Submitted:
21 May 2026
Posted:
22 May 2026
You are already at the latest version
Abstract
Background/Objectives: To evaluate the relationship between lens thickness (LT) and postoperative outcomes following cataract surgery versus combined cataract and glaucoma procedures in a predominantly Black and Caribbean population, and to assess the utility of LT and the Laroche Glaucoma Risk Calculator in predicting intraocular pressure (IOP) reduction. Methods: This retrospective cohort study included 187 eyes from patients aged ≥50 years who underwent cataract surgery alone or combined cataract and glaucoma surgery (goniotomy or Ahmed retrobulbar/intraconal tube at a single-center practice in Queens, New York. Preoperative and postoperative data at ≥3 months included IOP, visual acuity (logMAR), medication burden, visual field mean deviation, and anterior segment biometry measured with optical imaging. Patients were stratified by surgical type, diagnosis, and glaucoma risk. Associations between LT and postoperative IOP reduction were analyzed. Results: Mean LT across the cohort was 4.53 mm. Greater LT was consistently associated with increased postoperative IOP reduction across all surgical groups. Eyes with LT ≥4.5 mm demonstrated greater IOP reduction compared to those with LT ≤4.2 mm (2.63 ± 4.59 mmHg vs 1.19 ± 4.10 mmHg). Those with LT between 4.2-4.5 saw an average IOP reduction of -2.04 ± 3.80 mmHg. Combined procedures yielded greater IOP reduction than cataract surgery alone, with the largest decrease observed in the Ahmed group (−4.56 mmHg, 25%). Cataract surgery alone produced significant but smaller IOP reductions (−1.58 mmHg, 11%) and the greatest improvement in visual acuity. Medication burden decreased substantially in combined groups (80% in goniotomy, 47% in Ahmed). Patients with angle-closure glaucoma exhibited the highest LT. Stratification using the Laroche Glaucoma Risk Calculator showed that high-risk patients experienced greater IOP reduction following cataract surgery compared to low-risk patients (2.4 mmHg vs 1.09 mmHg, both statistically significant). Conclusions: Increased lens thickness may be associated with greater postoperative IOP reduction following both cataract and combined cataract–glaucoma surgery, showing its potential as a predictive biomarker. Combined procedures provide superior IOP and medication burden reduction, while cataract surgery alone offers meaningful benefit, particularly in high-risk patients. Incorporating LT analysis and the Laroche Glaucoma Calculator into preoperative assessment may improve surgical planning and outcome prediction, especially in underserved populations disproportionately affected by glaucoma.
Keywords:
cataract
; glaucoma
; lens thickness
; cataract surgery
; intraocular pressure
1. Introduction
A possible correlation between lens thickness (LT), or other ocular biometric parameters, and IOP (intraocular pressure) reduction following cataract surgery or combined cataract and glaucoma surgery has been proposed by current literature [1,2]. Additionally, patients with primary angle closure or those categorized as primary angle closure suspects tend to show a greater IOP reduction following phacoemulsification than open angle and non-glaucomatous groups [3]. It is well documented that cataract surgery, especially earlier intervention, can reduce IOP and slow the progression of glaucoma or help prevent it in patients who are at high risk [4]. As increased lens thickness is associated with angle closure glaucoma and aging, more analysis on the correlation between LT and surgical outcomes in different populations, especially in an aging society, might illuminate LT analysis as a novel tool in predicting surgical outcomes and planning a timeline for surgical intervention [5]. The EAGLE trial demonstrated that early clear lens extraction was superior to laser peripheral iridotomy for IOP control in primary angle closure, directly supporting the mechanistic rationale that removing a thicker lens improves aqueous outflow [6].
Previous studies have shown that African patients have significantly smaller lens thickness than White patients, which may have implications for angle closure risk and IOP response after cataract surgery. This directly supports the need for population-specific biometric data [7]. There is a lack of research concerning ocular biometric parameters, LT included, in Black and Caribbean populations [8].
The Laroche Glaucoma Risk Calculator is a useful tool that we use as initial screening for glaucoma by checking IOP, CCT and age. This paper aims to determine the predictive value of lens thickness in surgical outcomes (IOP, medication burden, logMAR, and visual field defect) across surgery types (cataract versus combined cataract and glaucoma; Ahmed retrobulbar/intraconal tube surgery versus goniotomy) in a majority Black and Caribbean population. We also investigated how patient risk with the Laroche calculator and lens thickness were correlated.
