Rosen & Barkin's 5-Minute Emergency Medicine Consult (512 page)

Read Rosen & Barkin's 5-Minute Emergency Medicine Consult Online

Authors: Jeffrey J. Schaider,Adam Z. Barkin,Roger M. Barkin,Philip Shayne,Richard E. Wolfe,Stephen R. Hayden,Peter Rosen

Tags: #Medical, #Emergency Medicine

BOOK: Rosen & Barkin's 5-Minute Emergency Medicine Consult
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CODES
ICD9
  • 112.3 Candidiasis of skin and nails
  • 681.02 Onychia and paronychia of finger
  • 681.9 Cellulitis and abscess of unspecified digit
ICD10
  • B37.2 Candidiasis of skin and nail
  • L03.019 Cellulitis of unspecified finger
  • L03.039 Cellulitis of unspecified toe
PATELLAR INJURIES
Stacy M. Boore

Stephen R. Hayden
BASICS
DESCRIPTION
Dislocation
  • Usually caused by sudden flexion and external rotation of tibia on femur, with simultaneous contraction of quadriceps muscle
  • Direct trauma to patella is a less common cause
  • Lateral dislocation of the patella is most common, with the patella displaced over the lateral femoral condyle
  • Uncommon dislocations include superior, medial, and rare intra-articular dislocation
Fracture
  • Direct trauma:
    • Most common mechanism
    • Direct blow or fall on patella
    • Usually results in comminuted or minimally displaced fracture, or open injury
  • Indirect forces:
    • The result of excessive tension through the extensor mechanism during deceleration from a fall (can also cause patellar tendon rupture)
    • Avulsion injury from sudden contraction of the quadriceps tendon
    • Usually results in transverse or displaced fracture (often both)
  • Types of patellar fractures:
    • Transverse: 50–80% (usually middle or lower 3rd of patella)
    • Comminuted (or stellate): 30–35%
    • Longitudinal: 25%
    • Osteochondral
Patellar Tendon Rupture
  • Usually caused by forceful eccentric contraction of quadriceps muscle on a flexed knee during deceleration (e.g., jump landing and weight lifting)
  • Often occurs in older athletes
    • Microtrauma from repetitive activity
Patellar Tendinitis
  • Overuse syndrome from repeated acceleration and deceleration (jumping, landing)
ETIOLOGY
Dislocation
  • Risk factors for patellar dislocation:
    • Genu valgum (knock-knee)
    • Genu recurvatum (hyperextension of knee)
    • Shallow lateral femoral condyle
    • Deficient vastus medialis
    • Lateral insertion of patellar tendon
    • Shallow patellar groove
    • Patella alta (high-riding patella)
    • Deformed patella
    • Pes planus (flatfoot)
  • Common injury in adolescent athletes, especially girls
  • The younger the patient at the time of initial dislocation, the greater the risk of recurrence
Fracture
  • Male:female ratio 2:1
  • Highest incidence in those 20–50 yr old
Patellar Tendon Rupture
  • Peak incidence in 3rd and 4th decades:
    • Often in athletes
  • Risk factors:
    • History of patellar tendinitis
    • History of diabetes mellitus, previous steroid injections, rheumatoid arthritis, gout, systemic lupus erythematosus
    • Previous major knee surgery
Patellar Tendinitis
  • Microtears of tendon matrix from overuse
  • Seen in high jumpers, volleyball and basketball players, runners
DIAGNOSIS
SIGNS AND SYMPTOMS
Dislocation
  • History of feeling knee “go out”; popping, ripping, or tearing sensation
  • Pain
  • Inability to bear weight
  • Obvious lateral deformity of patella
  • Mild to moderate swelling
  • Often reduces spontaneously before ED evaluation
  • Tenderness along patella
  • Positive apprehension test or Fairbanks sign:
    • Attempts to push the patella laterally elicits patient apprehension
    • Attempts to push patella medially do not
Fracture
  • Pain over anterior knee
  • Difficulty ambulating
  • Increased pain with movement of patella
  • Tenderness and swelling over patella
  • Difficulty or inability to extend knee
  • Palpable defect, crepitus, or joint effusion/hemarthrosis
Patellar Tendon Rupture
  • Abrupt onset of severe pain
  • Decreased ability to bear weight
  • Occasionally hemarthrosis
  • Proximally displaced patella
  • Incomplete extensor function
  • Inability to maintain knee extension against force
Patellar Tendinitis
  • Pain in area of patellar tendon
  • Pain worse from sitting to standing or going up stairs
  • Point tenderness at distal aspect of patella or proximal patellar tendon
ESSENTIAL WORKUP

