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Review
. 2023 May 31;5(5):CD008214.
doi: 10.1002/14651858.CD008214.pub4.

Anti-vascular endothelial growth factors in combination with vitrectomy for complications of proliferative diabetic retinopathy

Panagiotis Dervenis  1   2 Nikolaos Dervenis  3   4 Jonathan M Smith  5 David Hw Steel  5   6
Affiliations
Review

Anti-vascular endothelial growth factors in combination with vitrectomy for complications of proliferative diabetic retinopathy

Panagiotis Dervenis et al. Cochrane Database Syst Rev. .

Abstract

Background: Vitrectomy is an established treatment for the complications of proliferative diabetic retinopathy (PDR). However, a number of complications can occur during and after vitrectomy for PDR. These include bleeding and the creation of retinal holes during surgery, and bleeding, retinal detachment and scar tissue on the retina after surgery. These complications can limit vision, require further surgery and delay recovery. The use of anti-vascular endothelial growth factor (anti-VEGF) agents injected into the eye before surgery has been proposed to reduce the occurrence of these complications. Anti-VEGF agents can reduce the amount and vascularity of abnormal new vessels associated with PDR, facilitating their dissection during surgery, reducing intra- and postoperative bleeding, and potentially improving outcomes.

Objectives: To assess the effects of perioperative anti-VEGF use on the outcomes of vitrectomy for the treatment of complications for proliferative diabetic retinopathy (PDR).

Search methods: We searched the Cochrane Central Register of Controlled Trials (CENTRAL; which contains the Cochrane Eyes and Vision Trials Register; 2022, Issue 6); Ovid MEDLINE; Ovid Embase; the ISRCTN registry; ClinicalTrials.gov and the WHO ICTRP. The date of the search was 22 June 2022.

Selection criteria: We included randomised controlled trials (RCTs) that looked at the use of anti-VEGFs and the incidence of complications in people undergoing vitrectomy for PDR. DATA COLLECTION AND ANALYSIS: Two review authors independently assessed and extracted the data. We used the standard methodological procedures expected by Cochrane. The critical outcomes of the review were the mean difference in best corrected visual acuity (BCVA) between study arms at six (± three) months after the primary vitrectomy, the incidence of early postoperative vitreous cavity haemorrhage (POVCH, within four weeks postoperatively), the incidence of late POVCH (occurring more than four weeks postoperatively), the incidence of revision surgery for POVCH within six months, the incidence of revision surgery for recurrent traction/macular pucker of any type and/or rhegmatogenous retinal detachment within six months and vision-related quality of life (VRQOL) measures. Important outcomes included the proportion of people with a visual acuity of counting fingers (1.8 logMAR or worse), the number of operative retinal breaks reported and the frequency of silicone oil tamponade required at time of surgery.

