A comparative study of corneal topographical and central corneal thickness changes in diabetics and non-diabetics before and after phacoemulsification: A study protocol

Dr Vijaya Mallareddy; Sachin Daigavane

doi:10.12688/f1000research.140803.1

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Study Protocol

A comparative study of corneal topographical and central corneal thickness changes in diabetics and non-diabetics before and after phacoemulsification: A study protocol

[version 1; peer review: 1 approved with reservations]

Dr Vijaya Mallareddy ¹, Sachin Daigavane¹

PUBLISHED 26 Sep 2023

Author details Author details

¹ Ophthalmology, Jawaharlal Nehru Medical College, Datta Meghe Institute Of Higher Education and Research, Wardha, Maharashtra, 442001, India

Dr Vijaya Mallareddy
Roles: Conceptualization, Resources, Writing – Original Draft Preparation

Sachin Daigavane
Roles: Supervision, Validation, Writing – Review & Editing

OPEN PEER REVIEW

REVIEWER STATUS

This article is included in the Datta Meghe Institute of Higher Education and Research collection.

Abstract

Diabetes is a chronic metabolic disorder and it has its effects in the eye causing various ocular complications. It is also found that diabetes causes changes in the corneal morphology. Corneal components such as epithelium, endothelium, nerves, and immune cells are affected by hyperglycemia. These changes cause a significant effect on vision in individuals with diabetes. Assessment of corneal parameters like central corneal thickness and corneal topography changes related to diabetes are essential in patients undergoing modern-day cataract surgery like phacoemulsification. Systemic condition like diabetes along with cataract surgery like phacoemulsification can influence corneal healing and fluid balance leading to changes in corneal thickness. Postoperative changes in the cornea are also important to assess the corneal health after the surgery. Comparison of preoperative and postoperative corneal measurements help in assessing the effect of phacoemulsification and health status of the cornea. Study of these changes help in preventing complications and effect on visual outcome and specialised management for individuals with diabetes undergoing cataract surgery. In diabetic patients the risk of intraoperative and postoperative complications in cataract surgery increases compared to non diabetic patients. The aim of the study is to compare corneal curvature and astigmatism by corneal topography and central corneal thickness in diabetic patients and controls before and after phacoemulsification.
CTRI registration number: REF/2023/08/071341

Keywords

Diabetes, Corneal topography, Corneal curvature, Central corneal thickness, Phacoemulsification.

Corresponding author: Dr Vijaya Mallareddy

Competing interests: No competing interests were disclosed.

Grant information: The author(s) declared that no grants were involved in supporting this work.

Copyright: © 2023 Mallareddy DV and Daigavane S. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

How to cite: Mallareddy DV and Daigavane S. A comparative study of corneal topographical and central corneal thickness changes in diabetics and non-diabetics before and after phacoemulsification: A study protocol [version 1; peer review: 1 approved with reservations]. F1000Research 2023, 12:1219 (https://doi.org/10.12688/f1000research.140803.1) First published: 26 Sep 2023, 12:1219 (https://doi.org/10.12688/f1000research.140803.1) Latest published: 26 Sep 2023, 12:1219 (https://doi.org/10.12688/f1000research.140803.1)

Introduction

Diabetes mellitus is a metabolic disorder causing elevated blood glucose levels in the blood.¹ Diabetes mellitus is a global concern and has several effects systemically.²

Ocular manifestations of diabetes include refractive changes, dry eye, extraocular muscle plasy, diplopia, diabetic macular edema, diabetic retinopathy and ischemic optic neuropathy.³ Corneal complications caused by diabetes include delay in wound healing, loss of sensitivity of cornea, recurrent erosions and changes in tear film.⁴ Diabetes mellitus affects metabolic, clinical, morphological, metabolic and physiological state of the cornea.⁵ Transient changes in the refraction can occur due to acute hyperglycemia.⁶ Several studies concluded that evidence of increased central corneal thickness, and decreased endothelial cell density,change in the size and shape of the endothelial cells is seen in diabetic cornea.³

