CME With Different Fluidic Parameters

Phase 4

Completed

• Conditions: Cystoid Macular Edema Following Cataract Surgery
• Interventions: Procedure: microcoaxial phacoemulsification

• Registration Number: NCT01385852
• Lead Sponsor: Iladevi Cataract and IOL Research Center

Brief Summary

Understanding and modulating fluid parameters is an important, but often overlooked aspect of phacoemulsification. In a previous study we compared the impact of using high fluid parameters versus low fluidic parameters on real-time IOP measured during phacoemulsification. The investigators found that using high parameters resulted in a higher absolute rise in IOP as well as higher fluctuations in the IOP when compared to low parameters. Clinically these higher fluctuations in IOP would translate in a higher chamber instability. Based on the results of this study, the investigators decided to take it further and study the impact of using high parameters (and thus, higher chamber instability) on macular edema and thickness following surgery, in an otherwise uncomplicated surgery.

Higher fluid parameters during phacoemulsification predisposes the eye to increased macular thickness

Detailed Description

Several studies have shown the adverse impact of an increase in the IOP and IOP fluctuations that occur during anterior segment intervention on the posterior segment structures. In human volunteers with each incremental increase in IOP the systolic and diastolic flow velocities in the short posterior ciliary arteries decreased linearly. This implies that the normal healthy eye is not able to autoregulate to maintain posterior ciliary artery blood flow velocities in response to acute large elevations in IOP. Vascular insufficiency due to abnormal autoregulation has been proposed as a major factor in the development of glaucoma. 1

It has been postulated that IOP elevation during the LASIK procedure causes mechanical stress which may induce tangential stress on the posterior segment.2, 3 Some studies have reported that the increase in IOP damages the retinal ganglion cells causing visual field defects. Also sudden increases in IOP, although well tolerated may induce changes in the peripheral retina.4,5,6

Several reports propose the occurrence of macular hole, lacquer cracks and choroidal neovascular membranes following the LASIK procedure. 3 It has been observed that the rapidly fluctuating pressure variations may be detrimental, particularly in susceptible persons with compromised ocular blood flow. Rapid IOP changes across a 30-mm Hg range would be predicted to influence posterior segment blood vessels.

In a previous study we compared the impact of using high fluid parameters versus low fluidic parameters on real-time IOP measured during phacoemulsification. We found that using high parameters resulted in a higher absolute rise in IOP as well as higher fluctuations in the IOP when compared to low parameters. Clinically these higher fluctuations in IOP would translate in a higher chamber instability.

We hypothesize that although transient, the increased IOP that occurs during phacoemulsification when using high parameters could cause mechanical stress on the eye. These higher fluid parameters during phacoemulsification can predispose the eye to increased macular thickness.

To the best of our knowledge there are no published data on impact of IOP changes and fluctuation that are induced during cataract surgery on the macula. To investigate this further, we decided to study the impact of using high parameters (and thus, higher chamber instability) on macular thickness following surgery, in an otherwise uncomplicated surgery.

Study Timeline

• Study Start: 2010-05
• Primary Completion: 2011-02
• Study First Submitted: 2011-06-28
• Study First Submitted QC: 2011-06-29
• Study First Posted: 2011-06-30
• Study Completion: 2011-08
• Status Verified: 2012-06
• Last Update Submitted: 2012-06-05
• Last Update Posted: 2012-06-06

Recruitment & Eligibility

• Status: COMPLETED
• Sex: All
• Target Recruitment: 150

Inclusion Criteria

1. Uncomplicated, Age-related cataract.
2. Nuclear sclerosis: upto grade 3
3. Age: 40-70 years
4. Axial length: 21.5 mm to 24.5 mm

Exclusion Criteria

1. Diabetes mellitus
2. Co-existing ocular disease- uveitis, glaucoma, PEX
3. Pre-existing macular pathology (eg.ARMD)
4. Previously operated eyes
5. Under treatment with Topical or systemic steroids / NSAID's
6. Intraoperative complications- PCR, Descemet's detachment, uveal trauma
7. Post operative complications - severe inflammation (>grade 3), rise in IOP

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: PARALLEL

Arm && Interventions

Group	Intervention	Description
Longitudinal U/S - low fluidic	microcoaxial phacoemulsification	ASPIRATION FLOW RATE - 25 CC/MIN, BOTTLE HEIGHT - 90 CMS, LONGITUDINAL ULTRASOUND
Torsional U/S - low fluidic	microcoaxial phacoemulsification	ASPIRATION FLOW RATE - 25 CC/MIN, BOTTLE HEIGHT - 90 CMS, TORSIONAL ULTRASOUND
Longitudinal U/S - high fluidic	microcoaxial phacoemulsification	ASPIRATION FLOW RATE - 40 CC/MIN, BOTTLE HEIGHT - 110 CMS, LONGITUDINAL ULTRASOUND

Primary Outcome Measures

Name	Time	Method
cystoid macular edema (CME)	3 months	A \> or = 30% increase in baseline central foveal thickness measaured by anterior segment OCT will be defined as having CME.

Secondary Outcome Measures

Name	Time	Method
anterior chamber inflammation	1 months	it will be assessed on the slit lamp examination by a single experienced observer using the Hogan's criteria
CORRECTED DISTANCE VISUAL ACUITY (CDVA)	3 months	visual acuity (VA) of 20/40 or worse was defined as "clinically significant"
macular thickness	1, 3 months	macular thickness measured in 3 zones using the anterior segment OCT
central corneal thickness (CCT)	first post-operative day,	CCT will be measured on the ultrasound pachymeter by a single experienced observer
endothelial cell loss	6 months post-operative	Endothelial cell loss will be measured using a specular microscope in the central area by a single technician

Trial Locations

Locations (1)

Raghudeep Eye Clinic; 🇮🇳 Ahmedabad, Gujarat, India