Demographics, pathological characteristics and survival in urothelial bladder cancer in a cohort of Sri Lankan patients.

Introduction: Bladder cancer has the 9th highest incidence among Sri Lankan males. This study describes the demographic profiles and survival in bladder cancer patients at two tertiary care centres in Sri Lanka. Methods: A group of patients with urothelial bladder cancer, presenting for the first time for definitive treatment, were prospectively enrolled from 2013 to 2017. Results: There were sixty-six patients, with median age of 65 years and male to female ratio of 7:1. Histopathologically pTa 24%, pT1 47% and pT2 29%. Of the pT1 tumours 61% were low grade (LG). The majority (71%) of non-muscle invasive bladder cancer (NMIBC) patients underwent transurethral resection of bladder tumour only. For the entire cohort the 5-year overall survival was 59% and cancer specific survival (CSS) was 65%. CSS in NMIBC was 75% and 30% in muscle invasive bladder cancer (MIBC). The 5-year female CSS (22%) was significantly lower than in males (71%). Conclusion: Our cohort has a high male to female ratio. The percentage of MIBC was lower than reported in previous Sri Lankan studies. Of the pT1 tumours there is a higher percentage of pT1 LG patients in comparison to Western reports. There is low utilisation of intravesical mitomycin / bacillus Calmette-Guérin (BCG) in the treatment of NMIBC. The 5-year CSS in the Sri Lankan (lower middle-income economy) cohort lies between the values of high-income economies and upper middle-income economies in Asia. The reasons for poor CSS among Sri Lankan women with bladder cancer needs to be further investigated.

Preserving the marginal mandibular branch of the facial nerve during submandibular region surgery: a cadaveric safety study.

BACKGROUND: The marginal mandibular branch of the facial nerve is vulnerable to iatrogenic injuries during surgeries involving the submandibular region. This leads to significant post-operative morbidity. Studies assessing accurate anatomical landmarks of the marginal mandibular branch are sparse in South Asian countries. Present study was conducted to assess the relationship between the marginal mandibular branch and the inferior border of the body of mandible. METHODS: Twenty-two preserved cadavers of Sri Lankan nationality were selected. Cadavers were positioned dorsal decubitus with necks in extension. The maximum perpendicular distance between the inferior/caudal most ramus of the marginal mandibular branch and the inferior border of the body of the mandible was recorded on both hemi faces. RESULTS: Recorded maximum distance was 17.65 mm on left side and 10.80 mm on right side. Mean maximum distance, was 7.12 ± 2.97 mm. There was no statistically significant difference in the maximum deviation on left (7.84 ± 3.41 mm) and right sides (6.44 ± 2.37 mm). CONCLUSION: Course of the marginal mandibular nerve is complex. If the distance of the incision in the posterior submandibular approach is less than 2 cm from the inferior border of the mandible, there is a high probability of damaging the inferior ramus of the marginal mandibular branch of the facial nerve.

An improved technical trick for identification of the thoracodorsal nerve during axillary clearance surgery: a cadaveric dissection study.

BACKGROUND: Accurate anatomical landmarks to locate the thoracodorsal nerve are important in axillary clearance surgery. METHODS: Twenty axillary dissections were carried out on ten preserved Sri Lankan cadavers. Cadavers were positioned dorsal decubitus with upper limbs abducted to 900. An incision was made in the upper part of the anterior axillary line. The lateral thoracic vein was identified and traced bi-directionally. The anatomical location of the thoracodorsal nerve was studied in relation to the lateral border of pectoralis minor and from a point along the lateral thoracic vein, 2 cm inferior to its confluence with the axillary vein. RESULTS: The lateral thoracic vein was invariably present in all the specimens. All the lateral thoracic veins passed lateral to the lateral border of pectoralis minor except in one specimen, where the lateral thoracic vein passed along its lateral border. The thoracodorsal nerve was consistently present posterolateral to the lateral thoracic vein. The mean distance to the lateral thoracic vein from the lateral border of pectoralis minor was 28.7 ± 12.6 mm. The mean horizontal distance, depth, and displacement, from a point along the lateral thoracic vein, 2 cm inferior to its confluence with the axillary vein to the thoracodorsal nerve were 14.5 ± 8.9 mm, 19.7 ± 7.3 mm and 25 ± 5 mm respectively. The thoracodorsal nerve was found in a posterolateral direction, at a 540 ± 120 angle to the horizontal plane, 95% of the time. CONCLUSIONS: The lateral thoracic vein is an accurate guide to the thoracodorsal nerve. We recommend exploring for the thoracodorsal nerve from a point 2 cm from the confluence of the lateral thoracic vein and the axillary vein for a distance of 25 ± 5 mm in a posterolateral direction, at a 540 ± 120 angle to the horizontal plane.

Morphological variations of the human ejaculatory ducts in relation to the prostatic urethra.

Loss of ejaculation can follow transurethral resection of the prostate (TURP). Periverumontanal prostate tissue is preserved in ejaculation-preserving TURP (ep-TURP). Knowledge of ejaculatory duct anatomy in relation to the prostatic urethra can help in ep-TURP. This was evaluated in cross-sections of the prostate using a 3 D model to determine a safe zone for resecting the prostate in ep-TURP. A 3 D reconstruction of the ejaculatory ducts was developed on the basis of six prostate gland cross-sections. The measurements obtained from the 3 D model were standardized according to the maximum width of the prostate. Simple linear regressions were used to predict the relationships of the ejaculatory ducts. The maximum widths of the prostates ranged from 22.60 to 52.10 mm. The ejaculatory ducts entered the prostate with a concavity directed posterolaterally. They then proceeded toward the seminal colliculus in a fairly straight course, and from that point they angulated anteromedially. As they opened into the prostatic urethra they diverged. Significant regression models predicted the relationships of the ejaculatory ducts to the prostatic urethra based on the sizes of the prostates. The 3 D anatomy of ejaculatory ducts can be predicted on the basis of prostate width. The ejaculatory ducts can be preserved with 95% accuracy if a block of tissue 7.5 mm from the midline on either side of the seminal colliculus is preserved, up to 10 mm proximal to the level of the seminal colliculus, during TURP. Clin. Anat. 31:456-461, 2018. © 2017 Wiley Periodicals, Inc.