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Chapter 4 Injury Mechanism and Classification of Injury

Chapter 4 Injury Mechanism and Classification of Injury. Anatomic Foundations. Anatomic position Joint movement Sagittal plane Frontal plane Transverse plane Directional terms Movement Terms. Anatomic position. Mechanism of Injury. Mechanism of Injury (MOI): How an injury occurs

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Chapter 4 Injury Mechanism and Classification of Injury

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  1. Chapter 4 Injury Mechanism and Classification of Injury

  2. Anatomic Foundations • Anatomic position • Joint movement • Sagittal plane • Frontal plane • Transverse plane • Directional terms • Movement Terms Anatomic position

  3. Mechanism of Injury • Mechanism of Injury (MOI): How an injury occurs • Components used to analyze MOI: • Application of force • Tissue type • Severity of force

  4. Force • Force: a push or pull acting on a body (e.g., gravity, friction) • Force acting on a body causes: • Acceleration • Deformation • Factors that determine injury: • Magnitude of force • Material properties of tissues involved

  5. Force (cont’d) • Small load = elastic response • Large load = plastic response • Yield point = load exceeds the ultimate failure point of the tissue resulting in mechanical failure • Anisotropic = material is stronger in resisting force from certain directions than others

  6. Mechanical Forces - Injury • Compression • Force that crushes tissues • Tension • Force that pulls and stretches tissues • Shearing • Force that moves across the parallel design of the fibers Mechanisms of injury

  7. Stress • Stress = Force x Surface area affected • Same force over a large area vs. a small area can have very different results Stress

  8. Injury Types • Acute Injury • Single force • Characterized by a definitive moment of onset • Force = macrotrauma • Chronic Injury • Repeated forces • Characterized by becoming more problematic over time (Gradual onset over time) • Forces = microtrauma

  9. Check for Understanding! Movements in the sagittal plane include flexion, extension, abduction, and adduction. • True • False

  10. Check for Understanding! Which of the following is a correctly matched pair of terms? (Select all that apply) • Adduction – movement away from the midline of the body • Flexion – decreasing an angle • Extension – increasing an angle • Plantar flexion – movement of the forefoot toward the shin

  11. Check for Understanding! When tissues sustain a force, what are the primary factors that determine the occurrence of an injury? (Select all that apply) • The magnitude of the force • The direction of the force • The material properties of the involved tissues • The length of time the force is applied

  12. Check for Understanding! What are the three primary mechanical forces that produce injury?

  13. Anatomical Properties of Soft Tissue • Collagen • Primary component of skin, tendon, ligaments • Protein substance strong in resisting tensile forces • Wavy configuration that allows for an elastic type deformation or stretch but, otherwise, is inelastic

  14. Anatomical Properties of Soft Tissue (cont’d) Collagen fibers • Elastin • Protein substance in connective tissue • Adds elasticity

  15. Skin • Epidermis • Multiple layers • Dermis • Loose, multidirectional arrangement of collagen fibers

  16. Skin Injury Classification

  17. Skin Wounds • Blisters • Accumulation of fluid between epidermis and dermis • Caused by repeated application of shear in one or more directions • Skin bruises • Accumulation of blood within skin • Results from compression sustained during a blow

  18. Muscles Muscle tissue • Produce skeletal movement and maintain postural alignment • Viscoelastic • Extensibility • Elasticity

  19. Muscle (cont’d) • Irritability: ability to respond to a stimulus • Electrochemical – nerve impulse • Mechanical – external blow • Contractility: ability to develop tension • Isometric • Concentric • Eccentric

  20. Tendons • Muscle to bone • Dense connective tissue with unidirectional bundles of collagen & some elastin • Collagen – parallel arrangement • Helps in resisting high, unidirectional tension loads from the attached muscle • 2X as strong as muscle it serves • Yield point 5-8% in length

  21. Tendons (cont’d) Collagen arrangements in tendon and ligament tissue

  22. Contusions • MOI: compression • Can be both deep and superficial • Must be cautious and aware of more severe injuries associated with repeated blows • S&S: • Onset - acute • Ecchymosis: if superficial • Hematoma • Restrictions in ROM • Pain – localized • Swelling • Associated nerve compression

  23. Classification for Contusions

  24. Strains • Damage to muscle or tendon • Key factor: magnitude of force and structure's cross-sectional area • MOI: • Abnormally high tensile force • Most common site for tears: near the musculotendinous junction