Radiographs essential

DIAGNOSIS TESTS & NTERPRETATION
Imaging
  • Anteroposterior (AP), lateral, and sunrise views of the knee should be obtained, pre- and postreduction
  • Postreduction radiographs help exclude osteochondral fracture (in patellar dislocations)
  • Bipartite patella (patella with accessory bony fragment connected to main body by cartilage) may be mistaken for fracture:
    • Comparison view may help differentiate
  • For patellar tendon rupture, a high-riding patella (i.e., patella located superior to level of intercondylar notch) is observed
  • For patellar tendinitis, radiographic findings unlikely with symptom duration of <6 mo
DIFFERENTIAL DIAGNOSIS
  • Patellar subluxation
  • Femoral or tibial fracture
  • Traumatic bursitis
  • Quadriceps tendon rupture
TREATMENT
PRE HOSPITAL

Patient should be transported in supine position with knee flexed and supported.

INITIAL STABILIZATION/THERAPY

Appropriate history and physical exam to identify any associated injuries (e.g., femoral fracture, hip fracture, posterior hip dislocation) and assess extensor mechanism

ED TREATMENT/PROCEDURES
Dislocation
  • For simple lateral patellar dislocation, reduce dislocation by extending the knee gently to 180°:
    • Occasionally, simultaneous pressure may have to be applied over the lateral aspect of patella in a medial direction
  • For other types of patellar dislocation (superior, medial, intra-articular), do not attempt reduction; consult orthopedics
  • Aspiration of hemarthrosis with sterile technique is necessary if reduction is difficult
  • If osteochondral fracture is present (28–50% of cases), obtain orthopedic consultation
  • Although reduction is typically easy to accomplish, procedural sedation or parenteral analgesia may facilitate it
  • Conservative (nonoperative) management of dislocations leads to recurrent instability in 60% of patients, but there is no evidence to support operative care in primary dislocations
Fracture
  • Orthopedic consultation when patellar fracture is confirmed
  • Nondisplaced fractures with intact extensor mechanism are managed nonsurgically
  • Initial treatment often consists of long-leg bulky splint and subsequent operative repair
Patellar Tendon Rupture
  • Orthopedic consultation, with surgical repair within 2–6 wk
Patellar Tendinitis
  • Rest, avoidance of inciting activity, heat, and NSAIDs
MEDICATION
  • Fentanyl citrate: 0.5–1.5 μg/kg (peds: 0.5–1.0 μg/kg) IV
  • Midazolam HCl: 1–2.5 mg (peds: 0.05–0.1 mg/kg, max. dose 6 mg) IV
  • Morphine sulfate: 2–5 mg per dose (peds: 0.1–0.2 mg/kg per dose) IV
  • Meperidine: 50–150 mg (peds: 1.1–1.8 mg/kg) IM q3–4h prn
  • Ketorolac: 60 mg IM; 30 mg IV (peds: 0.5–1 mg/kg IV, max. 15 mg dose if <50 kg; max. 30 mg dose if >50 kg, IV)
  • Methohexital: 1–1.5 mg/kg (1 mL q5sec) (peds: 0.5–1 mg IV) IV
  • Propofol: 1–2 mg/kg IV (20 mg bolus q45sec) push slow IV to avoid dec BP (peds: 1 mg/kg not to exceed 40 mg))
FOLLOW-UP

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