Hyperglycemia causes overexpression of inflammatory mediators and proinflammatory proteins and plays a role in the development of diabetic keratopathy.⁷ Diabetic corneal neuropathy is caused due to damage to trigeminal nerve caused due to chronic hyperglycemia.⁸ Advanced glycation end products and Matrix metalloproteinases cause damage to the cornea by apoptosis of endothelial cells of cornea.⁹ Central corneal thickness changes in the cornea of the diabetic patients is caused due to metabolic stress affecting corneal hydration due to increase in the endothelial permeability.¹⁰ High glucose levels reduce the activity of Na-K+ ATPase which is the major component of endothelial cells causing morphological changes in the permeability of diabetic corneas. The development of changes also depends on the duration diabetes and the degree of metabolic dysregulation.¹¹

The global diabetic population at present is 537 million. According to the international diabetes federation diabetes is expected to increase to 643 million by 2030.¹²

Specular microscopy is a diagnostic tool which is non-invasive and helps in the evaluation of corneal endothelium and central corneal thickness. This shows a distinctive pattern in different endothelial diseases.¹³

Corneal topography is a non-invasive diagnostic tool used to assess corneal curvature and astigmatism. It works by projection of rings of light onto the cornea and capturing their image to generate a topographic image.¹⁴

Rationale

As the prevalence of both diabetes and cataract are high it is important to know the changes that are caused due to diabetes and changes after cataract surgery on cornea. Corneal topography and central corneal thickness changes assessment helps in the understanding of ocular effects of diabetes and its influence on surgical outcomes. Accurate preoperative assessment of risk of the surgery and making decisions before the procedure and postoperative assessment help in identifying complications of the surgery and anticipate challenges related to healing, visual recovery and aid in management. With the advancements like corneal topography and central corneal thickness more precise data and valuable information for decision making can be obatined. This study helps in adding to the scientific knowledge to the existing studies and helps in improvement in the protocol of management of diabetic patients undergoing phacoemulsification.

Aim

The aim of this study is to compare corneal topography and central corneal thickness in diabetics and nondiabetics before and after phacoemulsification surgery.

Objectives

1. To assess and compare the baseline central corneal thickness and corneal topography in diabetics and nondiabetics.
2. To identify any significant differences in corneal topography and central corneal thickness changes between two groups after phacoemulsification.
3. To determine whether diabetes has an impact on corneal topography and central corneal thickness alterations following phacoemulsification.

Protocol

Study design

This study is a non-randomised interventional study and will be conducted at Ophthalmology Department, AVBRH, Sawangi Meghe, Wardha. All the patients attending ophthalmology department for cataract surgery by phacoemulsification will be divided into diabetic and non-diabetic groups based on their diabetes status and after fulfilling inclusion and exclusion criteria. The study will take place from August 2022 to August 2024.

Sample size calculation

The sample size was calaculated using sample size formula with designed error of margin

n = \frac{2 δ^{2} {(Zα + Zβ)}^{2}}{d^{2}}

δ = 0.20643

α = 1.96 (95 % Confidence interval)

β = 80% power = 0.84

\begin{array}{l} d = pretest and post test difference \\ = 0.2012 - 0.2117 \\ = 0.0105 \end{array}

n = 69.02 rounding off to 70

70 patients needed in each group

Total of 140 patients will be needed.

Study reference: Pateras Evangelos, Armenis J. Comparison of Corneal Topography in Eyes Before and One Month After the Phacoemulsification Procedure. Biomed J Sci & Tech Res 25(5)-2020. BJSTR. MS.ID.004275.¹⁵

Preoperatively and one month after phacoemulsification surgery, topography was conducted on patients, corneal refractive forces were statistically analyzed, surgically produced astigmatism was researched, and comparisons between before and after the procedure were made.

Statistical methods

Statistical analysis will be done using chi-square test and Student’s unpaired t-test; values will be considered significant when p<0.005.

SPSS version 27.0 will be used for analysis.

A total of 69.02 rounding off to 70 patients will be required in each group hence a minimum 140 patients (70 eyes of 70 patients with cataract undergoing phacoemulsification having diabetes and 70 eyes of 70 patients with cataract undergoing phacoemulsification who are non-diabetic).

Inclusion criteria

1. Patients in the age group of 40 to 80 years.
2. Patients undergoing cataract surgery by phacoemulsification.
3. Patients diagnosed with diabetes are included in the diabetic group and without diabetes will be included in the non-diabetic group.
4. Patients will be included in the study after giving written consent in local language.
5. Patients willing to undergo postoperative follow up.

