Objective To observe the surgical outcome of the modified transconjunctival technique for minimal segmental buckling on rhegmatogenous retinal detachment (RRD). Methods This is a retrospective case series. Seventy-six patients (78 eyes) with uncomplicated RRD who underwent the modified transconjunctival technique for minimal segmental buckling were enrolled in this study. There were 41 male (42 eyes) and 35 female (36 eyes). The average age was (33.9±15.6) years. Best corrected vision acuity (BCVA), fundus examination with three-mirrors lens, ocular B ultrasound, optical coherence tomography (OCT) were performed in all patients. BCVA was examined through Standard logarithmic visual acuity chart and transferred to logMAR vision for statistical analysis. The logMAR BCVA was 0.88±0.88. The technique was successfully performed in all 78 eyes. After transconjunctival location of the retinal break was made, a 5 to 6 mm radial conjunctival incision was performed corresponding to the retinal break without cutting the limbal conjunctiva–Tenon’s capsule. After cryopexy, a minimal explant was fixed with one to two sutures through the conjunctival opening, expanded by a pediatric speculum. BCVA, intraocular pressure, tear film stability, conjunctival recovery and retinal reattachment were collected 1 week, 1 month, 3 months, 6 months after surgery. Results One week after surgery, retinal reattachments were achieved in 77 of 78 (98.7%) eyes and 1 eye (1.3%) received vitrectomy. Compared before surgery, the logMAR BCVA improved to 0.44±0.41, with significant difference (t=3.092, P<0.01). Conjunctival incision tear occurred in 1 eye. Subretinal hemorrhage occurred in 5 eyes during subretinal fluid drainage procedure. Subretinal hemorrhage occurred in 5 eyes during subretinal fluid drainage procedure. Hemorrhage was absorbed in 2 of the 5 eyes at 3 months after surgery and absorbed in all 5 eyes at 6 months after surgery. Subretinal fluid occurred in 10 eyes at 1 week after surgery and be absorbed completely at 6 months after surgery. Tear film stability improved to preoperative lever at 1 week after surgery. Less change in corneal and conjunctival sensitivity was observed in all eyes. No other surgical complications were observed within the follow-up period, such as scleral perforation, explant extrusion, diplopia or infection. Conclusions The modified transconjunctival technique for minimal segmental buckling minimizes the damage to conjunctiva without reducing the retinal reattachment rate. It can effectively treat uncomplicated RRD with preserving an intact limbal conjunctiva and rapid tear film stability recovery.
ObjectiveTo analyze and discuss the clinical features and management of pediatric retinal detachment (RD) associated with morning glory syndrome (MGS). MethodsThe clinical data of 49 patients (51 eyes) with RD associated with MGS were retrospectively analyzed, including 27 males (27 eyes) and 22 females (24 eyes). The age at first diagnosis ranged from 1 week after birth and 13 years old (4.2±3.2) years. There were 33 eyes of exudative RD, 3 eyes of rhegmatogenous RD and 15 eyes of RD with undetermined cause. Twenty eyes of 20 patients had other congenital ocular abnormalities, including persistent hyperplastic primary vitreous, microphthalmia, choroidal coloboma, iris coloboma. Besides retinal detachment, other complications were found, including cataract, secondary glaucoma,corneal leukoma or edema, strabismus and nystagmus. Twenty-two cases (22 eyes) received treatment. Five cases of mild exudative retinal detachment took oral methazolamide tablets. Three eyes with mild and restricted retinal detachments got retinal laser photocoagulation around the optic disc. Fourteen cases of 14 eyes underwent surgery including vitrectomy, lensectomy, and phacoemulsification. Follow-up after treatment were three months or more, with an average of (20.3±11.8) months. The visual acuity, retinal reattachment and intraocular pressure and other complications after treatment were followed up. ResultsFive patients of exudative retinal detachment were remained stable by taking methazolamide tablets. Two of the 3 eyes remained stable after laser therapy; however, the remaining one eye was not controlled after relaser. Cataract and glaucoma were resolved by lensectomy in 7 eyes and phaco-emulsification surgery in 1 eye. Retina was re-attached in 6 eyes after vitrectomy. Among those treated, 10 eyes had records of visual acuity. Visual acuity was improved in 1 eye after laser therapy and remained stable in 9 eyes. There were no drugs and surgery-related complications. ConclusionsRetinal detachment was the main complication of MGS. The high incidence and poor prognosis call for the need of close follow-up and timely treatment, including medicine, laser and surgery.