Main results: The current review includes 28 RCTs that looked at the pre- or intraoperative use of intravitreal anti-VEGFs to improve the outcomes of pars plana vitrectomy for complications of PDR. The studies were conducted in a variety of countries (11 from China, three from Iran, two from Italy, two from Mexico and the remaining studies from South Korea, the UK, Egypt, Brazil, Japan, Canada, the USA, Indonesia and Pakistan). The inclusion criteria for entry into the studies were the well-recognised complications of proliferative retinopathy: non-clearing vitreous haemorrhage, tractional retinal detachment involving the macula or combined tractional rhegmatogenous detachment. The included studies randomised a total of 1914 eyes. We identified methodological issues in all of the included studies. Risk of bias was highest for masking of participants and investigators, and a number of studies were unclear when describing randomisation methods and sequence allocation. Participants receiving intravitreal anti-VEGF in addition to pars plana vitrectomy achieved better BCVA at six months compared to people undergoing vitrectomy alone (mean difference (MD) -0.25 logMAR, 95% confidence interval (CI) -0.39 to -0.11; 13 studies, 699 eyes; low-certainty evidence). Pre- or intraoperative anti-VEGF reduced the incidence of early POVCH (12% versus 31%, risk ratio (RR) 0.44, 95% CI 0.34 to 0.58; 14 studies, 1038 eyes; moderate-certainty evidence). Perioperative anti-VEGF use was also associated with a reduction in the incidence of late POVCH (10% versus 23%, RR 0.47, 95% CI 0.30 to 0.74; 11 studies, 579 eyes; high-certainty evidence). The need for revision surgery for POVCH occurred less frequently in the anti-VEGF group compared with control, but the confidence intervals were wide and compatible with no effect (4% versus 13%, RR 0.44, 95% CI 0.15 to 1.28; 4 studies 207 eyes; moderate-certainty evidence). Similar imprecisely measured effects were seen for revision surgery for rhegmatogenous retinal detachment (5% versus 11%, RR 0.50, 95% CI 0.15 to 1.66; 4 studies, 145 eyes; low-certainty evidence). Anti-VEGFs reduce the incidence of intraoperative retinal breaks (12% versus 31%, RR 0.37, 95% CI 0.24 to 0.59; 12 studies, 915 eyes; high-certainty evidence) and the need for silicone oil (19% versus 41%, RR 0.46, 95% CI 0.27 to 0.80; 10 studies, 591 eyes; very low-certainty evidence). No data were available on quality of life outcomes or the proportion of participants with visual acuity of counting fingers or worse.

Authors' conclusions: The perioperative use of anti-VEGF reduces the risk of late POVCH, probably results in lower early POVCH risk and may improve visual outcomes. It also reduces the incidence of intraoperative retinal breaks. The evidence is very uncertain about its effect on the need for silicone oil tamponade. The reported complications from its use appear to be low. Agreement on variables included and outcome standardisation is required in trials studying vitrectomy for PDR.

Trial registration: ClinicalTrials.gov NCT01270542 NCT01805297 NCT01589718 NCT00516464 NCT00931125 NCT01091896 NCT01151722 NCT01306981.

PubMed Disclaimer

Conflict of interest statement

For the 2021 update (taken from CoI forms completed on 24 March 2021):

JS: No conflicts to declare ND: No conflicts to declare PD: No conflicts to declare DS: No conflicts to declare

Figures

1
1
2
2
Risk of bias summary: review authors' judgements about each risk of bias item for each included study.
3
3
4
4
5
5
6
6
7
7
1.1
1.1. Analysis
Comparison 1: Anti‐VEGF versus control, Outcome 1: Mean BCVA
1.2
1.2. Analysis
Comparison 1: Anti‐VEGF versus control, Outcome 2: Early POVCH
1.3
1.3. Analysis
Comparison 1: Anti‐VEGF versus control, Outcome 3: Late POVCH
1.4
1.4. Analysis
Comparison 1: Anti‐VEGF versus control, Outcome 4: Revision surgery for POVCH
1.5
1.5. Analysis
Comparison 1: Anti‐VEGF versus control, Outcome 5: Revision surgery for recurrent traction and/or RRD
1.6
1.6. Analysis
Comparison 1: Anti‐VEGF versus control, Outcome 6: Intraoperative retinal breaks
1.7
1.7. Analysis
Comparison 1: Anti‐VEGF versus control, Outcome 7: Silicone oil use
2.1
2.1. Analysis
Comparison 2: Anti‐VEGF versus control: subgroup analysis ‐ time of administration of anti‐VEGF, Outcome 1: Mean BCVA
2.2
2.2. Analysis
Comparison 2: Anti‐VEGF versus control: subgroup analysis ‐ time of administration of anti‐VEGF, Outcome 2: Early POVCH
3.1
3.1. Analysis
Comparison 3: Anti‐VEGF versus control: subgroup analysis ‐ main indication for vitrectomy, Outcome 1: Mean BCVA
4.1
4.1. Analysis
Comparison 4: Anti‐VEGF versus control: subgroup analysis ‐ bevacizumab versus other anti‐VEGF, Outcome 1: Mean BCVA
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References