Exclusion criteria

1. Patients below 40 years and above 80 years.

2. Patients with a history of corneal diseases such as corneal opacities, dystrophies.

3. Patients with pterygium in the operating eye.

4. Diagnosed cases of glaucoma.

5. Patients with dry eye disease.

6. Patients with a history of wearing contact lenses.

7. Patients who have had traumatic cataract, post-uveitic cataract, subluxated lens and pseudoexfoliation syndrome.

7. Patients unwilling to provide informed consent.

8. Patients lost to follow up.

Methods

This is a hospital based study where it is conducted in the Department of Ophthalmology at AVBRH, Sawangi after approval from the ethics committee of the institute. Patients admitted for the cataract extraction by phacoemulsification will be taken for the study where comprehensive ophthalmic examination, Visual acuity will be measured using Snellen chart where patient is made to sit at a distance of 6 meters from the chart. Then, one eye is covered with the hand and the patient is made to read the chart until they can no longer identify the majority of characters in that row. Then the result is recorded and the same is done for the other eye, and the results are interpreted. Slit lamp examination is done, where patient is made comfortably seated in the examination chair and the light of the slit lamp, light intensity and magnification are adjusted. The patient is positioned with their forehead and chin in place to keep the head steady, and the slit beam is adjusted. The examination of anterior segment is done. Fundus ophthalmoscopy is done by indirect ophthalmoscopy using 20D lens and fundus findings are noted. Intraocular pressure measurement by applanation tonometer will be carried out, where the patient is comfortably seated and topical anesthesia is applied to both eyes to minimize discomfort. The tonometer tip is placed on the cornea and gentle pressure applied, and the cornea is flattened while intraocular pressure measurements are taken. IOL power calculation using the SRK-T formula will be measured, where corneal curvature measurements are taken using corneal topography and axial length is measured using ultrasound biometry (A-scan), and anterior chamber depth is taken into account. The SRK/T formula is: IOL power (P)=A-constant(A) – (2.5×AL) + (0.9×K). Random blood sugar levels measured by glucometer will be taken into consideration, preoperative central corneal thickness by Topcon SP-IP specular microscope and corneal topography using Orbscan corneal topography system are recorded, detailed past history and history of systemic illness will be taken.

Study participants will be divided into two groups where people having Diabetes mellitus type 2 will be taken in group A and people having no history of diabetes will be taken in group B. All the patients are allotted in the groups after taking inclusion and exclusion criteria into consideration. Informed written consent will be taken from all the patients. Both study groups will undergo phacoemulsification surgery following standard surgical protocols. Corneal topographical and central corneal thickness changes will be recorded postoperatively after one week, one month and three months follow up. Statistical analysis will be conducted between the two groups to compare preoperative and postoperative central corneal thickness and corneal topography before and after phacoemulsification surgery.

Both the diabetic and non-diabetic groups will undergo phacoemulsification surgery.

Phacoemulsification is a modern day cataract surgery. All the aseptic precautions like hand hygiene and use of sterile gloves and instruments to reduce risk of contamination will be taken and peribulbar anaesthesia is given to the operating eye and eye is draped and painted with betadine and globe exposure is done with eye speculum and sideport incision is taken with 15degree blade and continuous curvilinear capsulorrhexis of anterior capsule is performed with cystitome and clear corneal incision of 2.8mm wide is taken. Hydrodissection is performed using to separate the cortex from posterior capsule which helps in nucleus rotation and also facilitate to perform trenching as nucleus is prolapsed anteriorly and viscoelastic is introduced into anterior chamber before phacoemulsification which prevents corneal endothelial damage. Ultrasound energy is used to break the nucleus into fragments and then vacuum is used to catch the nuclear material and irrigation and aspiration for cortex removal and viscoelastic removal. Intraocular lens implantation is done under viscoelastic cover after extension of clear corneal incision in case of rigid intraocular lens implantation. Then the viscoelastic material is washed using Simcoe cannula and anterior chamber is formed and wound is closed.

Selection bias can occur while conducting the study. To prevent selection bias, patients who have had diabetes for at least of 5 years will be taken into the study.

Confidentiality of the study participants will be maintained by not revealing the identity of the patient like name and address and by using the admission code for identification. Raw data will be available only to the authorised individuals.