ObjectiveTo observe the efficacy and safety of combination of intravitreal injection of ranibizumab and laser photocoagulation for the treatment of aggressive posterior retinopathy of prematurity (AP-ROP). MethodsMedical records of 70 eyes of 35 premature infants with a primary diagnosis of AP-ROP in our clinic were reviewed and analyzed retrospectively. All the lesions were located in posterior zone, with 42 eyes in zone 1 and 28 eyes in zone 2. Forty-six eyes had iris neovascularization, while 19 eyes combined with vitreous hemorrhage. All participants underwent intravitreal injection of ranibizumab as the primary treatment within 12 hours after diagnosis of AP-ROP. The systemic and ocular adverse effects were observed. The change of retinal vascular tortuosity and dilatation before and after the intravitreal injection of ranibizumab was observed one week after injection. Laser photocoagulation was used as adjuvant therapy if the plus disease persisted more than two weeks or new-onset ridge occurred after injection. The mean time interval between injection and laser therapy was (5.1±2.6) weeks (range, 1-10 weeks). Follow-up ranged from 6 to 18 months, with a mean of (10.3±3.9) months. The anatomical results and complications were evaluated after treatment. The eyes that progressed to stage 4 or 5 during the follow-ups were underwent lens-sparing vitrectomy or lensectomy combined with vitrectomy. ResultsNo major systemic or ocular complications were observed. Preretinal hemorrhages were found in 12 eyes of 8 patients (17.1%), but they were absorbed spontaneously during the follow-ups. All lens remained transparent and no iatrogenic retinal hole was occurred during the follow-ups. After the injection, the regression of iris neovascularization was observed in 46 eyes within one week, vitreous hemorrhage absorbed significantly in 16 eyes (84.2%), and plus disease disappeared completely within one week in 61 eyes (87.1%). 59 eyes (84.3%) demonstrated vascularization toward the peripheral retina after treatment. 32 out of 42 eyes (76.2%) with zone 1 demonstrated vascularization toward to zone 2, while 24 out of 28 eyes (85.7%) with zone 2 demonstrated vascularization toward to the junction of zone 2 and 3. After intravitreal injection of ranibizumab combined with laser photocoagulation, 62 of 70 eyes (88.6%) had retinal vascular ridge and plus disease regression. However, 8 eyes of 6 patients (11.4%) showed significant fibrovascular proliferation and progressed to retinal detachment after the combination treatment of intravitreal ranibizumab injection and laser photocoagulation. Four eyes underwent lens-sparing vitrectomy, while the other 4 eyes underwent vitrectomy combined with lensectomy. Five eyes achieved totally retinal reattachment after surgery, while 3 eyes achieved partially retinal reattachment. ConclusionThe combination of intravitreal injection of ranibizumab and laser photocoagulation is safe and effective in the treatment of AP-ROP.
ObjectiveTo observe the clinical features of familial exudative vitreoretinopathy (FEVR). Methods202 FEVR patients (404 eyes) from 84 families were included in this retrospective study, all the clinical diagnosis was made by the same expert in our Department. All patients were examined with slit lamp microscope, indirect ophthalmoscopy, children's retinal imaging system or Heidelberg HR2 fundus cameras for fundus photographs. Fluorescein angiography (FFA) was also performed for all patients, for those≤7 years old it was performed under general anesthesia. Data collected from charts included gender, age at presentation and family history. According to the fundus presentation and FFA results, FEVR was classified into 0-5 stages. Stage 0 (normal) is for the health fellow eye in unilateral FEVR; stage 1: retinal peripheral avascular zone with no fluorescence leakage in FFA; stage 2: retinal peripheral avascular zone, with fluorescence leakage in FFA; stage 3: partial retinal detachment not involving the macular; stage 4: partial retinal detachment involving the macular; stage 5: total retinal detachment. ResultsThere were 119 male patients and 83 females. The average age of diagnosis was 16 months, the average gestational age was 39 weeks and the average birth weight was 3223 g in the proband. At the first clinical visit, there was clear family history of FEVR in 4 patients (1.98%); family history of other eye disease (nystagmus, cataract, small eyes, strabismus and others) in 25 patients (12.38%); not family history of eye disease in 173 patients (85.64%). FEVR family history was confirmed by fundus examination and FFA for the family members. In all 404 eyes, 9 eyes (2.23%) was normal, 162 eyes (40.10%) was stage 1, 97 eyes (24.01%) was stage 2, 72 eyes (17.82%) was stage 3, 20 eyes (4.95%) was stage 4, and 44 eyes (10.89%) was stage 5. In 202 patients, 59 cases (29.21%) was asymmetry bilateral disease with different stage for each eye. In 404 eyes, retinal fold was found in 74 eyes (18.32%). ConclusionsFEVR was common in full-term and/or normal birth weight newborns. More than half of patients are in stage 1 and 2 without any clinical features. 29.21% eyes were asymmetry bilateral diseases.
