Comparative evaluation of the safety of the lens and the ora serrata during vitrectomy with scleral incisions at 5.0 mm or 4.0 mm posterior to the limbus_Chinese Journal of Ocular Fundus Diseases

Authors：

Xia Ying , Chen Fang , Du Wei , Zhu Jun , Tong Jun , Gan Chunlan , Chen Xi ,  Xie Zhenggao

Department of Ophthalmology, Subei People’s Hospital Affiliated to Yangzhou University, Yangzhou 225001, China;
Xie Zhenggao is working on the Department of Ophthalmology, Nanjing Drum Tower Hospital, The Affiliated Hospital of Nanjing University Medical School, Nanjing 210008, China;

Corresponding author：

Xie Zhenggao, Email: zgxie87@163.com

Keywords：

Vitrectomy; Lens, crystalline/injuries; Retinal perforations

DOI：

10.3760/cma.j.issn.1005-1015.2019.06.005

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Objective To investigate the lens and ora serrata safety during 23G vitrectomy with sclera incisions at 5.0 mm or 4.0 mm posterior to the limbus.Methods A prospective case-controlled study was adopted. From April 2016 to January 2018, 290 consecutive primary 23G vitrectomy patients (300 eyes) with vitreoretinal disease in Department of Ophthalmology of Subei People’s Hospital Affiliated to Yangzhou University were enrolled in this study. Among them, 146 patients (150 eyes) received 23G pars plana vitrectomy (PPV) with scleral incisions at 5.0 mm posterior to the limbus (5.0 mm group), and 144 patients (150 eyes) at 4.0 mm (4.0 mm group). No statistically significant difference was found in age, axial length(t=−1.324, 0.867; P=0.186, 0.387) and in gender, right/left eyes, proportion of indications (χ²=1.366, 2.615, 10.195; P=0.242, 0.106, 0.070) between the two groups. The incidence rate of complications between the two groups were comparatively observed, such as lens injury, retinal tears close to the scleral incision, retinal hemorrhage, supra-choroidal expulsive hemorrhage and iatrogenic retinal detachment. Independent sample t test and χ² test were performed for comparison between the two groups.Results Lens injury was observed in 4 eyes (2.67%) and 14 eyes (9.33%) respectively in the 5.0 mm and 4.0 mm group during surgery (χ²=5.910, P=0.015). Retinal tears close to the scleral incision sites were observed in 5 eyes (3.33%) and 6 eyes (4.00%) respectively in the 5.0 mm and 4.0 mm group during surgery (χ²=0.094, P=0.759). The mean time of removing the vitreous base was 6.17±2.76 min and 10.03±5.56 min respectively in the 5.0 mm and 4.0 mm group (t=7.599, P＜0.01). No other surgical complications occurred in any group, such as retinal hemorrhage, supra-choroidal expulsive hemorrhage and iatrogenic retinal detachment, etc.Conclusion In primary 23G PPV, the safety of ora serrata with incisions at 5.0 mm posterior to limbus is similar to that at 4.0 mm, but the safety of lens and the efficiency of vitreous resection is higher with incisions at 5.0 mm.

Citation： Xia Ying, Chen Fang, Du Wei, Zhu Jun, Tong Jun, Gan Chunlan, Chen Xi, Xie Zhenggao. Comparative evaluation of the safety of the lens and the ora serrata during vitrectomy with scleral incisions at 5.0 mm or 4.0 mm posterior to the limbus. Chinese Journal of Ocular Fundus Diseases, 2019, 35(6): 544-548. doi: 10.3760/cma.j.issn.1005-1015.2019.06.005 Copy

