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Chapter 13: Recognizing Different Sports Injuries. Acute Injuries. Fractures Dislocations and subluxations Ligament SPRAINS Contusions Muscle STRAINS Muscle cramps Muscle soreness Nerve injuries. Fractures. Fractures (broken bones) occur because of extreme stress placed on the bone
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Acute Injuries • Fractures • Dislocations and subluxations • Ligament SPRAINS • Contusions • Muscle STRAINS • Muscle cramps • Muscle soreness • Nerve injuries
Fractures • Fractures (broken bones) occur because of extreme stress placed on the bone • Parts of the bone • Diaphysis- shaft (hollow) • Epiphysis- ends (place of growth) • Articular cartilage- covers joint surface (provides protection and shock absorption) • Periosteum- outer covering
Closed Fracture • Little or no movement or displacement of broken bones
Open Fracture • Bone breaking through the surrounding tissues, including the skin, secondary to significant displacement of the bones
Forces Causing Fractures • Bending • Torsion • Compression
Fracture Healing • Requires brief immobilization • Long bones in the limbs (humerus, femur, tibia, fibula, radius, ulna) • 6 weeks of casting • Long bones in the feet and hands (metacarpals, metatarsals, phalanges) • 3 weeks of casting or splinting
Fracture Healing • Osteoblasts • Bone cells that build bone • Osteoclasts • Bone cells that reshape and break down bone • Callus • Location of increased osteoblast activity following a fracture that is the initial sign of bone healing
Fracture occurs • Osteoblastic activity begins • Callus formation • Osteoclastic activity begins • Bone healing ends
Greenstick Fractures • Incomplete breaks in bones that have not completely ossified • Tend to happen on the convex bone surface
Transverse Fracture • Occurs in a straight line at right angle to the shaft • Usually caused by a direct blow
Spiral Fractures • S-shaped separation of the bone • Common in football and skiing • Occurs when the foot is firmly planted and body is suddenly rotated
Oblique Fractures • Occurs when one end of the bone receives sudden torsion and the other end is fixed or stabilized
Impacted Fractures • Commonly occurs when falling from heights • Causes the long bone to become compressed along the long axis • Requires immediate splinting and traction to ensure normal length of the injured limb
Comminuted Fractures • Consists of three or more fragments at the fracture site • Caused by a hard blow or falling in an awkward position • Difficult for healing because of the displacement of the fragments • Often requires surgical intervention because of involvement of soft tissue
Longitudinal fractures • Bone splits along its length • Result of jumping from a height and landing applying a force along the long axis of the bone
Avulsion Fractures • Separation of bone fragment from its cortex at an attachment of a ligament or tendon • Result of sudden, powerful twist or stretch of a body part • Common sites of this type of fracture • Base of the 5th metatarsal (peroneus brevis) • Anterior superior iliac spine (sartorius) • Medial malleolus (deltoid ligament)
Dislocation • When one bone is forced completely out of its normal alignment and must be manually or surgically reduced • Occur mostly at the shoulder, elbow, and fingers
Dislocations • First dislocations should be treated like fractures • Should not be immediately reduced • X-rays should be taken to rule out a fracture prior to reducing the dislocation
Subluxation • Similar to a dislocation except the bone partially comes out of the joint and slides back into place on its own with out any external force applied • Occurs mostly at the shoulder and the patella
Ligaments • Tough, inelastic bands of tissue connecting bone to bone • Synovial joints allow motion in one or more planes • Hyaline cartilage- cartilagenous covering over ends of bones • Joint capsule- thick ligamentous covering • Synovial membrane- thin lining of joint capsule • Synovial fluid- provides lubrication, shock absorption, and joint nutrition
Ligament Sprain • Grade 1 • Some stretching of ligament fibers with minimal instability • Mild to moderate pain, localized swelling, joint stiffness • Grade 2 • Some tearing of ligament fibers with moderate instability • Moderate to severe swelling and joint stiffness • Grade 3 • Total tearing of the ligament with major joint instability • Significant pain followed by no pain secondary to disruption of nerve fibers • Significant swelling • Often require surgical repair
Contusions • “Bruise” • Caused by a direct blow to soft tissue • Capillaries are torn and bleeding into the tissues occurs • Causes discoloration that persists for days • Pain may be experienced with active movement or to the touch
Contusions • Repeated blows (Myositis ossificans) • Small calcium deposits develop and accumulate • Found between several fibers in the muscle belly or build up to form a spur projecting into the underlying bone • When deposits cause impairments in movement • Occur usually at the quadriceps and biceps
Muscle Strains • Overstretched muscle • Muscle forced to contract against too much resistance • Results in separation or tearing of the muscle fibers
Muscle Strains • Grade 1 • Some muscle fibers stretched or torn • Tenderness and pain with active motion • Painful but full range of motion • Grade 2 • Muscle fibers torn • Active contraction of the muscle is painful • Palpable deformity • Some swelling and discoloration • Grade 3 • Complete rupture of the muscle • Significant loss of movement • Pain is intense, but often subsides due to nerve tissue damage
Muscle Cramping • Extremely painful involuntary muscle contractions • Occur most commonly in the calf, abdomen, hamstrings • Heat cramps • Secondary to significant loss of water
Muscle Soreness • Acute onset muscle soreness • Accompanies fatigue • Transient and occurs immediately following exercise • Delayed onset muscle soreness (DOMS) • Appears approximately 12 hours following exercise • Becomes more intense at 24-48 hours then subsides • Delayed muscle pain leading to increased muscle tension, swelling, and resistance to stretching
Nerve Injuries • Compression or tension injuries • Hypoesthesia • Diminished feeling • Hyperesthesia • Increased sensation of pain or touch • Paresthesia • Numbness, tingling, prickling
Chronic Injuries • Tendonitis • Tenosynovitis • Bursitis • Osteoarthritis
Tendonitis • Inflammation of a tendon • Tendon can become irritated or inflamed with repetitive movement • Causes pain on movement, swelling, some warmth, and crepitus (cracking or crunching upon palpation) • Rest is most important aspect to treatment (2 weeks) • Most common types of tendonitis are at the Achilles and patella
Tenosynovitis • Tendons are surrounded by synovial sheaths providing a tight space for the tendon to move • Tendon adheres to the sheath causing inflammation • Treatment involves rest and anti-inflammatory medications
Bursitis • Bursa is a synovial membrane filled with synovial fluid and located at areas of high friction • Between bone and tendon • Between skin and bone • Between muscles • Direct trauma or overuse can cause irritation and increased synovial fluid • Pressure increases, pain increases, movement is restricted
Osteoarthritis • Degeneration of the of the articular or hyaline cartilage • Cartilage wears away to the underlying bone • Most often affects weight-bearing joints • Knees • Hips • Lumbar spine
Role of Inflammation • Inflammation must occur for the healing process to begin • Should be acute and end when its role in the healing process is completed • When inflammation persists it is considered chronic and prevents further healing • SYMPTOMS (KNOW THESE) • Pain • Swelling • Warmth • Loss of function • Redness
Healing Process(KNOW THIS SLIDE) • Inflammatory response (first 2 to 4 days) • Direct injury to cells • Phagocytic cells clean up dead cells • Injured cells release chemicals • Symptoms of redness, swelling, tenderness, heat, loss of function • Fibroblastic repair (2 days to 4-6 weeks) • Proliferative and regenerative activity leads to scar formation • Symptoms subside including tenderness and pain with movement • Maturation-remodeling (3 week to several years) • Realignment or remodeling of the scar tissue • Stress realigns collagen parallel to lines of tension