Testes

Testicular Torsion

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Testicular Torsion, Torsed Testicle

  • Epidemiology
  1. Annual Incidence: 1:4000 males under age 25 years
  2. Represents 10-15% of acute Scrotal Pain in boys
  3. Young to middle aged men
  4. Bimodal distribution
    1. Newborns
    2. Teens (age 12-18 years old) and older (especially teens peri-Puberty)
  • Pathophysiology
  1. "Bell Clapper" deformity allows spermatic cord to twist
    1. Responsible for torsion in 90% of cases
    2. Tunica vaginalis completely surrounds Testis
    3. Provides inadequate posterior fixation of Testis (allows for increased Testicle mobility within the tunica vaginalis)
    4. Testicular Torsion in this case occurs completely within tunica vaginalis (intravaginal torsion)
    5. Asymptomatic men have this on autopsy in 12% cases
    6. Usually results in intravaginal torsion
  2. Extravaginal torsion in neonates (external to tunica vaginalis)
    1. Occurs in utero or in perinatal period
    2. Entire spermatic cord including processus vaginalis twists
    3. Unilateral defect of incomplete attachment (unclear etiology)
      1. Gubernaculum and testicular tunics
      2. Dartos fascia
  • Risk Factors
  1. Trauma (only responsible for 4-8% of cases)
  2. Most torsions have onset while sleeping
  3. Vigorous Exercise
  4. Prior episode of similar pain spontaneously resolved
  5. Testicular hypertrophy during Puberty
  6. Testicular mass
  7. Cryptorchidism (Undescended Testicle)
  8. Long intrascrotal length of vas deferens
  • Symptoms
  • Children and Adults
  1. Sudden severe unilateral Scrotal Pain (thunder-clap pain)
    1. However, thunder-clap pain is not uniformly present
    2. If Trauma present, pain lasts >1 hour
    3. Keep high level of suspicion
    4. Presentation is within 24 hours in majority of cases (OR >4.2)
    5. Testicular Torsion is cause of sudden unilateral Scrotal Pain in 16-42% of boys
  2. Nausea or Vomiting (OR >8.9)
    1. More common in Testicular Torsion than in Epididymitis (whereas Dysuria is more common in Epididymitis)
  3. Lower Abdominal Pain
    1. May be sole presentation in young boys
  4. Variants
    1. Chronic, recurrent intermittent torsion with pain lasting for hours and resolving spontaneously
  • Symptoms
  • Newborns and Infants
  1. Infants may present only with Unconsolable Crying
  2. May present only with painless scrotal swelling
  • Signs
  1. Precautions
    1. Examination is unreliable in Testicular Torsion (have a high index of suspicion, consider Ultrasound)
    2. Mellick (2012) Pediatr Emerg Care 28(1):80-6 +PMID: 22217895 [PubMed]
  2. Careful or wide based gait
  3. Testicle findings
    1. Tender, firm affected Testicle
      1. Testicle is also diffusely tender in Epididymitis
    2. Testicle may appear to be retracted upward (high-riding, OR>18)
      1. However, a high riding Testicle is most commonly due to Epididymitis
    3. Testicle swollen and erythematous
      1. Venous Insufficiency precedes Arterial Insufficiency, resulting in edema
      2. Contrast with Torsion of Testicular Appendage, in which swelling is localized at superior pole
    4. Testicle may have horizontal lie
      1. Best seen with patient standing, while comparing each side
  4. Cremasteric Reflex absent (OR >4.8, unreliable)
    1. Testicle fails to rise in response to pinching medial thigh
    2. Most sensitive finding in Testicular Torsion (but only 60-70% Test Sensitivity and Test Specificity)
      1. Cremasteric Reflex is absent in 30% of normal males
      2. Presence of reflex suggests epidydimitis, however 25% without reflex also have epidydimitis
  5. Prehn's Sign Negative
    1. Elevation of Scrotum does not relieve pain, and may instead worsen pain
    2. Unreliable
      1. Positive finding does not exclude Testicular Torsion
      2. Negative finding may still be Epididymitis
  • Differential Diagnosis
  1. See Acute Testicular Pain
  2. See Groin Pain
  3. See Scrotal Mass
  4. See Chronic Testicular Pain
  5. Torsion of Testicular Appendage
    1. May be clinically indistinguishable from Testicular Torsion
    2. Local swelling and tenderness at the superior pole
    3. Scrotal Ultrasound is typically required to absolutely exclude Testicular Torsion
      1. Scrotal Ultrasound is used to identify Testicular Torsion
      2. Ultrasound is unlikely to identify Torsion of Testicular Appendage
  6. Epididymitis or Orchitis
    1. Rare in children prior to Puberty unless underlying genitourinary disorder (or recent viral infection)
    2. If Urinalysis is negative in prepubertal children, avoid treating with antibiotics
  7. Incarcerated Hernia
  8. Varicocele
  9. Scrotal edema
  10. Ureteral Stone
  11. Small Bowel Obstruction
  12. Herpes Zoster
  • Lab
  1. Urinalysis normal in 90% of patients
    1. Contrast with Epididymitis in which pyuria may be present
  2. C-Reactive Protein (CRP) normal (OR 124)
    1. Contrast with Epididymitis in which CRP is increased >24 mg/L in 96% of cases
  • Imaging
  1. Testicular Ultrasound with doppler (preferred)
    1. See Testicular Ultrasound
    2. Absent or decreased blood flow in Testicular Torsion
    3. Affected Testicle may appear enlarged
    4. Contrast with increased blood flow in Epididymitis
    5. Efficacy
      1. Test Sensitivity: 88%
      2. Test Specificity: 90%
