A diver's dilemma - a case report on bronchopulmonary sequestration.

BACKGROUND: An asymptomatic SCUBA (Self-contained underwater breathing apparatus) diver was discovered to have an intralobar bronchopulmonary sequestration during routine pre-course screening. This is the first reported case of a diver who, having previously completed several recreational and military diving courses, was subsequently diagnosed with a congenital lung condition, possibly contraindicating diving. Presently, there is no available literature providing guidance on the diving fitness of patients with such a condition. CASE PRESENTATION: An asymptomatic 26-year-old male diver was nominated to attend an overseas naval diving course. Prior to this, he had been medically certified to participate in, and had successfully completed other military and recreational diving courses. He had also completed several hyperbaric dives up to a depth of 50 m and 45 recreational dives up to a depth of 30 m. He did not have a history of diving-related injuries or complications. He had never smoked and did not have any medical or congenital conditions, specifically recurrent respiratory infections. As part of pre-course screening requirements, a lateral Chest X-ray was performed, which revealed a left lower lobe pulmonary nodule. This was subsequently diagnosed as a cavitatory left lower lobe intralobar bronchopulmonary sequestration on Computed Tomography Thorax. The diver remains asymptomatic and well at the time of writing and has been accepted to participate in another overseas course involving only dry diving in a hyperbaric chamber, with no prerequisites for him to undergo surgery. CONCLUSION: Although bronchopulmonary sequestrations lack communication with the tracheobronchial tree, they may still contain pockets of air, even if not radiologically visible. This can be attributed to anomalous connections which link them to other bronchi, lung parenchyma and/or pores of Kohn. As such, there is a higher theoretical risk of pulmonary barotrauma during diving, leading to pneumothorax, pneumomediastinum, or cerebral arterial gas embolism. Taking these into consideration, the current clinical consensus is that bronchopulmonary sequestrations and all other air-containing lung parenchymal lesions should be regarded as contraindications to diving. Patients who have undergone definitive and uncomplicated surgical resection may be considered fit to dive.

Incision-sparing management of canaliculitis: an efficacious alternative to surgical management.

OBJECTIVE: The aim of this study was to describe the outcomes of conservative (punctal dilation, manual expression, microcurettage, and canalicular irrigation with antibiotics) and surgical (punctoplasty) modalities for the management of canaliculitis in an Asian population. METHODS: The medical records of 11 consecutive patients (12 eyes) presenting with canaliculitis to one surgeon from August 2010 to January 2014 were reviewed. The clinical presentation, findings, management, microbiology, and treatment outcomes were studied. RESULTS: The mean age was 70.6 years (57-91 years), 8 (72.7%) patients were females, and all 11(100%) were Chinese. The majority had unilateral canaliculitis-8 (66.7%) right eye only and 4 (33.3%) left eye only (1 patient had consecutive right canaliculitis followed by left canaliculitis)-involving the lower canaliculi (75%). Ten (83.3%) eyes had primary canaliculitis, and 2 (16.7%) eyes had secondary canaliculitis from punctal plug insertion. Common presenting symptoms included eye discharge (75%) and eyelid swelling/redness (50%). Common clinical signs included mucopurulent punctal regurgitation (75%) and pouting punctum (58.3%). Facultative anaerobes (56.3%) formed the majority of organisms, and the most common bacteria isolated were Streptococcus spp. (18.8%). Mean duration to definitive treatment was 35 days (0-126 days). Ten (83.3%) eyes were successfully treated with incision-sparing modalities, and 2 (16.7%) eyes were treated surgically. No recurrences were observed at 3, 6, and 12 months, and only 1 (10.0%) of the 10 conservatively managed eyes had a recurrence of canaliculitis after 3.8 years. CONCLUSIONS: Surgical modalities remain effective for the treatment of canaliculitis. However, they are not without disadvantages, such as scarring, discomfort, infection, and recurrence of punctal stenosis. In our experience, incision-sparing modalities are effective in the treatment of canaliculitis and have low recurrence rates.

The Effect of a Diving Mask on Intraocular Pressure in a Healthy Population.

PURPOSE: Swimming goggles increase the intraocular pressure (IOP) via the periorbital frame pressure and suction effect. In comparison, diving masks have a larger frame rim and incorporate the nose. The exact effect(s) of diving masks on IOP is unknown. This study evaluates the influence of diving masks on IOP in normal, healthy subjects. METHODS: Tonometry was performed in both eyes of all subjects with an AVIA(®)Tono-Pen by a single investigator. Measurements were taken at baseline without the diving mask and with the subjects wearing a small-volume, double-window diving mask, but with the mask lenses removed. Two IOP readings in each eye were measured, and an additional reading was measured if the difference between the initial 2 was ≥2 mm Hg. Central corneal thickness (CCT) was also measured in each eye, using a contact pachymeter (OcuScan(®)Alcon). RESULTS: Forty eyes of 20 healthy volunteers (age 29.7 ± 9.3 years; range 21-52) were included. The mean CCT was 544.4 ± 43.5 µm. The mean IOP before the diving mask was worn had been 17.23 ± 2.18 mm Hg (n = 40). The IOP decreased by 0.43 mm Hg (p $1003c; 0.05) to 16.80 ± 2.57 mm Hg after the diving mask had been put on. There was no correlation between IOP change and age (r = 0.143, p = 0.337), gender (r = -0.174, p = 0.283) or CCT (r = -0.123, p = 0.445). CONCLUSION: There was no increase in IOP after the diving mask had been worn. A small but statistically significant decrease in IOP was observed. This study demonstrates that unlike swimming goggles, the strap tension and frame pressure on the periorbital tissue from a diving mask does not increase IOP. Diving masks may be a suitable alternative to swimming goggles for patients with advanced glaucoma or glaucoma filtration surgery.

Case report of optic disc drusen with simultaneous peripapillary subretinal hemorrhage and central retinal vein occlusion.

A 52-year-old Chinese gentleman presented with right eye floaters and photopsia over one week. His visual acuities were 20/20 bilaterally. Posterior segment examination showed a right eye swollen optic disc and central retinal vein occlusion (CRVO) associated with an area of subretinal hemorrhage adjacent to the optic disc. Fundus fluorescein (FA) and indocyanine green angiographies (ICGA) of the right eye did not demonstrate choroidal neovascularization (CNV), polypoidal choroidal vasculopathy (PCV), or retinal ischemia. Ultrasound B-scan revealed optic disc drusen (ODD). In view of good vision and absence of CNV, he was managed conservatively with spontaneous resolution after two months. Commonly, ODD may directly compress and mechanically rupture subretinal vessels at the optic disc, resulting in peripapillary subretinal hemorrhage, as was likely the case in our patient. Mechanical impairment of peripapillary circulation also results in retinal ischemia and may trigger the development of choroidal neovascularization (CNV) and/or polypoidal choroidal vasculopathy (PCV), leading to subretinal haemorrhage. Compromise in central venous outflow with increased retinal central venous pressure from the direct mechanical effects of enlarging ODD results in central retinal vein occlusion (CRVO). Patients with subretinal hemorrhage and CRVO from ODD should be monitored closely for the development of potentially sight-threatening complications.