References to studies included in this review

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Marcus 2017 {published data only}
    1. Marcus DM, Singh H, Farooq A, Starnes D, Walia H. Endolaserless vitrectomy with intravitreal aflibercept injection (IAI) for proliferative diabetic retinopathy (PDR)-related vitreous hemorrhage (LASER LESS TRIAL). Investigative Ophthalmology and Visual Science 2017;58(8):ARVO E-abstract 5036.
Meng 2016 {published data only}
    1. Meng N, Ren BC. Effect of intravitreal injection of bevacizumab for vitreous hemorrhage in patients with proliferative diabetic retinopathy. International Eye Science 2016;16(5):972-4.
NCT01589718 {unpublished data only}
    1. NCT01589718. A phase III randomized 1:1, masked, study of the safety, tolerability, and efficacy of intravitreal pre-op 0.3mg pegaptanib sodium versus sham, for adjuvant management of TRD and vit hem associated with PDR. clinicaltrials.gov/show/NCT01589718 (first received 2 May 2012).
Oshima 2009 {published data only}
    1. Oshima Y, Shima C, Wakabayashi T, Kusaka S, Shiraga F, Ohji M, et al. Microincision vitrectomy surgery and intravitreal bevacizumab as a surgical adjunct to treat diabetic traction retinal detachment. Ophthalmology 2009;116(5):927-38. - PubMed
Ozer 2022 {published data only}
    1. Ozer F, Tokuc EO, Albayrak MG, Akpinar G, Kasap M, Karabas VL. Comparison of before versus after intravitreal bevacizumab injection, growth factor levels and fibrotic markers in vitreous samples from patients with proliferative diabetic retinopathy. Graefes Archive for Clinical and Experimental Ophthalmology 2022;260(6):1899-906. - PubMed
Papavasileiou 2017 {published data only}
    1. Papavasileiou E, Vasalaki M, Garnavou-Xirou C, Velissaris S, Zygoura V, McHugh D, et al. Vitrectomy with fibrovascular membrane delamination for proliferative diabetic retinopathy with or without preoperative Avastin. Hellenic Journal of Nuclear Medicine 2017;20(Suppl):161. [DOI: 10.1111/j.1755-3768.2017.02313] - DOI - PubMed
Park 2010 {published data only}
    1. Park DH, Shin JP, Kim SY. Intravitreal injection of bevacizumab and triamcinolone acetonide at the end of vitrectomy for diabetic vitreous hemorrhage: a comparative study. Graefes Archive for Clinical and Experimental Ophthalmology 2010;248(5):641-50. - PubMed
Park 2021 {published data only}
    1. Park YJ, Ahn J, Kim TW, Park SJ, Joo K, Park KH, et al. Efficacy of bevacizumab for vitreous haemorrhage in proliferative diabetic retinopathy with prior complete panretinal photocoagulation. Eye 2021;35(11):3056-63. - PMC - PubMed
Pokroy 2011 {published data only}
    1. Pokroy R, Desai UR, Du E, Li Y, Edwards P. Bevacizumab prior to vitrectomy for diabetic traction retinal detachment. Eye 2011;28(8):989-97. - PMC - PubMed
Romano 2009a {published data only}
    1. Romano MR, Gibran SK, Marticorena J, Wong D, Heimann H. Can a preoperative bevacizumab injection prevent recurrent postvitrectomy diabetic vitreous haemorrhage? Eye 2009;23(8):1698-701. - PubMed
Romano 2009b {published data only}
    1. Romano MR, Gibran SK, Marticorena J, Wong D. Can an intraoperative bevacizumab injection prevent recurrent postvitrectomy diabetic vitreous hemorrhage? European Journal of Ophthalmology 2009;19(4):618-21. - PubMed
Sato 2013 {published data only}
    1. Sato T, Morita S, Bando H, Sato S, Ikeda T, Emi K. Early vitreous hemorrhage after vitrectomy with preoperative intravitreal bevacizumab for proliferative diabetic retinopathy. Middle East African Journal of Ophthalmology 2013;20(1):51-5. - PMC - PubMed
Shi 2020 {published data only}
    1. Shi SH, Xu F, Li M. Clinical study of conbercept in patients with proliferative diabetic retinopathy undergoing vitrectomy. International Eye Science 2020;20(5):852-5.
Starnes 2019 {published data only}
    1. Starnes DC, Lalane R, Walia H, Farooq A, Frazier H, Marcus W, et al. Endolaserless vitrectomy with intravitreal aflibercept injection (IAI) for proliferative diabetic retinopathy (PDR)-related vitreous hemorrhage: LASER LESS TRIAL 1-year results. Investigative Ophthalmology and Visual Science 2019;60(9):ARVO E-abstract 6559.