Dissemination

To publish in the academic journals and present the study outcomes in conferences once the study is completed.

Study status

The current status of the study is in the data collection stage.

Outcomes

Primary outcome

1. This study analyses how systemic cause like diabetes influence ocular parameters like corneal topography and central corneal thickness and
2. This study analyses how phacoemulsification impacts corneal parameters like corneal topography and corneal thickness.

Secondary outcome

These investigations conducted help in providing valuable insight in the potential difference in corneal responses to surgical procedure in both the groups helping improve understanding and clinical management in patients with diabetes undergoing phacoemulsification.

Discussion

In our study we are expecting differences in the corneal topography and central corneal thickness changes in diabetics preoperatively and postoperatively changes are seen in both the groups however we expect diabetic patients show prolonged corneal healing as compared to non-diabetics and diabetics are expected to show increased central corneal thickness following phacoemulsification.

Xiao-yang Luo et al., conducted a study which showed that diabetes and hyperglycemia are associated with greater central corneal thickness.¹⁶

Nagaraj et al., showed that endothelial cell density was decreased and central corneal thickness was increased in diabetics than non-diabetics.¹⁷

Sonmez et al., evaluated corneal topographic measurements in patients of acute severe hyperglycemia and concluded that eyes in diabetic patients displayed higher keratometric readings than eyes of nondiabetic ones.¹⁸

Busted et al., no correlation was found between diabetes duration, blood sugar levels, and use of insulin and central corneal thickness.¹⁹

Artur Jose Schmitt et al., showed that there is no significant change in the posterior corneal cuvature after phacoemulsification.²⁰

Ethical considerations

Consent will be taken from all the participants in the study and ethical committee approval from the institute was issued DMIMS (DU)/IEC/2022/195.

Data availability

No data associated with this article.

Acknowledgements

I would like to acknowledge the Department of Ophthalmology, JNMC, AVBRH, Sawangi for their constant support.

References

1. Diabetes - StatPearls - NCBI Bookshelf: [cited 2023 Aug 4]. Reference Source
2. Hu FB: Globalization of Diabetes. Diabetes Care. 2011 Jun; 34(6): 1249–1257. Publisher Full Text
3. Makkar B, Srivastav T, Mishra D, et al.: Changes in the Central Corneal Thickness in Diabetes Mellitus Patients with age and Gender Matched Healthy Controls in North Indian Population. AIMDR. 2018 Jun 24 [cited 2023 Aug 4]; 4(4). Publisher Full Text Reference Source
4. Diabetic complications in the cornea - PMC: [cited 2023 Aug 4]. Reference Source
5. Sánchez-Thorin JC: The cornea in diabetes mellitus. Int. Ophthalmol. Clin. 1998; 38(2): 19–36. Publisher Full Text
6. Sonmez B, Bozkurt B, Atmaca A, et al.: Effect of Glycemic Control on Refractive Changes in Diabetic Patients With Hyperglycemia. Cornea. 2005 Jul; 24(5): 531–537. PubMed Abstract | Publisher Full Text
7. Markoulli M, Flanagan J, Tummanapalli SS, et al.: The impact of diabetes on corneal nerve morphology and ocular surface integrity. Ocul. Surf. 2018 Jan; 16(1): 45–57. PubMed Abstract | Publisher Full Text
8. Bikbova G, Oshitari T, Baba T, et al.: Diabetic corneal neuropathy: clinical perspectives. Clin. Ophthalmol. 2018; 12: 981–987. PubMed Abstract | Publisher Full Text
9. Advanced Glycation End Products Induce Apoptosis in Corneal Endothelium|IOVS|ARVO Journals: [cited 2023 Aug 4]. Reference Source
10. Urban B, Raczyńska D, Bakunowicz-Łazarczyk A, et al.: Evaluation of corneal endothelium in children and adolescents with type 1 diabetes mellitus. Mediat. Inflamm. 2013; 2013: 913754.
11. Corneal Endothelial Morphology in Children with Type 1 Diabetes.[cited 2023 Jul 17]. Reference Source
12. Facts & figures - International Diabetes Federation: [cited 2023 Aug 3]. Reference Source
13. Chaurasia S, Vanathi M: Specular microscopy in clinical practice. Indian J. Ophthalmol. 2021 Mar; 69(3): 517–524. PubMed Abstract | Publisher Full Text | Free Full Text
14. Corneal Topography - EyeWiki: [cited 2023 Aug 4]. Reference Source
15. Evangelos P: Comparison of Corneal Topography in Eyes Before and One Month After the Phacoemulsification Procedure. BJSTR. 2020 Feb 24 [cited 2023 Aug 29]; 25(5). Publisher Full Text Reference Source
16. Association of Diabetes With Central Corneal Thickness Among a Multiethnic Asian Population - PMC: [cited 2023 Aug 3]. Reference Source
17. Nagaraj G, Desai AS, Jayaram N: Corneal thickness and endothelial cell density in diabetic and non- diabetic patients: a hospital based comparative study. International Journal of Advances in Medicine. 2018 May 22; 5(3): 694–699. Publisher Full Text
18. Sonmez B, Bozkurt B, Atmaca A, et al.: Effect of Glycemic Control on Refractive Changes in Diabetic Patients With Hyperglycemia. Cornea. 2005 Jul; 24(5): 531–537. PubMed Abstract | Publisher Full Text
19. Clinical observations on the corneal thickness and the corneal endothelium in diabetes mellitus - PubMed: [cited 2023 Aug 3]. Reference Source
20. Schmitt AJ, Moreira ATR, Filho FAK, et al.: Corneal Posterior Curvature Changes After Phacoemulsification Cataract Surgery with 2.75 mm Corneal Incision. Med Hypothesis Discov Innov Ophthalmol. 2019; 8(2): 110–115. PubMed Abstract