2. Materials and Methods
This study was approved by the BRANY Institutional Review Board (Protocol 221382371543). A waiver of informed consent was granted under 45 CFR 46.116(d) due to the retrospective nature of the study, as the research involved no more than minimal risk to participants, the waiver did not adversely affect the rights and welfare of subjects, and the research could not practicably be carried out without the waiver. The study was a retrospective cohort analysis using existing data obtained from a single-center private practice ophthalmology in Queens, New York. The anterior chamber biometric data was obtained (Bausch + Lomb SeeNa) during patients’ routine surgical consultation visits. Other data, such as pre- and post-operative IOP, logMAR, visual field defect, medication burden, demographic information, and diagnosis/risk status were collected from the practice’s electronic health record.
Inclusion criteria included being 50 years or older at the time of surgery, undergoing either cataract or combined cataract and glaucoma surgery, and having completed a follow-up appointment of at least 3 months after surgery. 187 eyes fell into the inclusion criteria and were subsequently stratified by surgery type and diagnosis.
Table 1.
Population Characteristics.
| N | 187 | |
| Age (years) | Mean ± SD | 68.4 ± 8.97 |
| Median | 68 | |
| Gender | Male | 85 (45.45%) |
| Female | 102 (54.55%) | |
| Race | Black or Afro-Latino | 154 (82.35%) |
| Asian | 28 (14.97%) | |
| White or Caucasian | 5 (2.67%) | |
| Surgery Type | Cataract Alone | 120 |
| Combined Cataract and Glaucoma | 67 | |
| Glaucoma Surgery Type | Ahmed Retrobulbar Tube | 27 |
| Goniotomy | 38 | |
| Hydrus Stent | 2 | |
| Cataract Alone Diagnosis | Non-suspect for Glaucoma | 65 |
| Suspect for Glaucoma | 55 | |
| Combined Cataract and Glaucoma Diagnosis | Glaucoma Suspect | 3 |
| Primary Open Angle Glaucoma | 42 | |
| Ocular Hypertension | 6 | |
| Acute Angle Closure Glaucoma | 2 | |
| Chronic Angle Closure Glaucoma | 12 | |
| Low Tension Glaucoma | 2 | |
3. Results
Baseline characteristics differed across the three surgical groups (cataract alone, cataract-goniotomy, and cataract-Ahmed). Mean preoperative visual acuity (logMAR) was worst in the cataract-alone group (0.70), compared to 0.58 in the cataract + goniotomy group and 0.44 in the cataract + Ahmed retrobulbar group. In contrast, mean preoperative intraocular pressure (IOP) was lowest in the cataract-alone cohort (14.74 mmHg) and higher in the combined procedure groups (17.32 mmHg for goniotomy and 18.56 mmHg for Ahmed retrobulbar). Similarly, medication burden increased across groups, with no preoperative medications in the cataract-alone group versus 2.42 and 3.33 medications in the goniotomy and Ahmed retrobulbar groups, respectively. Among patients undergoing combined procedures, baseline visual field loss was more advanced in the Ahmed retrobulbar group (mean deviation −18.28 dB) compared to the goniotomy group (−3.81 dB), suggesting more severe disease in this cohort at presentation.
Table 2.
Baseline Measurements.
| Mean Pre-Op Parameter | Cataract Alone | Cataract-Goniotomy | Cataract-Ahmed |
|---|---|---|---|
| VA (logMAR) | 0.70 | 0.58 | 0.44 |
| IOP (mmHg) | 14.74 | 17.32 | 18.56 |
| Medications | - | 2.42 | 3.33 |
| VF MD (dB) | - | -3.81 | -18.28 |
Abbreviations: VA = visual acuity; IOP = intraocular pressure; VF MD = visual field mean deviation.
Postoperative outcomes demonstrated improvement across all groups, with the magnitude of change varying by intervention. Visual acuity improved in each cohort, with the greatest gain observed in the cataract-alone group (−0.52 logMAR), followed by the cataract + goniotomy (−0.37) and cataract + Ahmed retrobulbar groups (−0.15). Intraocular pressure (IOP) reduction was modest in the cataract-alone group (−1.58 mmHg, 11%) but more pronounced in the combined procedure groups, particularly in the Ahmed retrobulbar group (−4.56 mmHg, 25%), compared to the goniotomy group (−2.66 mmHg, 16%). Medication burden remained unchanged in the cataract-alone group but decreased substantially in both combined groups, with an 80% reduction in the goniotomy group and a 47% reduction in the Ahmed retrobulbar group. Visual field mean deviation remained relatively stable postoperatively, with a slight decline in the goniotomy group (−0.94 dB) and minimal improvement in the Ahmed retrobulbar group (+0.47 dB). Overall, combined procedures were associated with greater reductions in IOP and medication use, while visual acuity improvements were observed across all groups.