Sun 2017 {published data only}
    1. Sun L, Tao Y. Effects of Bevacizumab on CTGF and PEDF in proliferative membrane in patients with PDR. International Eye Science 2017;17(6):1051-4.
Sun 2022 {published data only}
    1. Sun H, Zou W, Zhang Z, Huang D, Zhao J, Qin B, et al. Vitreous inflammatory cytokines and chemokines, not altered after preoperative adjunctive conbercept injection, but associated with early postoperative macular edema in patients with proliferative diabetic retinopathy. Frontiers in Physiology 2022;13:846003. - PMC - PubMed
Tsubota 2019 {published data only}
    1. Tsubota K, Usui Y, Wakabayashi Y, Suzuki J, Ueda S, Goto H. Effectiveness of prophylactic intravitreal bevacizumab injection to proliferative diabetic retinopathy patients with elevated preoperative intraocular VEGF in preventing complications after vitrectomy. Clinical Ophthalmology 2019;13:1063-70. - PMC - PubMed
Turkseven Kumral 2021 {published data only}
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    1. Victor AA, Gondhowiardjo TD, Waspadji S, Wanandi SI, Bachtiar A, Suyatna FD, et al. Effect of laser photocoagulation and bevacizumab intravitreal in proliferative diabetic retinopathy: review on biomarkers of oxidative stress. Medical Journal of Indonesia 2014;23(2):79-86.
Vidinova 2020 {published data only}
    1. Vidinova CN, Gouguchkova PT, Dimitrov T, Vidinov KN, Nocheva H. Comparative clinical and ultrastructural analysis of the results from ranibizumab and aflibercept in patients with PDR [Ultrastruktureller und klinischer Vergleich des Ergebnisses bei PDR-Patienten, behandelt mit Ranibizumab oder Aflibercept – von Grundlagenforschungen zu den klinischen Therapien]. Klinische Monatsblatter fur Augenheilkunde 2020;237(1):79-84. - PubMed
Wang 2019 {published data only}
    1. Wang J, Gao X, Liu J, Wang J, Zhang Y, Zhang T, et al. Effect of intravitreal conbercept treatment on the expression of long noncoding RNAs and mRNAs in proliferative diabetic retinopathy patients. Acta Opthalmologica 2019;97(6):e902-12. - PubMed
Wang 2020 {published data only}
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Yang 2008 {published data only}
    1. Yang CM, Yeh PT, Yang CH, Chen MS. Bevacizumab pretreatment and long-acting gas infusion on vitreous clear-up after diabetic vitrectomy. American Journal of Ophthalmology 2008;146(2):211-7. - PubMed
Yeh 2009 {published data only}
    1. Yeh PT, Yang CM, Lin YC, Chen MS, Yang CH. Bevacizumab pretreatment in vitrectomy with silicone oil for severe diabetic retinopathy. Retina 2009;29(6):768-74. - PubMed
Yeoh 2008 {published data only}
    1. Yeoh J, Williams C, Allen P, Buttery R, Chiu D, Clark B. Avastin as an adjunct to vitrectomy in the management of severe proliferative diabetic retinopathy: a prospective case series. Clinical and Experimental Ophthalmology 2008;36(5):449-54. - PubMed
Yeung 2010 {published data only}
    1. Yeung L, Liu L, Wu WC, Kuo YH, Chao AN, Chen KJ, et al. Reducing the incidence of early postoperative vitreous haemorrhage by preoperative intravitreal bevacizumab in vitrectomy for diabetic tractional retinal detachment. Acta Opthalmologica 2010;88(6):635-40. - PubMed
Yin 2017 {published data only}
    1. Yin N, Zhao S, Zhu HN. Efficacy comparison of conbercept and ranibizumab as pre-treatment for pars plana vitrectomy in proliferative diabetic retinopathy. International Eye Science 2017;17(7):1300-2.
Zeng 2017 {published data only}
    1. Zeng G, Li P, Ye Y. Effects of intravitreal injection of conbercept on vitrectomy for proliferative diabetic retinopathy. Chinese Journal of Experimental Ophthalmology 2017;35(10):920-3.
Zhou 2018a {published data only}
    1. Zhou J, Liu Z, Chen M, Luo ZH, Li YQ, Qi GY, et al. Concentrations of VEGF and PlGF decrease in eyes after intravitreal conbercept injection. Diabetes Therapy 2018;9(6):2393-8. - PMC - PubMed
Zhou 2018b {published data only}
    1. Zhou HS, Ma HZ, Liang WL, Yan SG. Effects of vitrectomy with preoperative intravitreal conbercept for proliferative diabetic retinopathy. International Eye Science 2018;18(2):363-6.

