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Varicocele

Definition

An abnormal dilation of the pampiniform plexus of veins within the spermatic cord.

 

Epidemiology

  • 15 % of healthy adult men have a varicocele
  • 30 – 45 % of men undergoing investigation or evaluation for infertility have a varicocele
  • 90 % left sided, 8 % bilateral, 2 % right
  • Peak age of presentation 15 – 25 years

 

Aetiology

  • Left gonadal vein is longer and with right-angled insertion to left renal vein (cf right side oblique insertion lower into cava)
    • Increased hydrostatic pressure, turbulent flow and backflow on left side
  • May be venous valve insufficiency or absence, which may be congenital
  • Extrinsic compression
    • Nutcracker – left renal vein can be compressed between aorta and SMA
    • Retroperitoneal or renal mass, or venous tumour thrombus

 

Pathophysiology

  • Varicoceles can be associated with progressive testicular damage and infertility
  • Most widely accepted mechanism is relative testicular hyperthermia
  • Normally the counter-current exchange mechanism with the pampiniform veins surrounding the testicular artery maintains a lower temperature in scrotum cf. abdomen
    • Dilated pampiniform plexus veins with venous statis reduces efficacy of counter current exchange -> higher scrotal temperatures
    • Leydig cells are also temperature dependent (?emerging evidence varicoceles impact testosterone function too)
  • Other pathophysiological mechanisms include:
    • Relative hypoxia and accumulation of reactive oxygen species
    • Reflux of renal and adrenal metabolites which may be gonadotoxic

 

Grading

  1. Palpable only with Valsalva
  2. Palpable without Valsalva
  3. Visible

0/subclinical – not palpable but seen on imaging.

 

History

  • Symptoms and level of bother
  • Consideration of other causes of symptoms
  • Previous inguinoscrotal surgery
  • General medical and surgical history including medications
  • Fertility history, future plans and partner factors
  • Other causes of infertility in history (toxins, infection/inflammation, childhood insults, sexual history)

 

Examination

  • Relaxed, warm room
  • Standing and supine
  • With and without Valsalva
  • Document size and size discrepancy of testes
  • Any other scrotal findings i.e. hydrocele
  • Scars from previous surgery, inguinal exam
  • Classically, if varicocele is from external compression, it will not reduce after lying supine from standing

 

Ultrasound

  • Veins (which appears as hypoechoic tubular structures) greater than 3 mm diameter, with reversibility of flow with Valsalva
  • Ideally performed standing and supine
  • Consider extending scan to include kidneys and retroperitoneum, particularly in unilateral right varicocele or a new varicocele in a man over 40 years old

 

Indications for varicocele management

  1. Symptomatic
  2. Size discrepancy in an adolescent
  3. Infertility

No evidence-based role for treating men with:

  • Subclinical or non-palpable varicoceles
  • Normal semen analysis

 

  1. Symptomatic

Should be counselled that pain or discomfort may not improve following treatment.

Rates of improvement or resolution are widely variable in studies, between 40 – 100 %.

No proven differences in techniques for symptom improvement.’

 

  1. Size discrepancy in an adolescent

Significant risk of over-treatment if all adolescent varicoceles are treated – most boys with varicoceles will have no difficulty conceiving later in life.

Ipsilateral smaller testicle is suggestive of testicular dysfunction, and an accepted indications for treatment (EAU/AUA guidelines).

20 % discrepancy is associated with worse semen parameters.

 

  1. Infertility

Repair of palpable varicoceles improves semen parameters in men with initially abnormal semen analysis (including improving spermatogenesis in non obstructive azoospermia). 70 % men get improvement.

Meta-analyses favour improved pregnancy rates after treatment of clinical varicoceles. (One meta-analysis showed no benefit overall, but when subclinical varicoceles and normal semen analysis are excluded there was clear benefit).

Average time to improvement is two spermatogenic cycles with spontaneous pregnancy generally 6 – 12 months later.

Varicocele repair improves motility most commonly, and also concentration and morphology.

Repair of sub-clinical or non-palpable varicoceles do not appear to improve rates of spontaneous pregnancy.

 

 

Treatment options

The artery and veins begin branching from the external ring and distally – therefore subinguinal approach needs to find more veins to ligate, and potentially more arteries to injure.

More proximal approach = less collaterals ; therefore less ischaemia risk but higher recurrence risk

Scrotal approach not recommended due to high rates of arterial compromise.

  1. Open inguinal / subinguinal
  2. Microscopic inguinal / subinguinal
  3. Laparoscopic gonadal vein ligation
  4. Retroperitoneal open
  5. Percutaneous / radiological embolisation
  Pros Cons
Open inguinal Widely available Higher hydrocele rates

Higher recurrence rates

Microscopic Lowest recurrence rates

Good identification of all veins

Preservation of lymphatics

?Best fertility outcomes

Specialist training

Not widely available

Laparoscopic Less invasive / better recovery cf open retroperitoneal

Widely available

Good for bilateral cases

Potential intra-abdominal injury

Moderate recurrence rates

Multiple incisions cf. one incision

Retroperitoneal Good in kids Higher recurrence rates
Embolisation No incision, reduced recovery

Minimal hydrocele

Higher recurrence rates

Vascular risks and high radiation dose

Availability and cost

 

  Hydrocele Recurrence Other risks
Open inguinal 7 % 5 – 10 % Nerve injury (II, GF)

Pain and time off

Wound complications

Testis atrophy

Microscopic < 1 % < 1 % Bleeding/haematoma

Testis atrophy

Laparoscopic 7 – 15 % 3 – 6 % Bowel injury

Pneumoscrotum

Pain and time off

Testis atrophy

Retroperitoneal 5 – 10 % 15 % Scrotal oedema

Testis atrophy

Failure

Embolisation < 5 % 10 – 20 % Technical failure

Contrast reaction

Venous injury

Coil migration / non target embolisation

 

 

Open retroperitoneal (Palomo):

  • Incision at point of deep ring (2 – 4 cm above mid point of inguinal ligament)
  • Expose and incise EOA
  • Retract internal oblique cranially, go through transversus into retroperitoneum
  • Push peritoneum medially exposing vessels and vas as they enter into deep ring
  • Traction on testis may help exposure
  • Ligate gonadal vein avoiding vas. Taking artery at this level shouldn’t matter.

 

Microscopic:

  • Most doing subinguinal – expose cord over Penrose or similar a la orchidectomy
  • Consider intra-operative Doppler to identify arteries (or drip papaverine on to field)

 

Laparoscopic:

  • Infraumbilical + triangular ports lateral to rectus and suprapubic
  • Supine but head down and tilt to side to get bowel out of way
  • Identify deep ring, release sigmoid if needed
  • Incise and retract peritoneum
  • Look for any peri-arterial veins, can take artery if needed
    • Take everything off the artery to ensure all veins / venae comitantes taken
  • Liga-clips and scissors