Ophthalmology Outcomes
Retina Surgery
Our Retina Service is one of the largest subspecialty groups of its kind in the country. Our clinicians are highly skilled at diagnosing and treating the full range of retinal conditions, including macular degeneration, diabetic retinopathy, retinal detachments, ocular tumors, intraocular infections, and severe ocular injuries.
Learn more about retina careSingle Surgery Reattachment Rate for Primary Rhegmatogenous Retinal Detachment
^The decrease in the number of included surgeries is due in part to an increasing number of complex cases managed by the Retina Service in addition to an increase in cases with insufficient follow up due to COVID-19.
At the Retina Service, primary rhegmatogenous retinal detachment (RRD) is one of the most common retinal conditions that requires surgical repair. Our clinicians repair RRDs with pneumatic retinopexy, pars plana vitrectomy, and/or scleral buckle surgery.
During calendar year 2022, the Retina Service performed a total of 1,812 procedures, of which 771 were for retinal detachments (RDs). From these 771 cases, the following were excluded: chronic RDs of greater than one-month duration; exudative and tractional RDs; RDs associated with proliferative vitreoretinopathy, macular holes, or trauma; prior pars plana vitrectomy; patients younger than 18 years of age; cases associated with Marfan’s or Stickler’s syndrome; and cases with insufficient follow-up. After exclusion criteria were applied, 181 uncomplicated primary RRD surgeries remained for the following analysis. The single surgery reattachment rate, defined as an attached retina 3-5 months post-operatively, was 93.4% (or 169 of 181 eyes). Similar results were reported for calendar years 2013 to 2021.
Benchmarks were determined from a literature review of studies that reported single surgery reattachment rates for at least two of the three surgical techniques in this analysis (e.g., pneumatic retinopexy, pars plana vitrectomy, and/or scleral buckle).
Of the 181 included procedures for retinal detachments,
- 3 were pneumatic retinopexies (100% had an attached retina after one surgery)
- 37 were scleral buckle procedures (89.2% had an attached retina after one surgery, and 100% had an attached retina after multiple surgeries)
- 141 were pars plana vitrectomies (94.3% had an attached retina after one surgery, and 100% had an attached retina after multiple surgeries)
Final Retinal Reattachment Rate for Primary Rhegmatogenous Retinal Detachment
^The decrease in the number of included surgeries was due in part to an increasing number of complex cases managed by the Retina Service in addition to an increase in cases with insufficient follow-up during COVID-19.
During calendar year 2022, 181 uncomplicated primary RRD surgeries were analyzed to determine the final retinal reattachment rate.
Retinal reattachment was successfully achieved in 100% of the 181 eyes. This reattachment rate reflects eyes that had one or more surgeries, which may have included pars plana vitrectomy, scleral buckle, and pneumatic retinopexy. These 181 eyes had at least three months of follow-up from the date of the last surgery. Data were collected from visits closest to three months, but up to five months, postoperatively.
With a 100% reattachment rate for primary RRD repair after one or more surgeries, the Retina Service continues to maintain high success rates for this procedure. For the past 11 years, the Retina Service has consistently met international benchmarks of 97% to 100% for successful RRD repair.1-5
Macular Hole Surgery: Single Surgery Closure Rate at Five Months Follow-Up
*Beginning in 2020, macular hole follow-up was included between one week to five months, taking the status of the macular hole closest to the patient's five-month follow-up.
During calendar year 2022, the Retina Service performed 136 macular hole surgeries. Of these, the following were excluded: macular holes associated with RRD or trauma, holes with a history of prior pars plana vitrectomy, macular holes of greater than 6 months duration, and cases with insufficient follow-up. After exclusion criteria were applied, a total of 43 primary macular hole surgeries on 43 eyes (which included pars plana vitrectomy, membrane peel, and gas tamponade) were included in the following analysis.
Of the 43 eyes, 39 (90.7%) achieved surgical success with a single operation. Success was defined as any primary macular hole that was fully closed on an exam between one week and five months following their first surgery, taking the status of the macular hole closest to the patient’s five-month follow-up. A review of the literature suggests that single surgery success rates for macular hole surgery range from 89.8% to 93.0%.1-3 Of the 43 eyes included for analysis in calendar year 2022, 95.3% (41/43) achieved surgical success after one or two surgeries.
Rates of Endophthalmitis After Intravitreal Injection
During the 2022 calendar year, the Retina Service performed 17,908 intravitreal injections (IVIs). Of these, zero cases of infectious endophthalmitis were identified after IVI.
Over a five-year period, the overall incidence rate of endophthalmitis subsequent to intravitreal injection was 0.011% (9 of 85,659 injections).
Although rare, acute endophthalmitis is a potential complication of intravitreal injections. At Mass Eye and Ear, rates of endophthalmitis after intravitreal injection are low compared to international benchmarks.5
The endophthalmitis rate for calendar year 2022 is similar to the overall rate for the past 13 calendar years, where the overall rate of endophthalmitis after intravitreal injection was 0.014% (22 of 156,900 injections).
Management of Intraocular Tumors
The Ocular Melanoma Center at Mass Eye and Ear is an international referral center for the diagnosis and treatment of eye neoplasms.
Uveal melanoma can be treated effectively with proton beam irradiation, achieving high rates of local control, and preserving visual function in many patients. The Ocular Melanoma Center closely examines the recurrence rate at three years following treatment, and as such, 2019 results are presented above.