Table 3.
Post-Op Outcomes.
| Mean Post-Op Parameter | Cataract Alone | Cataract-Goniotomy | Cataract-Ahmed |
|---|---|---|---|
| VA (logMAR) | 0.18 (-0/52) | 0.21 (−0.37) | 0.29 (−0.15) |
| IOP (mmHg) | 13.16 (−1.58, 11%) | 14.66 (−2.66, 16%) | 14.00 (−4.56, 25%) |
| Medications | - | 0.50 (−1.92, 80%) | 1.44 (−1.89, 47%) |
| VF MD (dB) | - | −4.75 (−0.94) | −17.81 (+0.47) |
The mean lens thickness across all patients was 4.53 mm (n=187). Subgroup analysis demonstrated variation by diagnosis and surgical intervention, with patients with angle-closure glaucoma undergoing Ahmed retrobulbar surgery exhibiting the greatest mean preoperative lens thickness (4.81 mm, n=7). Patients with open-angle glaucoma had a mean lens thickness of 4.51 mm (n=42), while those undergoing cataract surgery alone had mean values of 4.57 mm (n=55) in the high glaucoma risk group and 4.49 mm (n=66) in the low-risk group. Across all subgroups, scatter plot analysis revealed a consistent positive association between increasing lens thickness and greater postoperative intraocular pressure reduction.
Table 4.
Lens Thickness by Group.
| Group | Mean Lens Thickness | n |
|---|---|---|
| Overall Cohort | 4.53 | 187 |
| ACG and Ahmed | 4.81 | 7 |
| Open Angle | 4.51 | 42 |
| Cataract Alone (High Risk) | 4.57 | 55 |
| Cataract Alone (Low Risk) | 4.49 | 66 |
Notes: Abbreviations: ACG = Angle Closure Glaucoma; High/Low risk indicated high or low risk based on the Laroche Glaucoma Risk Calculator which factors in CCT, IOP, and age to determine risk of glaucoma.
Eyes with LT of 4.5 mm or greater had an average IOP reduction of 2.63 ± 4.59 mmHg, while eyes with LT of 4.2 or lower had an average reduction of 1.19 ± 4.10 mmHg. Stratification of the cataract-alone cohort using the Laroche Glaucoma Risk Calculator demonstrated significant postoperative IOP reduction in both risk groups. The high-risk group showed a greater mean reduction of 2.4 mmHg from a baseline of 15.73 mmHg (paired t-test, p < 0.0001; 95% CI: 1.40–3.40), while the low-risk group experienced a smaller but still significant reduction of 1.09 mmHg from a baseline of 14.19 mmHg (p ≈ 0.0002; 95% CI: 0.54–1.64). Overall, the magnitude of IOP lowering was more pronounced in the high-risk group. In comparisons of combined procedures, both cataract-goniotomy (p ≈ 0.002) and cataract-Ahmed groups (p ≈ 0.003) demonstrated significant postoperative IOP reductions. Although the Ahmed group achieved a larger mean reduction than the goniotomy group (−4.56 vs −2.66 mmHg), this difference did not reach statistical significance on between-group analysis.
In multivariable linear regression adjusting for baseline IOP, age, surgical type, glaucoma diagnosis, and medication burden, lens thickness demonstrated a positive but non-significant association with postoperative IOP reduction (β = 0.74 mmHg per mm increase, p = 0.228). Baseline IOP was the strongest independent predictor of IOP reduction (β = 0.696, p < 0.0001). Age was also independently associated with greater IOP reduction (p = 0.020). Several glaucoma subtypes demonstrated differential responses to surgery, indicating heterogeneity in treatment effect across diagnoses.
In a multivariable linear regression model including an interaction term between lens thickness and surgical type, a significant interaction was observed (β = 2.49, p = 0.045), indicating that the effect of lens thickness on IOP reduction differed by surgical group. Specifically, lens thickness was not associated with IOP reduction in cataract surgery alone (β = −0.086, p = 0.898), but demonstrated a significant positive association in combined cataract–glaucoma procedures.
In a simplified model adjusting for baseline IOP and surgical type, lens thickness emerged as a significant independent predictor of IOP reduction (β = 1.17 mmHg per mm increase, p = 0.035).
Stratified analyses further supported these findings. In the cataract-alone group, lens thickness was not associated with IOP reduction (p = 0.795), whereas in the combined surgery group, a positive association was observed (β = 2.21), though this did not reach statistical significance (p = 0.104), likely due to limited sample size.
Figure 1.
IOP Change versus Group.