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Version 1

VERSION 1 PUBLISHED 26 Sep 2023

Author details Author details

¹ Ophthalmology, Jawaharlal Nehru Medical College, Datta Meghe Institute Of Higher Education and Research, Wardha, Maharashtra, 442001, India

Dr Vijaya Mallareddy
Roles: Conceptualization, Resources, Writing – Original Draft Preparation

Sachin Daigavane
Roles: Supervision, Validation, Writing – Review & Editing

Competing interests

No competing interests were disclosed.

Grant information

The author(s) declared that no grants were involved in supporting this work.

Article Versions (1)

version 1

Published: 26 Sep 2023, 12:1219

https://doi.org/10.12688/f1000research.140803.1

Copyright

© 2023 Mallareddy DV and Daigavane S. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

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Mallareddy DV and Daigavane S. A comparative study of corneal topographical and central corneal thickness changes in diabetics and non-diabetics before and after phacoemulsification: A study protocol [version 1; peer review: 1 approved with reservations]. F1000Research 2023, 12:1219 (https://doi.org/10.12688/f1000research.140803.1)

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Reviewer Report 11 May 2024

Aditya Verma, Doheny Eye Institute, Pasadena, CA, USA; Department of Ophthalmology and Visual Sciences, : University of Louisville, Louisville, Kentucky, USA

Approved with Reservations

https://doi.org/10.5256/f1000research.154197.r252769

1. Grammatical errors
2. Introduction needs rephrasing. Diabetes is introduced in the first and 4th paragraph, and the rest is general introducing the effects of diabetes on corneal health. If the study is centered around topography and thickness, introduction ... Continue reading

1. Grammatical errors
2. Introduction needs rephrasing. Diabetes is introduced in the first and 4th paragraph, and the rest is general introducing the effects of diabetes on corneal health. If the study is centered around topography and thickness, introduction can be concise and crisp rather than hitting the nail from all directions.
3. Introduction may also include the effects of phaco or cataract surgery in general on the topography and thickness values as these are the groups being compared.
4. In a study where the protocol is being submitted for approval, the intervention has already been done. Having said that, the study may be more aptly termed "retro-prospective", to indicate the retrospective and prospective nature of the study.
5. Patients with diabetes have been included with a bias. The diabetic status needs to be checked using prior glycosylated hemoglobin/ glucose levels (glycemic control), rather than restricting the patients with at least 5 years of diabetes.
6. Exclusion criteria need to be stricter. First, why are the patients outside of the 40-80 year age range were excluded? The authors also need to exclude any patients with previous ocular surgery/ long term use of any eye drops/ frequent blinking/ rubbing etc as the corneal topography may vary in all such instances.
7. Phaco surgery needs to be better explained. The location of the incision, the type of the IOL used, use of sutures (corneal/ scleral/ conjunctival, if any), needs to be mentioned.
8. The central corneal thickness may vary with systemic diseases, and with diurnal variation. That needs to be explained better.
9. Discussion can be limited to a general discussion of the subject rather than what is being expected. That induces observer bias which may alter the results.
10. I did not see the study parameters. These need to be defined clearly. Further, if vision is one of them, all patients with pre-existing retinal diseases/ intravitreal injections and post op cystoid edema need to be excluded

