arches of the Foot Transverse Arch Medial Longitudinal Arch
Extends across the cuboid, and the internal cuneiform
Protects the soft tissue and increases foot mobility
Medial Longitudinal Arch
Originates on medial border of the calcaneous and extends forward to the distal head of the first metatarsal
Main supporting ligament = plantar calcaneonavicular ligament (spring ligament)

21. Transverse Arch
Cuniforms, Cuboid, & 5th metatarsal

23. Plantar Fascia
Thick white band of fibrous tissue originating from the medial tuberosity of the calcaneus and ending at the proximal heads of the metatarsals
Work with ligaments to support arches during weigh bearing and downward forces

24. Joints of the Foot Tibiotalar Talocrural Subtalar Talonavicular
Calcaneocubiod
Metarsocunieform
Tarsometatarsal Joint
Subtalar Joint
Midtarsal Joint

25. Joints of the Foot Metatarsophalangeal Joint
Proximal Interphalangeal Joint
Distal Interphalangeal Joint

26. Joints of the Foot Tarsometatarsal Joint
Formed by junction of the bases of the metatarsal bones with the cuboid and all three cuneiforms – allows for some gliding
Also known as the Lisfranc’s joint

27. Joints of the Foot Intermetatarsal Joint Interphalangeal Joint
Designed for flexion and extension
Reinforced by collateral ligaments
Metatarsophalangeal Joint
Condyloid type joints permitting flexion, extension, adduction and abduction
Intermetatarsal Joint
Sliding joints: include two sets of articulations

28. Joints of the Foot Subtalar Joint
Articulation between the talus and calcaneous
Allows for inversion, eversion, pronation, and supination
In weight bearing pronation refers to combined movement of talar plantarflexion and adduction and calcaneal eversion
In weight bearing supination refers to combined movement of talar dorsiflexion, abduction and calcaneal inversion

29. Regions of Foot Forefoot Midfoot Hindfoot Metatarsals Phalanges
Navicular
Cuboid
3 Cuniforms
Hindfoot
Calcaneus
Talus

30. Foot Movements Dorsiflexion Plantar Flexion Pronation Inversion
Eversion
Supination
Pronation: combo of PF, eversion, & forefoot abduction
Supination: combo of DF, inversion, & adduction

31. Muscles of Foot Intrinsic Muscles Extrinsic Muscles
Relate to specific body part or bone
Flexor hallucis longus
Flexor hallucis brevis
Flexor digitorum longus
Extensor digitorum longus
Abductor hallucis
Abductor digiti minimi
Tibialis posterior
Muscle outside a body part, organ, or bone
Gastrocnemius
Gastroc—has long tendons that cross ankle and attach on bones of foot to assist in movement.
Talus has no tendon attachment

32. Muscles of Foot Dorsiflexion:
tibialis anterior, extensor digitorum longus, extensor hallucis longus and peroneus tertius
Tom, Dick and Harry

33. Muscles of the Foot Plantarflexion:
Gastrocnemius, soleus, plantaris, peroneus longus, peroneus brevis, tibialis posterior, flexor hallucis longus and flexor digitorum longus

34. Muscles of the Foot Inversion:
Tibialis posterior, flexor digitorum longus, flexor hallucis longus, tibialis anterior and extensor hallucis longus

35. Muscles of the Foot Eversion:
Peroneus longus, peroneus brevis, peroneus tertius and extensor digitorum longus

36. Muscles of the Foot Hallucis muscles move the great toe
Digitorum muscles move digits 2-5

37. Muscles of the Foot

38. Muscles of the Foot

39. Muscles of the Foot

40. Structural Derformities

41. Pes Planus Flat foot Associated with excessive pronation
Multiple causes:
Lack of shoe support
Weak muscles
Pain & weakness in medial longitudinal arch
Calcaneal eversion
Navicular bulging
Flattening of arch
If it ain’t broken don’t fix it!
If painful, correct the excessive pronation with orthotic; taping may help; strength training of muscles may help

42. Pronators Prolonged pronation one of major causes of stress injuries
Prolonged pronation does not allow the subtalar joint to resupinate, thus there is less power for push-off
Injuries occurring from excessive pronation include: stress fractures of the second metatarsal, plantar fasciitis, posterior tibial tendonitis, achilles tendonitis, tibial stress syndrome and medial knee pain

43. Pes Cavus aka Clawfoot, hollow foot
Associated with excessive supination
Shock absorption poor
General foot pain and metatarsalgia common
Abnormally short Achilles tendon
Calluses ball and heel
Orthotic with lateral wedge; stretch achilles tendon & plantar fascia

44. Supinators
Excessive supination at heel strike does not allow subtalar joint to unlock – foot remains rigid
Foot cannot absorb ground reaction forces efficiently
Injuries seen include: inversion ankle sprains, tibial stress syndrome, peroneal tendonitis, IT band friction syndrome and trochanteric bursitis

45. Shoe Wear Patterns Excessive Pronation Excessive Supination
Wear out front of shoe under 2nd metatarsal
Excessive Supination
Wear out lateral border of shoe
Common Misconception
Wearing out the back lateral corner of the shoe means you pronate
This is normal wear pattern

46. Selecting Appropriate Footwear
Pronators
Supinators
need stability and firmness to reduce excess motion
(need board lasted, straight lasted shoe, with good rearfoot control)
need cushioning and flexibility as foot is too rigid
(need slip lasted or combination lasted, curve lasted shoe)

47. Selecting Appropriate Footwear

48. Gait

49. Common Injuries of the Foot

50. Assessment of the Foot
HOPS

51. Assessment of the Foot Obtain a thorough history Observation
Look for structural Deformities (bunions, check for forefoot varus/valgus deformities, check for rearfoot varus/valgus deformities, flexibility of first ray)