4. Conclusions
This study demonstrates that lens thickness (LT) may serve as a meaningful biomarker associated with intraocular pressure (IOP) reduction following cataract and combined cataract–glaucoma surgery in a predominantly Black and Caribbean population. Across all surgical and diagnostic subgroups, greater LT was consistently associated with larger postoperative IOP reduction, supporting prior hypotheses that lenticular anatomy contributes to anterior segment crowding and aqueous outflow dynamics. Patients with angle-closure glaucoma (ACG), particularly those undergoing Ahmed retrobulbar procedures, exhibited the highest mean LT, aligning with established pathophysiology linking increased lens thickness to angle narrowing.
Importantly, the observed association between increased LT and greater IOP reduction may reflect a mechanism whereby removal of a thicker crystalline lens leads to expansion of Schlemms canal and improved trabecular outflow. This effect may be especially relevant in patients with angle closure and thus a higher LT may indicate greater benefit from early cataract surgery. Additionally, stratified analysis showed that patients with thicker lenses (≥4.5 mm) experienced greater IOP reduction compared to those with thinner lenses, further supporting LT as a potential predictive parameter.
Although lens thickness did not remain statistically significant after multivariable adjustment, the direction and magnitude of the association were consistent with our hypothesis and prior mechanistic understanding. The attenuation of effect likely reflects collinearity between lens thickness and established predictors such as age and glaucoma subtype, particularly angle closure disease.
Importantly, unadjusted and subgroup analyses demonstrated a consistent positive association between increased lens thickness and greater IOP reduction, suggesting that LT may still serve as a clinically relevant biomarker, particularly in specific surgical or diagnostic subgroups.
These findings highlight the complexity of isolating independent biometric predictors in heterogeneous glaucoma populations and suggest that lens thickness may exert its greatest predictive value in conjunction with other anatomical and clinical factors.
This study also addresses an important gap in the literature by focusing on a majority Black and Caribbean population, groups that are disproportionately affected by glaucoma yet underrepresented in biometric and surgical outcomes research. The findings suggest that LT in this population may differ from the currently accepted LT average and that it could be incorporated into preoperative assessment to help guide surgical planning and timing, particularly in high-risk patients.
This study also demonstrates for the first time that the Laroche Glaucoma Risk Calculator provides preliminary evidence that it can stratify patients by expected IOP reduction after cataract surgery, a novel application beyond its original validation as a screening tool. The finding that high-risk patients achieved significantly greater IOP reduction (2.4 mmHg vs 1.09 mmHg, p < 0.0001 vs p ≈ 0.0002) in the cataract alone group and higher in the cataract and glaucoma surgery group aligns with established principles that higher preoperative IOP predicts greater absolute reduction. However, no prior study has used this simple two-parameter tool (IOP, CCT, age) to identify surgical responders to prevent glaucoma onset, lower IOP, and reduce medication burden in patients undergoing uncomplicated cataract surgery or combined cataract-glaucoma interventions.
Our findings contradict Coh et al. (2016) who found that lens position parameters predicted IOP reduction in nonglaucomatous but not glaucomatous eyes [9]. Perez et al. (2019) found that in their best predictive formula, LT had a negative coefficient (−0.42) when combined with other variables, suggesting the relationship is more complex than a simple positive association [10]. Our findings also contradict a study by Rees et al. that showed that increased LT was associated with IOP spikes on postoperative day 1 in glaucoma patients [11].
The study’s focus on a predominantly Black and Caribbean population represents a meaningful strength, particularly in light of well-documented disparities in cataract care. Recent findings from the All of Us cohort indicate that non-Hispanic Black patients undergo cataract surgery at lower rates (adjusted HR 0.88 compared to White patients), while data from the SOURCE database identify Black race as an independent predictor of postoperative complications [12,13]. In light of these disparities to the present study’s findings potentially position LT and Larohe glaucoma calculator guided surgical planning as a potential strategy to improve surgical outcomes in higher risk glaucoma suspects and glaucoma patients in underserved populations.
Limitations include the retrospective design, relatively small sample sizes in certain subgroups (notably ACG with Ahmed), and potential selection bias inherent to a single-center study. Additionally, follow-up duration was limited to a minimum of three months, which may not capture long-term IOP trends or disease progression. Future prospective studies with larger cohorts and longer follow-up are warranted to validate these findings and further elucidate the role of LT in surgical decision-making.
