OBJECTIVE: To measure prostatic thickness and the depth of ejaculatory ducts from the urethral surface to prevent ejaculatory duct damage during transurethral balloon laser thermotherapy. MATERIALS AND METHODS: In 47 prostates obtained at autopsy, the prostatic thickness and the depth of ejaculatory ducts from the urethral surface were measured in eight directions from the centre of the urethra. RESULTS: The depth of ejaculatory ducts was approximately 6 mm from the urethral surface regardless of prostatic weight. Increase in prostatic weight was associated with increase in the thickness in all directions except the posterior one; the thickness ranged from 9 to 20 mm. The posterior thickness at the level of the transition zone was 10 mm regardless of prostatic weight. CONCLUSION: When benign prostatic hypertrophy is treated transurethrally, using laser or microwave equipment, care should be taken to avoid heating the posterior region of the prostate.
OBJECTIVE: To measure prostatic thickness and the depth of ejaculatory ducts from the urethral surface to prevent ejaculatory duct damage during transurethral balloon laser thermotherapy. MATERIALS AND METHODS: In 47 prostates obtained at autopsy, the prostatic thickness and the depth of ejaculatory ducts from the urethral surface were measured in eight directions from the centre of the urethra. RESULTS: The depth of ejaculatory ducts was approximately 6 mm from the urethral surface regardless of prostatic weight. Increase in prostatic weight was associated with increase in the thickness in all directions except the posterior one; the thickness ranged from 9 to 20 mm. The posterior thickness at the level of the transition zone was 10 mm regardless of prostatic weight. CONCLUSION: When benign prostatic hypertrophy is treated transurethrally, using laser or microwave equipment, care should be taken to avoid heating the posterior region of the prostate.