1.	Elhousseini Z, Lee E, Williamson TH. Incidence of lens touch during pars plana vitrectomy and outcomes from subsequent cataract surgery[J]. Retina, 2016, 36(4): 825-829. DOI: 10.1097/IAE.0000000000000779.
2.	Jalil A, Ho WO, Charles S, et al. Iatrogenic retinal breaks in 20-G versus 23-G pars plana vitrectomy[J]. Graefe's Arch Clin Exp Ophthalmol, 2013, 251(6): 1463-1467. DOI: 10.1007/s00417-013-2299-2.
3.	Reibaldi M, Rizzo S, Avitabile T, et al. Iatrogenic retinal breaks in 25-gauge vitrectomy under air compared with the standard 25-gauge system for macular diseases[J]. Retina, 2014, 34(8): 1617-1622. DOI: 10.1097/IAE.0000000000000112.
4.	Nakano T, Uemura A, Sakamoto T. Incidence of iatrogenic peripheral retinal breaks in 23-gauge vitrectomy for macular diseases[J]. Retina, 2011, 31(10): 1997-2001. DOI: 10.1097/IAE.0b013e31820f49ea.
5.	解正高, 陈放, 夏颖, 等. 玻璃体切割手术中角膜缘后5.0 mm巩膜穿刺口对晶状体及锯齿缘影响的安全性初步评价[J]. 中华眼底病杂志, 2017, 33(4): 387-390. DOI: 10.3760/cma.j.issn.1005-1015.2017.04.014.Xie ZG, Chen F, Xia Y, et al. Preliminary evaluation of the safety of the lens and the ora serrata during vitrectomy with scleral incisions at 5.0 mm behind the limbus[J]. Chin J Ocul Fundus Dis, 2017, 33(4): 387-390. DOI: 10.3760/cma.j.issn.1005-1015.2017.04.014.
6.	Schiff WM, Barile GR, Hwang JC, et al. Diabetic vitrectomy: influence of lens status upon anatomic and visual outcomes[J]. Ophthalmology, 2007, 114(3): 544-550. DOI: 10.1016/j.ophtha.2006.08.017.
7.	Oshima Y, Shima C, Wakabayashi T, et al. Microincision vitrectomy surgery and intravitreal bevacizumab as a surgical adjunct to treat diabetic traction retinal detachment[J]. Ophthalmology, 2009, 116(5): 927-938. DOI: 10.1016/j.ophtha.2008.11.005.
8.	Kwon JW, Jee D, La TY. Neovascular glaucoma after vitrectomy in patients with proliferative diabetic retinopathy[J]. Medicine (Baltimore), 2017, 96(10): 6263. DOI: 10.1097/MD.0000000000006263.
9.	Mancino R, Aiello F, Ciuffoletti E, et al. Inferior retinotomy and silicone oil tamponade for recurrent inferior retinal detachment and grade C PVR in eyes previously treated with pars plana vitrectomy or scleral buckle[J]. BMC Ophthalmol, 2015, 15: 173. DOI: 10.1186/s12886-015-0167-z.
10.	Boscher C, Kuhn F. An endoscopic overview of the anterior vitreous base in retinal detachment and anterior proliferative vitreoretinopathy[J]. Acta Ophthalmol, 2014, 92(4): 298-304. DOI: 10.1111/aos.12303.
11.	Torp TL, Kawasaki R, Wong TY, et al. Changes in retinal venular oxygen saturation predict activity of proliferative diabetic retinopathy 3 months after panretinal photocoagulation[J]. Br J Ophthalmol, 2018, 102(3): 383-387. DOI: 10.1136/bjophthalmol-2017-310576.
12.	Figueira J, Fletcher E, Massin P, et al. Ranibizumab plus panretinal photocoagulation versus panretinal photocoagulation alone for high-risk proliferative diabetic retinopathy(PROTEUS Study)[J]. Ophthalmology, 2018, 125(5): 691-700. DOI: 10.1016/j.ophtha.2017.12.008.
13.	Kita M, Yoshimura N. Endoscope-assisted vitrectomy in the management of pseudophakic and aphakic retinal detachments with undetected retinal breaks[J]. Retina, 2011, 31(7): 1347-1351. DOI: 10.1097/IAE.0b013e3182003c93.
14.	Chalam KV, Shah VA, Gupta SK, et al. Evaluation and comparison of lens and peripheral retinal relationships with the use of endolaser probe and newly designed curved vitrectomy probe[J]. Retina, 2003, 23(6): 815-819. DOI: 10.1097/00006982-200312000-00012.
15.	Kita M, Mori Y, Hama S. Hybrid wide-angle viewing-endoscopic vitrectomy using a 3D visualization system[J]. Clin Ophthalmol, 2018, 12: 313-317. DOI: 10.2147/OPTH.S156497.
16.	Mandelcorn ED, Manusow JS, Parke DR, et al. Unassisted scleral depression during vitrectomy surgery: two simple, cost-effective techniques[J]. Ophthalmic Surg Lasers Imaging Retina, 2015, 46(5): 577-578. DOI: 10.3928/23258160-20150521-10.
17.	Neffendorf JE, Gupta B, Williamson TH. Intraoperative complications of patients undergoing small-gauge and 20-gauge vitrectomy: a database study of 4, 274 procedures[J]. Eur J Ophthalmol, 2017, 27(2): 226-230. DOI: 10.5301/ejo.5000856.
18.	Veckeneer M, Wong D. Visualising vitreous through modified trans-scleral illumination by maximising the Tyndall effect[J]. Br J Ophthalmol, 2009, 93(2): 268-270. DOI: 10.1136/bjo.2008.147306.
19.	Mulder V, Veckeneer M, van Rooij J, et al. Intentional continuous shallowing of the anterior chamber, a procedure to prevent lens touch during phakic vitrectomy[J]. Acta Ophthalmol, 2016, 94(2): 163-164. DOI: 10.1111/aos.12804.
20.	Doyle L, Little JA, Saunders KJ. Repeatability of OCT lens thickness measures with age and accommodation[J]. Optom Vis Sci, 2013, 90(12): 1396-1405. DOI: 10.1097/OPX.0000000000000080.
21.	Jonas JB, Nangia V, Gupta R, et al. Lens thickness and associated factors[J]. Clin Exp Ophthalmol, 2012, 40(6): 583-590. DOI: 10.1111/j.1442-9071.2012.02760.x.
22.	Cha DM, Woo SJ, Park KH, et al. Intraoperative iatrogenic peripheral retinal break in 23-gauge transconjunctival sutureless vitrectomy versus 20-gauge conventional vitrectomy[J]. Graefe's Arch Clin Exp Ophthalmol, 2013, 251(6): 1469-1474. DOI: 10.1007/s00417-013-2302-y.
23.	Covert DJ, Henry CR, Bhatia SK, et al. Intraoperative retinal tear formation and postoperative rhegmatogenous retinal detachment in transconjunctival cannulated vitrectomy systems compared with the standard 20-gauge system[J]. Arch Ophthalmol, 2012, 130(2): 186-189. DOI: 10.1001/archopthalmol.2011.1378.
24.	Issa SA, Connor A, Habib M, et al. Comparison of retinal breaks observed during 23 gauge transconjunctival vitrectomy versus conventional 20 gauge surgery for proliferative diabetic retinopathy[J]. Clin Ophthalmol, 2011, 5: 109-114. DOI: 10.2147/OPTH.S16414.
25.	Territo C, Gieser JP, Wilson CA, et al. Influence of the cannulated vitrectomy system on the occurrence of iatrogenic sclerotomy retinal tears[J]. Retina, 1997, 17(5): 430-433. DOI: 10.1097/00006982-199709000-00011.