Is the rationale for, and objectives of, the study clearly described?

No
Is the study design appropriate for the research question?

Partly
Are sufficient details of the methods provided to allow replication by others?

No
Are the datasets clearly presented in a useable and accessible format?

Partly

Competing Interests: No competing interests were disclosed.

Reviewer Expertise: Diabetic Retinopathy, Age related macular degeneration, diabetic eye diseases, ophthalmic imaging

I confirm that I have read this submission and believe that I have an appropriate level of expertise to confirm that it is of an acceptable scientific standard, however I have significant reservations, as outlined above.

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Aditya Verma, Doheny Eye Institute, Pasadena, USA; : University of Louisville, Louisville, USA

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Reviewer Report

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11 May 2024 | for Version 1

Aditya Verma, Doheny Eye Institute, Pasadena, CA, USA; Department of Ophthalmology and Visual Sciences, : University of Louisville, Louisville, Kentucky, USA

5 Views Cite this report Responses(0)

Approved With Reservations

1. Grammatical errors
2. Introduction needs rephrasing. Diabetes is introduced in the first and 4th paragraph, and the rest is general introducing the effects of diabetes on corneal health. If the study is centered around topography and thickness, introduction can be concise and crisp rather than hitting the nail from all directions.
3. Introduction may also include the effects of phaco or cataract surgery in general on the topography and thickness values as these are the groups being compared.
4. In a study where the protocol is being submitted for approval, the intervention has already been done. Having said that, the study may be more aptly termed "retro-prospective", to indicate the retrospective and prospective nature of the study.
5. Patients with diabetes have been included with a bias. The diabetic status needs to be checked using prior glycosylated hemoglobin/ glucose levels (glycemic control), rather than restricting the patients with at least 5 years of diabetes.
6. Exclusion criteria need to be stricter. First, why are the patients outside of the 40-80 year age range were excluded? The authors also need to exclude any patients with previous ocular surgery/ long term use of any eye drops/ frequent blinking/ rubbing etc as the corneal topography may vary in all such instances.
7. Phaco surgery needs to be better explained. The location of the incision, the type of the IOL used, use of sutures (corneal/ scleral/ conjunctival, if any), needs to be mentioned.
8. The central corneal thickness may vary with systemic diseases, and with diurnal variation. That needs to be explained better.
9. Discussion can be limited to a general discussion of the subject rather than what is being expected. That induces observer bias which may alter the results.
10. I did not see the study parameters. These need to be defined clearly. Further, if vision is one of them, all patients with pre-existing retinal diseases/ intravitreal injections and post op cystoid edema need to be excluded

Is the rationale for, and objectives of, the study clearly described?

No
Is the study design appropriate for the research question?

Partly
Are sufficient details of the methods provided to allow replication by others?

No
Are the datasets clearly presented in a useable and accessible format?

Partly

Competing Interests

No competing interests were disclosed.

Reviewer Expertise

Diabetic Retinopathy, Age related macular degeneration, diabetic eye diseases, ophthalmic imaging

I confirm that I have read this submission and believe that I have an appropriate level of expertise to confirm that it is of an acceptable scientific standard, however I have significant reservations, as outlined above.