  2. Radionuclide scanning
    1. Findings
      1. Decreased perfusion in Testicular Torsion ("cold spots")
      2. Contrast with increased perfusion in Epididymitis ("hot spots")
    2. Efficacy
      1. Test Sensitivity: 100%
    3. Disadvantages
      1. Less readily available than Scrotal Ultrasound
      2. Radiation exposure (see Radiation Exposure in Medical Procedures)
  • Precautions
  1. Consider occult Testicular Torsion if Undescended Testicle (especially in infants with Unconsolable Crying)
  2. Lower Abdominal Pain (without Testicular Pain) may be the only presenting symptom of Testicular Torsion in 30% of cases
    1. Always perform a testicular exam in male lower Abdominal Pain
    2. Gaither (2016) J Pediatric Urol 12(5): e1-291 [PubMed]
  3. Prehn's Sign and Cremasteric Reflex are unreliable and should not be used alone to rule-out Testicular Torsion
    1. No single exam finding either rules-in or rules-out Testicular Torsion
  4. High clinical suspicion for Testicular Torsion mandates early, emergent urologic evaluation
    1. Do not delay urologic evaluation for Scrotal Ultrasound in high clinical suspicion cases
    2. Urgent evaluation is critical, but time >6 hours does not exclude potential salvage (50% salvage rate at 6-48 hours)
    3. Scrotal Ultrasound has a 1% False Negative Rate for torsion
    4. Intermittent torsion may occur (but be absent at Ultrasound)
    5. Negative Ultrasound should not obviate emergent urological evaluation if clinical suspicion remains high
  • Evaluation
  1. Pain <6 hours and history and exam and /or Ultrasound findings suggest Testicular Torsion
    1. Immediate urologic surgery for detorsion
  2. Pain >6 hours or diagnosis uncertain
    1. Doppler Ultrasound of Scrotum (if not already done)
    2. Consult Urology for findings consistent with torsion
  • Management
  1. Maintain high index of suspicion
  2. Immediate surgical Consultation
    1. Surgical exploration (within 6 hours) is critical for suspected Testicular Torsion
      1. However, testicular salvage may be as high as 50% iat 6 to 48 hours
    2. Definitive detorsion is goal
    3. Informed Consent for surgery includes the significant risk of orchiectomy
      1. Non-viable or necrotic Testicle in up to 39-71% of cases
    4. Prophylactic orchiopexy of contralateral side
      1. Prevents recurrence of torsion on opposite side
      2. Performed in most cases of Bell-Clapper deformity (affects both Testicles in 80% of cases)
      3. Performed in most cases of neonatal Testicular Torsion (extravaginal torsion)
  3. Attempt manual detorsion by rotating Testicle pedicle (do not delay surgery)
    1. Important
      1. Manual detorsion temporarily corrects problem
        1. Consider if >6 hours before specialist can correct
        2. Lifting Testicle may also temporize by alleviating pain and allowing reperfusion
      2. Manual detorsion does not obviate surgery
        1. Surgery required for definitive resolution
        2. Non-viable Testicle must be removed
        3. Prophylactic orchiopexy of contralateral side
    2. Position patient in supine position
    3. Pre-anesthetic (patient needs to maintain some alertness to express pain relief)
      1. Intravenous light Conscious Sedation or
      2. Local 2% Lidocaine injected into vas deferens
    4. Rotate Testicle away from midline (medial to lateral)
      1. Grasp Testicle between thumb and index finger
      2. Rotate affected Testicle as if opening a book (medial torsion)
        1. Rotate right Testicle counter-clockwise or
        2. Rotate left Testicle clockwise
      3. Rotate at least 180 degrees (typically more than 360 degrees is required)
        1. More than one turn may be required
        2. Continue until pain relief and stop if pain worsens
        3. Scrotal Doppler Ultrasound can confirm return of blood flow
          1. However normal flow patterns may not immediately return despite successful detorsion
        4. If unsuccessful rotating Testicle in open book fashion, consider rotating in opposite direction (closing book)
          1. Up to one third of torsions are lateral
      4. Efficacy
        1. Successful in 26-80% of torsion cases
    5. References
      1. Cornel (1999) BJU Int 83:672-4 [PubMed]
  • Prognosis
  1. Orchiectomy risk
    1. Orchiectomy for non-viable or necrotic Testicle occurs in 39-71% of cases
    2. Most significant risk factors for orchiectomy include older age and duration of torsion (see below)
  2. Testes salvage is time dependent on Restored Blood Flow
    1. Restored in 6 hours: 80-100% of Testes salvaged
    2. Restored in 12 hours: 50% iof Testes salvaged
    3. Restored >24 hours: 10-20% of Testes salvaged
    4. Testicular function and fertility may be chronically reduced despite testicular salvage
  3. Neonatal torsion
    1. Poor salvage rate of 9%
    2. Nandi (2011) Pediatr Surg Int 27(10): 1037-40 [PubMed]
  4. References
    1. Barada (1989) J Urol 142:746-8 [PubMed]
  • References
  1. Claudius, Behar and Lockhart (2017) EM:Rap 17(10): 3
  2. Mason and Jones in Herbert (2016) EM:Rap 16(9):10
  3. Weinstock in Herbert (2017) EM:Rap 17(12): 4-5
  4. Lewis (1995) J Pediatr Surg 30:277-82 [PubMed]
  5. Hawtrey (1998) Urol Clin North Am 25:715-23 [PubMed]
  6. Ringdahl (2006) Am Fam Physician 74:1739-46 [PubMed]
  7. Sharp (2013) Am Fam Physician 88(12): 835-40 [PubMed]