1. Elhousseini Z, Lee E, Williamson TH. Incidence of lens touch during pars plana vitrectomy and outcomes from subsequent cataract surgery[J]. Retina, 2016, 36(4): 825-829. DOI: 10.1097/IAE.0000000000000779.
2. Jalil A, Ho WO, Charles S, et al. Iatrogenic retinal breaks in 20-G versus 23-G pars plana vitrectomy[J]. Graefe's Arch Clin Exp Ophthalmol, 2013, 251(6): 1463-1467. DOI: 10.1007/s00417-013-2299-2.
3. Reibaldi M, Rizzo S, Avitabile T, et al. Iatrogenic retinal breaks in 25-gauge vitrectomy under air compared with the standard 25-gauge system for macular diseases[J]. Retina, 2014, 34(8): 1617-1622. DOI: 10.1097/IAE.0000000000000112.
4. Nakano T, Uemura A, Sakamoto T. Incidence of iatrogenic peripheral retinal breaks in 23-gauge vitrectomy for macular diseases[J]. Retina, 2011, 31(10): 1997-2001. DOI: 10.1097/IAE.0b013e31820f49ea.
5. 解正高, 陈放, 夏颖, 等. 玻璃体切割手术中角膜缘后5.0 mm巩膜穿刺口对晶状体及锯齿缘影响的安全性初步评价[J]. 中华眼底病杂志, 2017, 33(4): 387-390. DOI: 10.3760/cma.j.issn.1005-1015.2017.04.014.Xie ZG, Chen F, Xia Y, et al. Preliminary evaluation of the safety of the lens and the ora serrata during vitrectomy with scleral incisions at 5.0 mm behind the limbus[J]. Chin J Ocul Fundus Dis, 2017, 33(4): 387-390. DOI: 10.3760/cma.j.issn.1005-1015.2017.04.014.
6. Schiff WM, Barile GR, Hwang JC, et al. Diabetic vitrectomy: influence of lens status upon anatomic and visual outcomes[J]. Ophthalmology, 2007, 114(3): 544-550. DOI: 10.1016/j.ophtha.2006.08.017.
7. Oshima Y, Shima C, Wakabayashi T, et al. Microincision vitrectomy surgery and intravitreal bevacizumab as a surgical adjunct to treat diabetic traction retinal detachment[J]. Ophthalmology, 2009, 116(5): 927-938. DOI: 10.1016/j.ophtha.2008.11.005.
8. Kwon JW, Jee D, La TY. Neovascular glaucoma after vitrectomy in patients with proliferative diabetic retinopathy[J]. Medicine (Baltimore), 2017, 96(10): 6263. DOI: 10.1097/MD.0000000000006263.
9. Mancino R, Aiello F, Ciuffoletti E, et al. Inferior retinotomy and silicone oil tamponade for recurrent inferior retinal detachment and grade C PVR in eyes previously treated with pars plana vitrectomy or scleral buckle[J]. BMC Ophthalmol, 2015, 15: 173. DOI: 10.1186/s12886-015-0167-z.
10. Boscher C, Kuhn F. An endoscopic overview of the anterior vitreous base in retinal detachment and anterior proliferative vitreoretinopathy[J]. Acta Ophthalmol, 2014, 92(4): 298-304. DOI: 10.1111/aos.12303.
11. Torp TL, Kawasaki R, Wong TY, et al. Changes in retinal venular oxygen saturation predict activity of proliferative diabetic retinopathy 3 months after panretinal photocoagulation[J]. Br J Ophthalmol, 2018, 102(3): 383-387. DOI: 10.1136/bjophthalmol-2017-310576.
12. Figueira J, Fletcher E, Massin P, et al. Ranibizumab plus panretinal photocoagulation versus panretinal photocoagulation alone for high-risk proliferative diabetic retinopathy(PROTEUS Study)[J]. Ophthalmology, 2018, 125(5): 691-700. DOI: 10.1016/j.ophtha.2017.12.008.
13. Kita M, Yoshimura N. Endoscope-assisted vitrectomy in the management of pseudophakic and aphakic retinal detachments with undetected retinal breaks[J]. Retina, 2011, 31(7): 1347-1351. DOI: 10.1097/IAE.0b013e3182003c93.