Respond to this report

Responses (0)

[1] 1. Diabetes - StatPearls - NCBI Bookshelf: [cited 2023 Aug 4]. Reference Source

[2] 2. Hu FB: Globalization of Diabetes. Diabetes Care. 2011 Jun; 34(6): 1249–1257. Publisher Full Text

[3] 3. Makkar B, Srivastav T, Mishra D, et al.: Changes in the Central Corneal Thickness in Diabetes Mellitus Patients with age and Gender Matched Healthy Controls in North Indian Population. AIMDR. 2018 Jun 24 [cited 2023 Aug 4]; 4(4). Publisher Full Text Reference Source

[4] 4. Diabetic complications in the cornea - PMC: [cited 2023 Aug 4]. Reference Source

[5] 5. Sánchez-Thorin JC: The cornea in diabetes mellitus. Int. Ophthalmol. Clin. 1998; 38(2): 19–36. Publisher Full Text

[6] 6. Sonmez B, Bozkurt B, Atmaca A, et al.: Effect of Glycemic Control on Refractive Changes in Diabetic Patients With Hyperglycemia. Cornea. 2005 Jul; 24(5): 531–537. PubMed Abstract | Publisher Full Text

[7] 7. Markoulli M, Flanagan J, Tummanapalli SS, et al.: The impact of diabetes on corneal nerve morphology and ocular surface integrity. Ocul. Surf. 2018 Jan; 16(1): 45–57. PubMed Abstract | Publisher Full Text

[8] 8. Bikbova G, Oshitari T, Baba T, et al.: Diabetic corneal neuropathy: clinical perspectives. Clin. Ophthalmol. 2018; 12: 981–987. PubMed Abstract | Publisher Full Text

[9] 9. Advanced Glycation End Products Induce Apoptosis in Corneal Endothelium|IOVS|ARVO Journals: [cited 2023 Aug 4]. Reference Source

[10] 10. Urban B, Raczyńska D, Bakunowicz-Łazarczyk A, et al.: Evaluation of corneal endothelium in children and adolescents with type 1 diabetes mellitus. Mediat. Inflamm. 2013; 2013: 913754.

[11] 11. Corneal Endothelial Morphology in Children with Type 1 Diabetes.[cited 2023 Jul 17]. Reference Source

[12] 12. Facts & figures - International Diabetes Federation: [cited 2023 Aug 3]. Reference Source

[13] 13. Chaurasia S, Vanathi M: Specular microscopy in clinical practice. Indian J. Ophthalmol. 2021 Mar; 69(3): 517–524. PubMed Abstract | Publisher Full Text | Free Full Text

[14] 14. Corneal Topography - EyeWiki: [cited 2023 Aug 4]. Reference Source

[15] 15. Evangelos P: Comparison of Corneal Topography in Eyes Before and One Month After the Phacoemulsification Procedure. BJSTR. 2020 Feb 24 [cited 2023 Aug 29]; 25(5). Publisher Full Text Reference Source

[16] 16. Association of Diabetes With Central Corneal Thickness Among a Multiethnic Asian Population - PMC: [cited 2023 Aug 3]. Reference Source

[17] 17. Nagaraj G, Desai AS, Jayaram N: Corneal thickness and endothelial cell density in diabetic and non- diabetic patients: a hospital based comparative study. International Journal of Advances in Medicine. 2018 May 22; 5(3): 694–699. Publisher Full Text

[18] 18. Sonmez B, Bozkurt B, Atmaca A, et al.: Effect of Glycemic Control on Refractive Changes in Diabetic Patients With Hyperglycemia. Cornea. 2005 Jul; 24(5): 531–537. PubMed Abstract | Publisher Full Text

[19] 19. Clinical observations on the corneal thickness and the corneal endothelium in diabetes mellitus - PubMed: [cited 2023 Aug 3]. Reference Source

[20] 20. Schmitt AJ, Moreira ATR, Filho FAK, et al.: Corneal Posterior Curvature Changes After Phacoemulsification Cataract Surgery with 2.75 mm Corneal Incision. Med Hypothesis Discov Innov Ophthalmol. 2019; 8(2): 110–115. PubMed Abstract

A comparative study of corneal topographical and central corneal thickness changes in diabetics and non-diabetics before and after phacoemulsification: A study protocol

Abstract

Keywords

Introduction

Rationale

Aim

Objectives

Protocol

Study design

Sample size calculation

Statistical methods

Inclusion criteria

Exclusion criteria

Methods

Dissemination

Study status

Outcomes

Primary outcome

Secondary outcome

Discussion

Ethical considerations

Data availability

Acknowledgements

References

Comments on this article Comments (0)

Open Peer Review

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Reviewer Reports

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