Muhammad Afzal Bodla1, Ali Afzal Bodla2, Ayema Moazzam3, Noor Tariq4. 1. Muhammad Afzal Bodla, DORCS. Department of Ophthalmology, Multan Medical and Dental College Multan, Pakistan. 2. Ali Afzal Bodla, FRCS. Department of Ophthalmology, Multan Medical and Dental College Multan, Pakistan. 3. Ayema Moazzam, Department of Ophthalmology, Multan Medical and Dental College Multan, Pakistan. 4. Noor Tariq, Department of Ophthalmology, Multan Medical and Dental College Multan, Pakistan.
Cataract is an opacification in the lens of the eye interfering with visual functions,1,2 with it being the cause of 39% of blindness and 33% of severe visual impairments across the world whereby the pervasiveness in age-related cataract cases seems to be increasing. For years the cataract surgery has been performed and is still manifested beneficial in visual improvement.3 Cataract surgery was suggested to decrease intraocular pressure (IOP) in the eyes with or without glaucoma, in addition to removing the opacified lens.4,5 and after the success of cataract surgery it has therefore been preferred for glaucoma patients.6Various elements that affect the intraocular pressure in patients after a cataract surgery have been studied.7 Sufficient information indicates that cataract surgery has a long-term reduction impact on IOP. This effect appears to be proportional to preoperative IOP. Eyes with greater preoperative IOP have the largest average decrease, whereas eyes with IOP in the reduced range of statistically normal range tend to have an IOP that stays unchanged from baseline or maybe higher after cataract surgery.In patients with narrow angles, the IOP-lowering effect appears to be proportional to the degree of anterior chamber deepening induced by cataract surgery.8 Various refractive errors have subsequent effects on Intraocular Pressure, post cataract; myopia for instance, being the most common cause.However, Myopia, the most common type of refractive error, is a complex trait including both genetic and environmental factors9 Progressive myopia can lead from the sclera’s hereditary biomechanical weakness that enables the sclera to stretch in reaction to stress. The objective of this study was to determine whether there is any significant lowering of intraocular pressure post cataract surgery in normotensive patients. Moreover, authors are inclined to determine whether a specific refractive error contributes more to this phenomenon.
METHODS
This was an interventional retrospective case analysis of 127 eyes that went through cataract surgery in Bodla Eye Care and Multan Medical and Dental College carried out from September 2018 to April 2019 (Ref. MMDC-, dated September 4, 2018). Six of them being excluded because of set inclusion criteria were patients of age 20 years & older, willing and able to understand and sign consent form and attend post-operative follow-ups as per schedule. These patients should have been free of any other ophthalmic disease, e.g. glaucoma, ARMD etc. Candidates with hypermetropia, ocular hypertension, systemic diseases, eye diseases other than cataract such as glaucoma, conditions affecting IOP and those who underwent extracapsular cataract extraction (ECCE) were excluded. Informed written consent was obtained from all subjects who participated in this study. The confidentiality of the participants was maintained for the study. The data was collected by four follow-up sessions including preoperative visit to the surgeon. Sample included patients who were myopic, were diagnosed of cataract and received phacoemulsification. Surgeries were performed by same surgeon (Bodla, AA) and all the materials were kept same to avoid disparity. Patient’s bio-data (age, sex and general physical examination), preoperative examination (refractive error via Auto Refraction and Intraocular Pressure via goldmann tonometry) and postoperative examinations (refractive conditions and intraocular pressure on day one, seven, 14 and 28 were noted. Refractive error were classified 0 to -0.25D as emmetropia, -0.5D to -5.75D as mild to moderate myopia and -6 & greater as high myopia. Analysis was done using SPSS software version 20.0. Data was evaluated using descriptive statistics and relation with variables was calculated via Chi-square test. A value P<0.2 in the analysis was considered as a variable selection criterion.
