Combined Dexamethasone Intravitreal Implant and Glaucoma Drainage Device Placement for Uveitic Glaucoma.

To the Editor: Uveitic glaucoma is a clinician’s gray area of interest where the best treatment is still not clear. We read with great interest the recently published article by Nguyen et al1 “Combined Dexamethasone Intravitreal Implant and Glaucoma Drainage Device Placement for Uveitic Glaucoma” and we would like to appreciate the work of authors. The cause of raised intraocular pressure in these cases may be the blockage of the trabecular meshwork by the inflammatory cells/pigments, trabeculitis, peripheral anterior synechiae and which may get exaggerated by steroid responsiveness.2 Gonioscopy is an important tool to determine the angle status but the authors have not mentioned about the angle status in this study cohort. Uveitic eye can be difficult to treat with frequent episodes of hypotony due to ciliary body inflammation followed by intraocular pressure building up once the inflammation resolves.3,4 We made a few more queries and observations and would like to share with the authors. First, the mean preoperative logMAR best-corrected visual acuity was 0.55 ± 0.40 which deteriorated over the 9 months of follow-up as illustrated in the Box plot. We want to know whether the cause for decreased vision preoperatively was the presence of cataract, uveitis or any posterior segment pathology. As mentioned by the authors there was a decrease in number of episodes of reactivation of uveitis so what could have been the cause of decreased vision during the postoperative course. Second, preoperative finding like anterior chamber depth, lens status (phakic or pseudophakic), degree of synechiae in each eye has not been mentioned. Bayer and Önol5 and our own clinical experience show that above factors play a determinant role in deciding the site and position (ie, anterior chamber or ciliary sulcus) of tube placement of Ahmed glaucoma valve. A sulcus placement may be desirable in case of progressing synechiae. In case the tubes were placed in the anterior chamber, we wanted to know if there was an increase noted in degree of synechiae postsurgery as this may affect the tube position. We also want to know if these eyes had undergone previously failed filtering surgeries or were virgin eyes with no previous surgical intervention. In results, it was found that 1 eye had hypotony on postoperative 1-month upto 3-month; however, the cause for hypotony was not mentioned. Also we want to know if there was corneal-tube touch or lens-tube touch noted in this case. Third, most of the patients in this study cohort were on topical and systemic immunosuppressant preoperatively and postoperatively, so to what extent the dexamethasone implant was beneficial in reducing the frequency of uveitic episodes or increasing the success of the tube implant is not clear. A control group comprising of similar patients on preoperative topical and systemic corticosteroids/immunosuppressant undergoing tube implant without the dexamethasone implant should have been included. So, we agree with the authors that a long-term prospective study with a control group would be needed to give a better understanding of the role of combined placement of intravitreal dexamethasone implant with glaucoma drainage device in eyes with uveitic glaucoma.


To the Editor:
Uveitic glaucoma is a clinician's gray area of interest where the best treatment is still not clear. We read with great interest the recently published article by Nguyen et al 1 "Combined Dexamethasone Intravitreal Implant and Glaucoma Drainage Device Placement for Uveitic Glaucoma" and we would like to appreciate the work of authors.
The cause of raised intraocular pressure in these cases may be the blockage of the trabecular meshwork by the inflammatory cells/pigments, trabeculitis, peripheral anterior synechiae and which may get exaggerated by steroid responsiveness. 2 Gonioscopy is an important tool to determine the angle status but the authors have not mentioned about the angle status in this study cohort. Uveitic eye can be difficult to treat with frequent episodes of hypotony due to ciliary body inflammation followed by intraocular pressure building up once the inflammation resolves. 3,4 We made a few more queries and observations and would like to share with the authors.
First, the mean preoperative log-MAR best-corrected visual acuity was 0.55 ± 0.40 which deteriorated over the 9 months of follow-up as illustrated in the Box plot. We want to know whether the cause for decreased vision preoperatively was the presence of cataract, uveitis or any posterior segment pathology. As mentioned by the authors there was a decrease in number of episodes of reactivation of uveitis so what could have been the cause of decreased vision during the postoperative course.
Second, preoperative finding like anterior chamber depth, lens status (phakic or pseudophakic), degree of synechiae in each eye has not been mentioned. Bayer and Önol 5 and our own clinical experience show that above factors play a determinant role in deciding the site and position (ie, anterior chamber or ciliary sulcus) of tube placement of Ahmed glaucoma valve. A sulcus placement may be desirable in case of progressing synechiae. In case the tubes were placed in the anterior chamber, we wanted to know if there was an increase noted in degree of synechiae postsurgery as this may affect the tube position. We also want to know if these eyes had undergone previously failed filtering surgeries or were virgin eyes with no previous surgical intervention.
In results, it was found that 1 eye had hypotony on postoperative 1-month upto 3-month; however, the cause for hypotony was not mentioned. Also we want to know if there was corneal-tube touch or lens-tube touch noted in this case.
Third, most of the patients in this study cohort were on topical and systemic immunosuppressant preoperatively and postoperatively, so to what extent the dexamethasone implant was beneficial in reducing the frequency of uveitic episodes or increasing the success of the tube implant is not clear. A control group comprising of similar patients on preoperative topical and systemic corticosteroids/immunosuppressant undergoing tube implant without the dexamethasone implant should have been included. So, we agree with the authors that a long-term prospective study with a control group would be needed to give a better understanding of the role of combined placement of intravitreal dexamethasone implant with glaucoma drainage device in eyes with uveitic glaucoma. In Reply: We thank Bansal and colleagues for highlighting some of the challenges in managing uveitic glaucoma and for their correspondence regarding our study. 1 While there was no statistically significant change in visual acuity throughout the 1-year postoperative period, the study's small sample size led to greater data spread at postoperative months 1 and 9 (Fig. 1). The box plots demonstrate how mean logMAR visual acuity (crosshairs) was more susceptible to skew from the larger data spread, while the median logMAR visual acuity (line) was more stable.
Causes of decreased vision in the postoperative period included one eye with hypotony maculopathy due to ciliary body shutdown at postoperative months 1 and 3, which resolved by postoperative month 6 (with no cornealtube or lens-tube touch). Another eye had transiently-reduced visual acuity at postoperative month 9 from a vitreous hemorrhage following a repeat intravitreal dexamethasone implant injection performed in the retina clinic, which DOI