References to ongoing studies

ISRCTN79120387 {unpublished data only}79120387
    1. ISRCTN79120387. A randomised, single-masked, phase IV pilot study of the efficacy and safety of adjunctive intravitreal Avastin® (bevacizumab) in the prevention of early postoperative vitreous haemorrhage following diabetic vitrectomy. www.controlled-trials.com/ISRCTN79120387 (first received 18 September 2007).
NCT00516464 {unpublished data only}
    1. NCT00516464. Evaluation of ranibizumab in proliferative diabetic retinopathy (PDR) requiring vitrectomy. clinicaltrials.gov/ct2/show/NCT00516464 (first received 15 August 2007).
NCT00931125 {unpublished data only}
    1. NCT00931125. Randomized, double blinded, controlled, two-center study assessing the safety and efficacy of intravitreal ranibizumab as a preoperative adjunct treatment before vitrectomy surgery in proliferative diabetic retinopathy (PDR) compared to vitrectomy alone. clinicaltrials.gov/show/NCT00931125 (first received 2 July 2009).
NCT01091896 {unpublished data only}
    1. NCT01091896. Adjuvant intravitreal bevacizumab in pars plana vitrectomy for vitreous hemorrhage secondary to diabetic retinopathy. clinicaltrials.gov/show/NCT01091896 (first received 24 March 2010).
NCT01151722 {unpublished data only}
    1. NCT01151722. Adjuvant intravitreal bevacizumab in pars plana vitrectomy for diabetic vitreous hemorrhage. clinicaltrials.gov/show/NCT01151722 (first received 28 June 2010).
NCT01306981 {unpublished data only}
    1. NCT01306981. A prospective, randomised controlled trial of ranibizumab pre-treatment in diabetic vitrectomy - a pilot study. clinicaltrials.gov/show/NCT01306981 (first received 2 March 2011).

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References to other published versions of this review

Smith 2011
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Smith 2015
    1. Smith JM, Steel DHW. Anti-vascular endothelial growth factor for prevention of postoperative vitreous cavity haemorrhage after vitrectomy for proliferative diabetic retinopathy. Cochrane Database of Systematic Reviews 2015, Issue 8. Art. No: CD008214. [DOI: 10.1002/14651858.CD008214.pub3] - DOI - PMC - PubMed
Steel 2010
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