RESULTS
One hundred twenty-one eyes underwent phacoemulsification at Bodla Eye Care & MMDC in period of September, 2018 – April, 2019, out of which ‘53’ were emmetropes, ‘41’ were mild-moderate myopes & ‘27’ were high myopes. They all embraced the criteria that were set. Surgeon performing surgery (Bodla, AA) & intraocular lens implanted were kept same. IOP was statistically insignificant in relation to the refractive errors. (P=0.011).IOP at Day 1 in patients with emmetropia and mild myopia, after surgery was slightly elevated but (P=0.105) not significant (pre-operative being 16.3±3.3). IOP on further follow ups at Day 7 (13.6±4.4), Day 14 (13.2±3.2) & Day 28 (12.9±2.8) was significantly lower with (P<0.001). This depicted that IOP was decreasing after surgery.In high myopia, we found a higher IOP at day one and lower IOP at 7 and 14 days compared with IOP before surgery with no statistic difference (P=0.49, P= 0.57, and P= 0.13,) With a considerably reduced 28-day IOP than before surgery (P < .001), respectively. And no significant difference was found between day 1 and 7, 7 and 14 days, and 14 and 28 days (P=0.423, P=0.739, and P=0.359, respectively).Myopic and emmetropic patients showed almost same trend as mentioned above. In high myopes, IOP rose at day one & decreased in follow-up sessions but didn’t reach the statistical significant values. Among the various groups of refractive errors, high myopes had raised IOP in comparison to others. The changes in IOP at day 1,7,14 and 28 are shown in Table-I.
Table-I
Correlation between refractive errors and change in IOP.
Refractive error
IOP at day 1
IOP at day 7
IOP at day 14
IOP at day 28
Emmetropes
16.3±3.3
13.6±4.4
13.2±3.2
12.9±2.8
Mild Myopes
15.8±2.7
14.4±2.3
13.9±1.9
13.2±1.5
High Myopes
15.2±2.9
16.4±2.6
14.6±2.8
13.1±1.8
Correlation between refractive errors and change in IOP.
DISCUSSION
In this study, we have traversed the relationship between various refractive conditions to post-surgical IOP. We found that cataract surgery with phacoemulsification and intra ocular lens implantation resulted in 87% success for achieving the goal of decreased IOP.10In a previous study11 similar to this, it was depicted that IOP is reduced in post cataract surgeries in glaucoma as well as non-glaucoma patients, due to deepening in the anterior chamber by implantation of IOL, however, which not was congruous to our study.An elevation of 3-4mm Hg was noticed in the immediate post-operative period, it was also well demarcated in previous studies that there is an elevation initiated at three hours and peaked after 24 hours.12,13 In a relevant study by Bonnell et al., a significant elevation (10-20mm Hg) in IOP 24 hours post-operative was narrated.14 In comparison, our study exhibited a slight increase in the IOP (3-4mm Hg) at day one that might be due to post-operative inflammation reaction and blockage of trabecular meshwork15 by viscoelastic and left out cortical material.16,17 Furthermore, emmetropes and mild myopes showed almost same results. There was a linear decrease of IOP in first 14 days as analyzed by change in IOP in these groups and remained persistent for upcoming days. A total of 2-3mm Hg was however reduced which was found to be insignificant.In candidates with high myopia, there wasn’t any manifest change in IOP up till third follow up, after which an instable decline was seen. The reason behind indifferent values of IOP in high myopes might be due to anatomical change that includes raise in visual axis18, thinning of choroid and retina, enlarged optic disc and peri-papillary atrophy.19 These manifestations exist even after phacoemulsification, thus giving contradictory effects to post-operative lowering of IOP. This phenomenon is the evidence of greater tendency of post-operative IOP fluctuation in high myopia patients that was in harmony to previous studies20 and this may be the risk factor for worsening of glaucoma.21
Limitations of the study
This study shows the relationship between phacoemulsification and post-operative change in IOP. Our study has few limitations. Firstly, protocol of evaluation of chamber angle configuration was missing. Secondly, due to non-cooperation of few patients, follow up data was lost. Thirdly, being retrospective analysis, we lacked proper data. In synopsis, cataract surgery has an impact on IOP irrespective of the refractive conditions.
CONCLUSION
Our analysis inferred that the emmetropic, mild to moderate myopic and high myopic patients that underwent phacoemulsification showed depression in IOP at the end of trial follow up, depicting that cataract surgery decreases the IOP regardless of refractive conditions with postoperative time elongation. Hence, cataract surgery does leads to decrease in IOP irrespective of refractive error, though changes are insignificant.
Author`s Contribution:
MAB formulated, designed and did editing of manuscript.AAB, AM and NT did data collection, statistical analysis and manuscript writing.AAB did review, final approval of manuscript and is responsible for integrity of research.
Authors: Levi N Bonnell; Jeffrey R SooHoo; Leonard K Seibold; Anne M Lynch; Brandie D Wagner; Richard S Davidson; Michael J Taravella Journal: J Cataract Refract Surg Date: 2016-12 Impact factor: 3.351
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