Purpose of reviewMinimally invasive glaucoma surgery (MIGS) has been shown to be safe and effective in treatment of mild to moderate glaucoma in adults, but reports in childhood glaucoma are limited. We review the available data concerning MIGS and discuss its potential role in childhood glaucoma management. Recent findingsAb interno counterparts to circumferential ab externo trabeculotomy such as gonioscopy-assisted transluminal trabeculotomy (GATT) and Trab360 show promise in treatment of primary glaucomas as reported in a few retrospective case series. Kahook Dual Blade (KDB) and Trabectome have demonstrated mixed results in few published case reports in children. Small case series and reports suggest that the Xen gel stent can be a safer alternative to traditional filtration surgery, though data on long-term implant and bleb stability are unavailable. Newer devices are being investigated and early results are encouraging. SummaryGATT and Trab360 seem to be safe, effective methods of achieving circumferential trabeculotomy in childhood glaucoma. KDB, Trabectome, and Xen gel stent have shown some success in selected cases with short-term follow-up. Surgeons must determine the risks and benefits of MIGS over more established methods of intraocular pressure reduction for each individual child. Further research is needed to validate initial findings regarding MIGS in childhood glaucoma.
Précis: Overhead mounted spectral-domain optical coherence tomography (OCT) enables high-quality imaging of the optic nerve and macula in childhood glaucoma, and is particularly useful when standard tabletop OCT has failed or is not possible. Purpose: Tabletop OCT, integral to adult glaucoma management, can be limited in childhood glaucoma patients because of young age, poor cooperation, and/or technical challenges. To address these imaging difficulties, we determined the feasibility and quality of an overhead mounted unit in childhood glaucoma. Secondary aims included evaluation of peripapillary retinal nerve fiber layer (pRNFL), parafoveal total retinal thickness, and parafoveal ganglion cell complex (GCC) thickness. Materials and Methods: Children and adults with a diagnosis of childhood glaucoma were imaged with an overhead mounted spectral-domain OCT as part of a prospective cross-sectional study. Participants had poor quality or unobtainable tabletop OCT and were scheduled for an examination under anesthesia and/or surgery as part of standard care. Results: A total of 88 affected eyes in 60 of 65 (92.3%) enrolled patients (mean age, 5.9±5.9 y; range, 0.2 to 24.5) were successfully imaged. The mean image quality for analyzed scans was 22.9±6.0 dB (n=236 images). Mean values for pRNFL (80.5±31.0 µm; n=86), parafoveal total retinal thickness (301.10±39.9 µm; n=79), and parafoveal GCC thickness (96.0±21.6 µm; n=74) were calculated. Conclusions: Overhead mounted OCT allowed high-quality image acquisition and analysis in childhood glaucoma patients unable to be imaged with the tabletop counterpart, presenting an opportunity for improved clinical management and study of childhood glaucoma-related pathophysiology. pRNFL, parafoveal total retinal thickness, and parafoveal GCC thickness were decreased for affected eyes of children under 6 years of age compared with age-matched controls from a companion normative study.
Précis: Home tonometry is useful in detecting tube-opening and alarming intraocular pressures (IOPs) after Baerveldt glaucoma drainage device (GDD) implantation in childhood glaucoma, allowing for timely physician response and individualized patient care. Purpose: The postoperative management of the nonvalved Baerveldt GDD presents challenges in pediatric patients due to widely variable IOP often occurring perioperatively. We evaluated the use of home tonometry in the management of Baerveldt implants for refractory childhood glaucoma. Materials and Methods: As part of an ongoing prospective study involving home rebound tonometry, the families of patients receiving Baerveldt implants were trained to use the Icare TA01i rebound tonometer and asked to document IOP, relevant symptoms, and ocular medication changes outside of the clinic setting. Data were analyzed for time to tube-opening, multiple-day fluctuations, and various IOP trends. Clinician response to IOP fluctuations detected by home tonometry was also evaluated. Results: Included were 19 patients (mean age: 16.1±9.6 y) having Baerveldt implantation from 2015 to 2018 by 1 attending physician. Home tonometry detected 92.3% (12/13) of spontaneous tube-openings, which occurred at a mean of 6.0±0.5 weeks. By home tonometry, mean IOP decreased 32.7% (24 vs. 15 mm Hg, P<0.01); 5-day IOP fluctuation decreased from 15 mm Hg preoperatively to 8 mm Hg after tube-opening (P<0.05). Preoperative, postimplantation, and post–tube-opening IOP ranged from 10 to 59, 3 to 61, and 1 to 51 mm Hg, respectively. Home tonometry prompted 94 documented medication changes and validated 1 surgical decision among 14 patients. Conclusions: Home rebound tonometry accurately detected tube-opening and alarming IOP fluctuations, allowing clinicians to promptly and appropriately respond to these events. Home tonometry-augmented GDD management in childhood glaucoma may improve the care of these challenging patients.
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