  25. Classification of Strains <table 4.4, classifications of strains>

  26. Muscle Cramps and Spasms • Involuntary muscle contraction • Cramp: • Biochemical imbalance (dehydration) associated with muscle fatigue • Painful • Types • Clonic – alternating contraction/relaxation • Tonic – constant

  27. Muscle Cramps and Spasms (cont’d) • Spasm: • Reflex action caused by: • Biochemical imbalance or • Mechanical blow to nerve or muscle

  28. Myositis and Fasciitis • MOI: repeated movements irritate the tissues • Myositis: • Inflammation of muscle tissue (e.g., shin splints) • Fasciitis: • Inflammation of the fascia (e.g., plantar fasciitis)

  29. Tendinitis and Tenosynovitis • Tendinitis: inflammation of a tendon • Related to aging and degenerative changes • S&S: pain and swelling with tendon movement • Tenosynovitis: inflammation of the tendon sheath • Acute: rapid onset, crepitus, local swelling • Chronic: same as acute, thickened tendon, nodule formation in sheath

  30. Myositis Ossificans • Mineral deposits in muscle associated with prolonged chronic inflammation • Ectopic calcification • Common site: quadriceps • Calcific tendinitis: mineral deposits in the tendon

  31. Overuse Injuries • Results from repetitive use • Factors: • Intrinsic • Extrinsic

  32. Overuse Injuries (cont’d) • Classification • Stage 1: pain after activity only • Stage 2: pain during activity, does not restrict performance • Stage 3: pain during activity, restricts performance • Stage 4: chronic unremitting pain, even at rest

  33. Anatomical Considerations of Joints • Articulation of two bones • Classified by structure and function • Structure • Cartilaginous • Fibrous • Synovial

  34. Anatomical Considerations of Joints (cont’d) • Function: based on the amount of movement allowed • Synarthoses • Amphiarthroses • Diarthroses

  35. Diarthrodial Joints • Components • Articular cartilage • Joint (synovial) cavity • Articular capsule • Synovial fluid • Reinforcing ligaments • Intrinsic or Extrinsic

  36. Diarthrodial Joints (cont’d) Joint components

  37. Articular Cartilage • Ends of bones covered by hyaline cartilage…solid type of connective tissue • More resistant to deformation than fibrous connective tissue and more resilient than bone • No blood supply; nourished by synovial fluid

  38. Joint Cavity • Filled with synovial fluid

  39. Articular Capsule • Cuff of fibrous tissue • Primarily bundles of collagen • Primary function: hold bones together • Inner layer: synovial membrane • Produces synovial fluid that lubricates the joint.

  40. Synovial Fluid • Functions • Lubricate joint • Reduce friction • Nourish joint

  41. Ligaments • Bone to bone • Intrinsic • Extrinsic • Maintain anatomical integrity and structural alignment • Collagen and elastin intermixed (contain elastin – more elastic than tendons) • Viscoelastic

  42. Ligaments (cont’d) • Resists large tensile loads along the long axis of the ligament and smaller loads from other directions – static stabilizers • Fail in fast loading situations • Strongest in their middle and weakest at their ends • Healing process – slow due to a limited blood supply

  43. Classification of Diarthrodial Joints • Plane • Hinge • Pivot • Condyloid • Saddle • Ball-and-socket

  44. Injury to the Ligament • Compromises the ability of the ligament to stabilize the joint • MOI: • High tensile force • S&S: • Pain; point tenderness; swelling; loss of function; instability

  45. Classification of Sprains <table 4.5, classification of sprains>

  46. Dislocations and Subluxations • Joint forced beyond normal limits • MOI: tension • Increased susceptibility for chronic or recurrent dislocations • S&S: • Pain • Swelling • Point tenderness • Deformity • Loss of limb function

  47. Osteoarthritis • Degeneration of articular cartilage • S&S: • Pain • Limited movement • No definitive cause; rather, several contributing factors

  48. Bursitis • Inflammation of bursa • Acute or chronic • MOI: • Compression • S&S: • Localized swelling • Point tenderness • Warm to touch

  49. Soft Tissue InjuryCheck for Understanding! The discoloration or swelling outside a joint in the surrounding soft tissue is termed: • Bruising • Ecchymosis • Edema • Effusion

  50. Soft Tissue Injury Check for Understanding! The ability of a muscle to be stretched or increased in length is termed: • Contractility • Elasticity • Plasticity • Extensibility

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