One hundred eight patients were treated for uveal melanoma in calendar year 2019; 107 patients were treated after diagnosis of primary uveal melanoma while 1 patient was treated for recurrent melanoma. The patient with recurrent melanoma was initially treated with plaque radiotherapy. One hundred six patients received proton beam irradiation, 1 patient had an enucleation and 1 patient elected to participate in a clinical trial. Of those treated with proton therapy, 95 returned for at least one follow-up visit after completion of treatment, and 64 patients (67.4%) had three or more years (defined as a follow-up visit at 33 months or later) of follow-up. Median follow-up time was 43.3 months (range: 1.2 months to 59.5). One patient (1/95; 1.1%) developed a recurrence 10.9 months after proton beam therapy. The patient received repeat treatment for the recurrence and remains metastasis-free 40.6 months after initial treatment of the UM.
Proton beam irradiation was developed at Mass Eye and Ear in conjunction with a team of radiotherapists from Massachusetts General Hospital. In 1975, the first proton beam irradiation treatment was administered to a Mass Eye and Ear patient with intraocular malignant melanoma1.
Read More
Single Surgery Reattachment Rate for Primary Rhegmatogenous Retinal Detachment
1. Soni C, Hainsworth DP, Almony A. Surgical management of rhegmatogenous retinal detachment: a meta-analysis of randomized controlled trials. Ophthalmology 2013; 120(7): 1440-1447.
2. Feltgen N, Heimann H, Hoerauf H, et al. Scleral buckling versus primary vitrectomy in rhegmatogenous retinal detachment study (SPR study): Risk assessment of anatomical outcome. SPR study report no.7. Acta Ophthalmol 2013: 91(3): 282-287.3. Adelman RA, Parnes AJ, Ducournau D; European Vitreo-Retinal Society (EVRS) Retinal Detachment Study Group. Strategy for the management of uncomplicated retinal detachments: the European Vitreo-Retinal Society retinal detachment study report 1. Ophthalmology 2013; 120(9): 1804-1808.
4. Sodhi A, Leung LS, Do DV, et al. Recent trends in the management of rhegmatogenous retinal detachment. Surv Ophthalmol 2008; 53(1): 50-67.
5. Day S, Grossman DS, Mruthyunjaya P, et al. One-year outcomes after retinal detachment surgery among medicare beneficiaries. Am J Ophthalmol 2010; 150(3): 338 345.
Final Retinal Reattachment Rate for Primary Rhegmatogenous Retinal Detachment
1. Han DP, Mohsin NC, Guse CE, et al. Comparison of pneumatic retinopexy and scleral buckling in the management of primary rhegmatogenous retinal detachment. Southern Wisconsin Pneumatic Retinopexy Study Group. Am J Ophthalmol 1998; 126(5): 658-668.
2. Avitabile T, Bartolotta G, Torrisi B, et al. A randomized prospective study of rhegmatogenous retinal detachment cases treated with cryopexy versus frequency-doubled Nd:YAG laser-retinopexy during episcleral surgery. Retina 2004; 24(6), 878-882.
3. Azad RV, Chanana B, Sharma YR, et al. Primary vitrectomy versus conventional retinal detachment surgery in phakic rhegmatogenous retinal detachment. Acta Ophthalmol Scand 2007; 85(5): 540-545.
4. Sullivan PM, Luff AJ, Aylward GW. Results of primary retinal reattachment surgery: a prospective audit. Eye 1997; 11(Pt6): 869-871.
5. Day S, Grossman DS, Mruthyunjaya P, et al. One-year outcomes after retinal detachment surgery among medicare beneficiaries. Am J Ophthalmol 2010; 150(3): 338-345.
Macular Hole Surgery: Single Surgery Success Rate at Three Months
1. Wu D, Ho LY, Lai M, et al. Surgical outcomes of idiopathic macular hole repair with limited postoperative positioning. Retina 2011; 31 (3): 609-611.
2. Smiddy WE, Feuer W, Cordahi G. Internal limiting membrane peeling in macular hole surgery. Ophthalmology 2001; 108(8): 1471-1478.
3. Guillaubey A, Malvitte L, Lafontaine PO, et al. Comparison of face-down and seated position after idiopathic macular hole surgery: a randomized clinical trial. Am J Ophthalmol 2008; 146(1): 128-134.
Rates of Endophthalmitis After Intravitreal Injection
1. Bhavsar AR, Googe JM Jr, Stockdale CR, et al. Risk of endophthalmitis after intravitreal drug injection when topical antibiotics are not required: the diabetic retinopathy clinical research network laser-ranibizumab-triamcinolone clinical trials. Arch Ophthalmol 2009; 127(12): 1581-1583.
2. Englander M, Chen TC, Paschalis EI, et al. Intravitreal injections at the Massachusetts Eye and Ear Infirmary: analysis of treatment indications and postinjection endophthalmitis rates. Br J Ophthalmol 2013; 97(4): 460-465.
3. Fileta JB, Scott IU, Flynn HW Jr. Meta-analysis of infectious endophthalmitis after intravitreal injection of anti-vascular endothelial growth factor agents. Ophthalmic Surg Lasers Imaging Retina 2014; 45(2): 143-149.
4. VanderBeek BL, Bonaffini SG, Ma L. Association of compounded bevacizumab with postinjection endophthalmitis. JAMA Ophthalmol 2015; 133(10): 1159 1164.
5. Dossarps D, Bron AM, Koehrer P, et al. Endophthalmitis after intravitreal injections: incidence, presentation, management, and visual outcome. Am J Ophthalmol 2015; 160(1): 17-25.
Management of Intraocular Tumors: Tumor Recurrence After Proton Therapy
1. Gragoudas ES, Egan KM, Seddon JM, et al. Intraocular recurrence of uveal melanoma after proton beam irradiation. Ophthalmology 1992, 99: 760-766.