52. Look at shoe wear patterns
Pronators
Supinators
wear out the front of the shoe under the second metatarsal
All have excessive wear on the lateral heel due to heel strike
wear out the outside of the shoe
All have excessive wear on the lateral heel due to heel strike

53. Assessment of the Foot Palpation Special Tests
Palpate Bones and Soft tissue structures
Tinel’s sign: tap over the posterior tibial nerve – numbness, tingling and paresthesia may indicate tarsal tunnel syndrome
Morton’s Test: Transverse pressure on metatarsal heads causing sharp pain in forefoot, may indicate presence of neuroma or metatarsalgia

54. Pulse Posterior Tibial Artery Medial Malleolous Dorsalis Pedis artery
Extensor Tendon Great Toe

55. Injuries to the Tarsal Region
Fractures of the Talus
Fractures of the Calcaneous
Calcaneal Stress Fracture
Sever’s Disease (Apophysitis of the Calcaneous)
Retrocalcaneal Bursitis
Heel Contusion
Cuboid Subluxation
Tarsal Tunnel Syndrome
Lisfranc Injury (Tarsometatarsal Fracture/Dislocation

56. Fractures & Stress Fractures
Impair ability to perform competitively
NWB
More swelling & pain than ligament sprain
Point tenderness present
Obvious deformity often present
Usually occur acutely; result of traumatic episode

57. Sever’s Disease
Traction injury at the apophysis of the calcaneus where the Achilles tendon attaches
Young, physically active athletes
Comparable to Osgood-Shlatter’s disease (at tibial tubercle of knee)
Pain occurs during vigorous activity and does not continue during rest
Apophysis-= bone protrusion (bony outgrowth such as a tubercle or tuberosity)
Rest, ice, stretching

58. Retrocalcaneal Bursitis
Swelling of the bursa at the back of the calcaneus under the Achilles tendon
S/sxs:
Pain in heel
Painful to touch
Pain worse when rising on toes
Red, warm skin over back of heel

59. Heel Spur Bony growth on calcaneus Causes painful inflammation
Aggravated by exercise
As foot flattens, plantar fascia is stretched & pulled where it attaches to calcaneus
calcaneus reacts by
forming spur of bony material
TX: taping arch or use shoe insert to reduce plantar fascia pull on calcaneus

60. Heel Contusion Irritation of the lateral aspect of the heel
Sudden stop-and-go or sudden change in movement
Heel receives, absorbs, and transfers much impact of sports activities (running & jumping)
Severe pain in heel; will hurt with WB
Calcaneus protected by thick, cornified skin layer and heavy fat pad covering, but even this thick covering cannot always protect against impact of landing or jumping

61. Heel Contusion—Treatment
Cold application before activity
Ice & elevation after activity
Absorb shock—
Heel cups
Donut pad

62. LisFranc Injury Tarsometatarsal fracture/dislocation
The midfoot will be affected if the bones are broken (fractured) or the ligaments are torn (ruptured). Injuries can vary, from a simple injury that affects only a single joint to a complex injury that disrupts multiple different joints and includes multiple fractures.

63. LisFranc Injury

64. Injuries to Metatarsal Region
Pes Planus Foot
Pes Cavus Foot
Longitudinal Arch Sprain
Plantar Fasciitis
Metatarsal Stress Fracture
Hallux Valgus Deformity (Bunion)
Sesamoiditis
Metatarsalgia
Morton’s Neuroma

65. Jones Fracture
Fracture to the diaphysis at the base of the 5th metatarsal
Repetitive stress, direct force, or inversion and PF of foot
Healing slow; high nonunion rate

66. Plantar Fascia
Wide, non-elastic ligamentous tissue that extends from the anterior portion of calcaneus to heads of metatarsals
Supplies support to longitudinal arch

67. Plantar Fasciitis Strain/irritation of the plantar fascia Caused by:
Overuse
Unsupportive footwear
Tight Achilles tendon
Running on hard surfaces
Chronic irritation
Pain, tenderness on bottom of foot near heal (especially in am)
Untreated will lead to:
Bone imbalance
Heel spurs
Muscle strains
Shin splints
Continually strained from running and jumping; basketball, volleyball, cross-country (repeated jumping and landing)

68. Plantar Fasciitis—Treatment
Correct training errors
Ice
Massage
Evaluate shoes & activity level
Arch support
Heel cup or cushion
Goal: to reduce shock and shear forces

69. Arch Sprains
Ligaments stretch, thus fail to hold bones of foot in position
When arch weakened, it cannot absorb shock normally
Causes:
Overuse
Overweight
Fatigue
Training on hard surfaces
Non-supportive shoes
Shoes in poor condition
Tx: RICE; most arch sprains are to lateral arch or inner longitudinal arch

70. Injuries to the Toes Sprained Toes Turf Toe
Fractures and Dislocations of Phalanges
Hallux Rigidus
Subungual Hematoma (blood under toenail)

71. Turf Toe Great toe strain
Hyperextension of the first MTP joint of the big toe
Treatment:
RICE & Support
Limit movement
Turf toe taping
Great toe important for balance, movement, and speed

72. Blisters Occur on any part of body where there is friction
Most common on feet or heels
Treatment Goals:
Relieve pain
Keep from enlarging
Avoid infection

73. Blisters—Treatment Wash area thoroughly
Use sterile blade to cut small hole in blister
Squeeze out clear fluid
Do not remove skin
Prevention:
Wear work gloves
Break in new skin
Petroleum jelly/skin lube
Adhesive bandage

74. Prevention of Foot Injuries
Selecting appropriate footwear
Using shoe orthotic
Foot hygiene

75. Rehabilitation of the Foot
Towel pulls
TheraBand®
Marble pick-up