ObjectiveTo observe the clinical outcome of minimally invasive vitrectomy for ocular toxocariasis (OT). MethodsThe clinical data of 37 eyes in 37 patients with OT who underwent 23-gauge vitrectomy were retrospectively reviewed. There were 27 male patients and 10 female patients. The age was from 9 months to 22 years, with the mean age of (7.90±4.47) years. Patients who can cooperate underwent non-contact tonometer examination, slit lamp examination, fundus photography, ultrasound examination, optical coherence tomography and ultrasound biomicroscopic examination. The visual acuity was from no light perception to 0.6. According to the clinical type of OT, 18 eyes had posterior granuloma, 13 eyes had peripheral granuloma, 4 eyes had endophthalmitis and 2 eyes had atypical presentation. Seventeen eyes had vitrectomy for tractional retinal detachment (TRD), 13 eyes for epiretinal membrane (ERM), 6 eyes for TRD combined with ERM and 1 eye for endophthalmitis. Twenty-five eyes had lens-sparing vitrectomy, 12 eyes had lensectomy with vitrectomy; five eyes had limbus incision and 32 eyes had pars plana incision. Five eyes (13.51%) had reoperation. Followed up from 6 months to 39 months, with the mean of (13.90±10.25) months. ResultsVision improved in 25 of 35 eyes (71.43%), was unchanged in 9 eyes (25.71%), and was declined in 1 eye (2.86%). Retina was reattached in 22 of 23 eyes that had TRD before surgery (95.65%); the rest one eye had redetachment (4.35%). Three eyes had cataract after surgery, which accounted for 12% in lens-sparing eyes. Among them, 2 eyes had lensectomy therefore. ERM was removed and had no recurrence in 18 of 19 eyes (94.74%). ConclusionMinimally invasive vitrectomy for OT patients can improve their vision and achieve retinal reattachment.
Objective To investigate the clinical manifestations and gene mutation of a pedigree with retinal lattice degeneration and granular corneal dystrophy (GCD) type 2. Methods Ten members in 3 generations of a pedigree with retinal lattice degeneration and GCD2 were included in the study, including 6 patients (3 males and 3 females) and 4 healthy family members. All members underwent visual acuity, slit lamp microscope, three-mirror lens, fundus color photography, optical coherence tomography, and corneal endothelial cells counting. Genomic DNA was extracted from peripheral venous blood (2 ml) from all the subjects and their spouses, who had no related inherited diseases. The next generation sequencing method was used to detect the mutation sites of transforming growth factor β (TGFBI), and all results underwent Sanger verification. Results Among the 12 eyes of 6 patients, the visual acuity was FC/20 cm-1.0. In the superficial central corneal stroma, snowflake-like deposits were observed in three cases (6 eyes), and a small amount of granular deposits were observed in three cases (6 eyes). Corneal endothelial cell counts were normal. Retinal lattice degeneration were observed in 3 cases, 6 eyes (including 3 cases of rhegmatogenous retinal detachment in 4 eyes); retinal thinning without obvious lattice degeneration in 4 eyes of 2 patients. Nystagmus in 1 patient and fundus examination showed no significant abnormalities. DNA sequencing results showed that the proband and 4 patients had missense mutation of TGFBI gene in exon 4 c.371G> A, the mutation site corresponding to the amino acid change encoded by TGFBI gene No. 124 Amino acids, from arginine to histidine (p.R124H). Patients with this mutation have varying degrees of clinical phenotype. Conclusions The mutation of c.701G> A (p.R124H) in TGFBI gene is the causative gene of GCD in this pedigree. The patients with this mutation have different clinical phenotypes.