Thus, lens thickness appears to be positively associated with postoperative IOP reduction across cataract and combined glaucoma surgeries, suggesting its potential role as a predictive biomarker in surgical planning. Combined procedures, particularly those involving Ahmed retrobulbar implantation, resulted in greater IOP reduction and medication burden decrease, while cataract surgery alone provided meaningful IOP lowering, especially in high-risk patients. These findings support the integration of ocular biometric parameters such as LT into preoperative evaluation, particularly in high-risk and underserved populations, to optimize individualized surgical strategies and improve glaucoma management outcomes.
References
- Esther M. Hoffmann; et al. Intraocular Pressure and Its Relation to Ocular Geometry: Results From the Gutenberg Health Study. Invest. Ophthalmol. Vis. Sci. 2022, 63, 40. [CrossRef] [PubMed]
- Hyun Seung Yang; et al. Ocular Biometric Parameters Associated With Intraocular Pressure Reduction After Cataract Surgery in Normal Eyes. Am. J. Ophthalmol. 2013, 156, 89–94. [CrossRef] [PubMed]
- Mohideen Abdul Kader; et al. Lowering of Intraocular Pressure after Phacoemulsification in Primary Open-Angle and Angle-Closure Glaucoma: Correlation with Lens Thickness. Indian J. Ophthalmol. 2022, 70, 574–579. [CrossRef] [PubMed]
- Jennifer D. Ling; Nils P. Bell Role of Cataract Surgery in the Management of Glaucoma. Int. Ophthalmol. Clin. 2018, 58, 87–100. [CrossRef] [PubMed]
- Kuntal Chakrabarti; S. Samant; R. Mohapatra; S. Mishra; S. Das; M. Chakrabarti A Comparison of Lens Parameters in Patients with Various Subtypes of Primary Angle-Closure Disease and the Normal Population: A Prospective Study. Indian J. Ophthalmol. 2022, 70, 2889–2894. [CrossRef] [PubMed]
- Augusto Azuara-Blanco; Jennifer Burr; Craig Ramsay; et al. Effectiveness of Early Lens Extraction for the Treatment of Primary Angle-Closure Glaucoma (EAGLE): A Randomised Controlled Trial. Lancet 2016, 388, 1389–1397. [CrossRef] [PubMed]
- D. Wang; B. Amoozgar; T. Porco; Z. Wang; Shan C. Lin Ethnic Differences in Lens Parameters Measured by Ocular Biometry in a Cataract Surgery Population. PLoS ONE 2017, 12, e0179836. [CrossRef] [PubMed]
- Tina C. Chang; L. Celestin; Edward A. Hodapp; et al. Glaucoma Cascade Screening in a High Risk Afro-Caribbean Haitian Population: A Pilot Study. J. Glaucoma 2022, 31, 584–589. [CrossRef]
- P. Coh; S. Moghimi; R. I. Chen; et al. Lens Position Parameters as Predictors of Intraocular Pressure Reduction After Cataract Surgery in Glaucomatous Versus Nonglaucomatous Eyes. Invest. Ophthalmol. Vis. Sci. 2016, 57, 2593–2599. [CrossRef] [PubMed]
- Claudio Perez; Sunee Chansangpetch; Anwell Nguyen; et al. How to Predict Intraocular Pressure Reduction after Cataract Surgery? A Prospective Study. Curr. Eye Res. 2019, 44. [CrossRef] [PubMed]
- Rees, J. P.; Khuu, T. H.; Sanchez, F. G.; et al. Anterior Segment Parameters are Associated With Intraocular Pressure Spikes Following Cataract Surgery in Glaucoma Patients. J. Glaucoma 2025, 34, 637–643. [Google Scholar] [CrossRef] [PubMed]
- Fernandez, K. S.; Ravindranath, R.; Wang, S. Y. The Impact of Race and Ethnicity on Cataract Surgery in the Nationwide All of Us Cohort. Ophthalmic Epidemiol. 2025, 1–9. [Google Scholar] [CrossRef] [PubMed]
- Danziger, G.S.; French, D.D.; Li, Y.; et al. Rates and associated risk factors for cataract surgery complications in academic medical centers. J. Cataract Refract. Surg. 2025. [Google Scholar] [CrossRef] [PubMed]
Disclaimer/Publisher’s Note: The statements, opinions and data contained in all publications are solely those of the individual author(s) and contributor(s) and not of MDPI and/or the editor(s). MDPI and/or the editor(s) disclaim responsibility for any injury to people or property resulting from any ideas, methods, instructions or products referred to in the content. |
© 2026 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (http://creativecommons.org/licenses/by/4.0/).
Copyright: This open access article is published under a Creative Commons CC BY 4.0 license, which permit the free download, distribution, and reuse, provided that the author and preprint are cited in any reuse.