14. Chalam KV, Shah VA, Gupta SK, et al. Evaluation and comparison of lens and peripheral retinal relationships with the use of endolaser probe and newly designed curved vitrectomy probe[J]. Retina, 2003, 23(6): 815-819. DOI: 10.1097/00006982-200312000-00012.
15. Kita M, Mori Y, Hama S. Hybrid wide-angle viewing-endoscopic vitrectomy using a 3D visualization system[J]. Clin Ophthalmol, 2018, 12: 313-317. DOI: 10.2147/OPTH.S156497.
16. Mandelcorn ED, Manusow JS, Parke DR, et al. Unassisted scleral depression during vitrectomy surgery: two simple, cost-effective techniques[J]. Ophthalmic Surg Lasers Imaging Retina, 2015, 46(5): 577-578. DOI: 10.3928/23258160-20150521-10.
17. Neffendorf JE, Gupta B, Williamson TH. Intraoperative complications of patients undergoing small-gauge and 20-gauge vitrectomy: a database study of 4, 274 procedures[J]. Eur J Ophthalmol, 2017, 27(2): 226-230. DOI: 10.5301/ejo.5000856.
18. Veckeneer M, Wong D. Visualising vitreous through modified trans-scleral illumination by maximising the Tyndall effect[J]. Br J Ophthalmol, 2009, 93(2): 268-270. DOI: 10.1136/bjo.2008.147306.
19. Mulder V, Veckeneer M, van Rooij J, et al. Intentional continuous shallowing of the anterior chamber, a procedure to prevent lens touch during phakic vitrectomy[J]. Acta Ophthalmol, 2016, 94(2): 163-164. DOI: 10.1111/aos.12804.
20. Doyle L, Little JA, Saunders KJ. Repeatability of OCT lens thickness measures with age and accommodation[J]. Optom Vis Sci, 2013, 90(12): 1396-1405. DOI: 10.1097/OPX.0000000000000080.
21. Jonas JB, Nangia V, Gupta R, et al. Lens thickness and associated factors[J]. Clin Exp Ophthalmol, 2012, 40(6): 583-590. DOI: 10.1111/j.1442-9071.2012.02760.x.
22. Cha DM, Woo SJ, Park KH, et al. Intraoperative iatrogenic peripheral retinal break in 23-gauge transconjunctival sutureless vitrectomy versus 20-gauge conventional vitrectomy[J]. Graefe's Arch Clin Exp Ophthalmol, 2013, 251(6): 1469-1474. DOI: 10.1007/s00417-013-2302-y.
23. Covert DJ, Henry CR, Bhatia SK, et al. Intraoperative retinal tear formation and postoperative rhegmatogenous retinal detachment in transconjunctival cannulated vitrectomy systems compared with the standard 20-gauge system[J]. Arch Ophthalmol, 2012, 130(2): 186-189. DOI: 10.1001/archopthalmol.2011.1378.
24. Issa SA, Connor A, Habib M, et al. Comparison of retinal breaks observed during 23 gauge transconjunctival vitrectomy versus conventional 20 gauge surgery for proliferative diabetic retinopathy[J]. Clin Ophthalmol, 2011, 5: 109-114. DOI: 10.2147/OPTH.S16414.
25. Territo C, Gieser JP, Wilson CA, et al. Influence of the cannulated vitrectomy system on the occurrence of iatrogenic sclerotomy retinal tears[J]. Retina, 1997, 17(5): 430-433. DOI: 10.1097/00006982-199709000-00011.

Chinese Journal of Ocular Fundus Diseases

Comparative evaluation of the safety of the lens and the ora serrata during vitrectomy with scleral incisions at 5.0 mm or 4.0 mm posterior to the limbus

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