Rosen & Barkin's 5-Minute Emergency Medicine Consult (705 page)

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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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MEDICATION

Analgesia

FOLLOW-UP
DISPOSITION
Admission Criteria
  • Patients with confirmed torsion must be admitted for scrotal exploration and bilateral orchiopexy.
  • Flow studies that are inconclusive and technical failures mandate further investigation by surgical exploration of the scrotum.
  • Admission for urgent surgical exploration of an acute scrotum is mandatory if there is any potential delay in obtaining a flow study:
    • Patients in whom apparent spontaneous detorsion has occurred should undergo elective exploration for bilateral orchiopexy.
Discharge Criteria
  • Patients with negative scrotal exploration and those with normal flow studies can be discharged with appropriate urologic follow-up.
  • Parameters for return to ED must be discussed because of the possibility of recurrent torsion.
  • Patients with an obvious diagnosis other than testicular torsion can be referred for care.
PEARLS AND PITFALLS
  • Testicular torsion can mimic acute appendicitis in children.
  • Remember that “time is testicle”; emergent workup and consultation are required.
  • Maintain a high index of suspicion for testicular torsion in all age groups even though peak incidence is in adolescents and neonates.
  • If testicular torsion is diagnosed early, a near 100% salvage rate for the testicle is possible. Orchiopexy is not a guarantee against future torsion, although it does reduce the odds.
ADDITIONAL READING
  • Baldisserotto M. Scrotal emergencies.
    Pediatr Radiol
    . 2009;39:516–521.
  • Beni-Israel T, Goldman M, Chaim S, et al. Clinical predictors for testicular torsion as seen in the pediatric ED.
    Am J Emerg Med.
    2010;28:786–789.
  • Drlík M, Kočvara R. Torsion of spermatic cord in children: A review.
    J Pediatr Urol.
    2013;9:259–266.
  • Gatti JM, Murphy JP. Acute testicular disorders.
    Pediatr Rev
    . 2008;29:235–241.
  • Schmitz D, Safranek S. Clinical inquiries. How useful is a physical exam in diagnosing testicular torsion?
    J Fam Pract
    . 2009;58:433–434.
See Also (Topic, Algorithm, Electronic Media Element)
  • Epididymitis/Orchitis
  • Hydrocele
CODES
ICD9
  • 608.20 Torsion of testis, unspecified
  • 608.21 Extravaginal torsion of spermatic cord
  • 608.22 Intravaginal torsion of spermatic cord
ICD10
  • N44.00 Torsion of testis, unspecified
  • N44.01 Extravaginal torsion of spermatic cord
  • N44.02 Intravaginal torsion of spermatic cord
TETANUS
Daniel T. Wu
BASICS
DESCRIPTION
  • Rare disease in US but still prevalent in 3rd-world countries
  • About 30 cases per year in US
  • One-half of the cases involve people >50 yr of age
  • Majority of cases in US occur in the unvaccinated, >10 yr since last booster or IVDUs
  • 500,000–1,000,000 cases worldwide
  • High mortality rates even with treatment
  • Incubation period:
    • Inoculation to the appearance of the 1st symptoms:
      • 48 hr to 3 wk or more
    • Period of onset:
      • <7 days—poor prognosis
      • Very poor prognosis if <48 hr from 1st symptom to initial reflex spasm
  • Neonatal tetanus:
    • Due to infected umbilical stump
    • Symptom onset in 2nd week of life when maternal antibodies decrease
    • Rare in US but common in 3rd-world countries
    • Worldwide, accounts for over one-half of all tetanus infections
ETIOLOGY
  • Clostridium tetani:
    • Slender, motile, heat-sensitive, anaerobic gram-positive rod with a terminal spherical spore
    • Spore characteristics
    • Resistant to oxygen, moisture, temperature extremes
    • Can survive indefinitely until it germinates
    • Ubiquitous in soil and feces
  • When inoculated into a wound or devitalized tissue or injected IV as a contaminant of street drugs, the spores germinate under anaerobic conditions and produce 2 toxins.
  • Toxins:
    • Tetanolysin:
      • Damages tissue
      • Does not cause clinical manifestations of tetanus infection
    • Tetanospasmin:
      • Powerful neurotoxin
      • Disrupts the release of neurotransmitters such as γ-aminobutyric acid (GABA)
      • Responsible for the clinical manifestations
  • Muscle spasms
  • Autonomic instability
  • Uncontrolled motor activity
DIAGNOSIS
SIGNS AND SYMPTOMS
Generalized
  • Most common type accounting for about 80% of all cases
  • Initial presentation:
    • Muscle stiffness and pain
    • Trismus (initial)
    • Risus sardonicus (characteristic facial appearance)
  • Systemic symptoms:
    • Irritability
    • Restlessness
    • Diaphoresis
  • Later manifestations:
    • Muscle group rigidity
    • Sudden burst of tonic contractions of muscle groups causing:
      • Opisthotonos
      • Flexion and adduction of the arms
      • Clenching of fists
      • Extension of the lower extremities
    • Diaphragmatic spasm or paralysis:
      • May compromise respiration
  • Hypersympathetic state (most common cause of death):
    • Begins in the 2nd week
    • Dysrhythmias
    • BP changes
    • Diaphoresis
    • Hyperthermia
Local
  • Less common form of disease, accounting for about 17% of all cases
  • Typical localized spasms around area of initial infection may:
    • Be mild
    • Persist for months before resolving
    • Evolve to generalized form (13%)
Cephalic
  • Rare variant of disease
  • Follows head injury or otitis media
  • Spasm of lower cranial and facial muscles:
    • Cranial nerve (CN) palsies, CN VII most common
  • May progress to generalized tetanus
Neonatal
  • Generalized form of tetanus occurring during the 1st weeks of life
  • Often caused by infection of umbilical stump
  • Clinical manifestations:
    • Irritability
    • Poor suck
    • Facial grimacing
    • Muscle spasms with touch
  • Very high mortality rate (50–100%)
  • Incubation period 1–2 wk
History
  • Investigate source of infection.
  • Acute skin wound not necessary to contract infection
  • >25% of infections occurred in the absence of known acute trauma.
  • Infections can occur from abscesses, ulcers, and gangrene.
  • Elicit tetanus immunization status.
ESSENTIAL WORKUP
  • Perform complete physical exam focusing on cardiovascular and respiratory status, neurologic and CN exam.
  • Diagnosis of tetanus is clinical:
    • Suspect in all cases of trismus
    • No wound recalled in one-fifth of cases
    • Full tetanus immunization almost eliminates diagnosis.
DIAGNOSIS TESTS & NTERPRETATION

Often of limited or no benefit for diagnosis but useful for ruling out other etiologies or assessing complications of disease

Lab
  • CBC
  • Electrolytes, BUN, creatinine, glucose, calcium:
    • For hypocalcemia
  • Strychnine level
  • ABG, pulse oximetry:
    • For oxygenation status
  • Wound culture for
    C. tetani:
    • Positive only about 30% of time
  • C. tetani
    titers:
    • Will be useful only after the fact
  • CSF analysis:
    • Normal in tetanus
    • Exclude meningitis/encephalitis

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