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Clinical Trial Details — Status: Recruiting

Administrative data

NCT number NCT03760770
Other study ID # CEI-2018/10/01
Secondary ID
Status Recruiting
Phase N/A
First received
Last updated
Start date February 1, 2018
Est. completion date February 1, 2019

Study information

Verified date November 2018
Source Instituto de Oftalmología Fundación Conde de Valenciana
Contact laura Toro, MD
Phone +52154421700
Email lauratorog@hotmail.com
Is FDA regulated No
Health authority
Study type Interventional

Clinical Trial Summary

Background: The objective of corneal collagen crosslinking (CXL) is to increase the binding of intrafibrillary and interfibrillary covalent bonds to improve the mechanical stability of the cornea and thus to stop the progression of corneal ectasias. Although the vast majority of studies have described pain after photorefractive keratectomy (PRK), the pathophysiological principle of pain is similar in CXL. From the anatomical point of view, the corneal epithelium is the most densely innervated and sensitive surface of the body, being 300-600 times greater than in the skin. The pain after CXL comes from several routes, the process begins with the epithelial rupture that generates exposure of the nerve endings, induces apoptosis and necrosis of the epithelial cells. Subsequently an inflammatory cascade is initiated in which the different cytokines stimulate the nerve terminals. Inflammatory mediators also activate the ion channels in the nerve membrane, and this process continues until the epithelium heals. Additionally, exposure to UVA rays can also cause nerve damage. The effect of local cold for pain management has already been reported in PRK. By cooling the cornea, the release of chemical mediators and inflammation can be reduced. In the CXL radiation is transformed into several forms of energy: fluorescent radiation, chemical energy and, to a small extent, heat. The CXL process is energetically comparable to photosynthesis, in which the radiation energy is transformed into chemical energy (glucose) with the help of pigments (chlorophyll). The thermal effect is negligible in the photochemical method of CXL. Justification: No method for the control of pain after crosslinking is considered ideal or universally accepted, the importance of this study lies in looking for an additional tool to reduce the most common postoperative complaint in a highly performed procedure worldwide. Hypothesis: The application of riboflavin at 4oC reduces the pain assessment after the CXL. Purpose: to evaluate the effect of the application of riboflavin at 4oC in the assessment of postoperative pain in patients undergoing CXL. Materials and methods: Prospective and interventional clinical study in patients older than 18 years with a diagnosis of keratoconus who underwent CXL, in the cornea and refractive surgery service of the Ophthalmology institute Fundación Conde de Valenciana.


Recruitment information / eligibility

Status Recruiting
Enrollment 90
Est. completion date February 1, 2019
Est. primary completion date February 1, 2019
Accepts healthy volunteers No
Gender All
Age group 18 Years and older
Eligibility Inclusion Criteria:

- patients of any gender

- older than 18 years

- diagnosis of keratoconus who require management with crosslinking in both eyes for evidence of progression.

Exclusion Criteria:

- crosslinking without removal of epithelium or unilateral crosslinking.

- patients with other ocular conditions different from keratoconus.

- cognitive disability that limits the compression of the pain test as Down syndrome, etc.

Study Design


Related Conditions & MeSH terms


Intervention

Procedure:
corneal collagen crosslinking
Crosslinking in patients with progressive keratoconus.

Locations

Country Name City State
Mexico Instituto de oftalmología conde de Valenciana Mexico City

Sponsors (1)

Lead Sponsor Collaborator
Instituto de Oftalmología Fundación Conde de Valenciana

Country where clinical trial is conducted

Mexico, 

References & Publications (17)

Galvis V, Tello A, Carreño NI, Berrospi RD, Niño CA. Risk Factors for Keratoconus: Atopy and Eye Rubbing. Cornea. 2017 Jan;36(1):e1. — View Citation

Garcia R, de Andrade DC, Teixeira MJ, Nozaki SS, Bechara SJ. Mechanisms of Corneal Pain and Implications for Postoperative Pain After Laser Correction of Refractive Errors. Clin J Pain. 2016 May;32(5):450-8. Review. — View Citation

Ghanem VC, Ghanem RC, de Oliveira R. Postoperative pain after corneal collagen cross-linking. Cornea. 2013 Jan;32(1):20-4. doi: 10.1097/ICO.0b013e31824d6fe3. — View Citation

Godefrooij DA, de Wit GA, Uiterwaal CS, Imhof SM, Wisse RP. Age-specific Incidence and Prevalence of Keratoconus: A Nationwide Registration Study. Am J Ophthalmol. 2017 Mar;175:169-172. doi: 10.1016/j.ajo.2016.12.015. Epub 2016 Dec 28. — View Citation

Kitazawa Y, Maekawa E, Sasaki S, Tokoro T, Mochizuki M, Ito S. Cooling effect on excimer laser photorefractive keratectomy. J Cataract Refract Surg. 1999 Oct;25(10):1349-55. — View Citation

Kymes SM, Walline JJ, Zadnik K, Sterling J, Gordon MO; Collaborative Longitudinal Evaluation of Keratoconus Study Group. Changes in the quality-of-life of people with keratoconus. Am J Ophthalmol. 2008 Apr;145(4):611-617. doi: 10.1016/j.ajo.2007.11.017. E — View Citation

Lichtinger A, Purcell TL, Schanzlin DJ, Chayet AS. Gabapentin for postoperative pain after photorefractive keratectomy: a prospective, randomized, double-blind, placebo-controlled trial. J Refract Surg. 2011 Aug;27(8):613-7. doi: 10.3928/1081597X-20110210 — View Citation

Mencucci R, Mazzotta C, Rossi F, Ponchietti C, Pini R, Baiocchi S, Caporossi A, Menchini U. Riboflavin and ultraviolet A collagen crosslinking: in vivo thermographic analysis of the corneal surface. J Cataract Refract Surg. 2007 Jun;33(6):1005-8. — View Citation

Peyman A, Nouralishahi A, Hafezi F, Kling S, Peyman M. Stromal Demarcation Line in Pulsed Versus Continuous Light Accelerated Corneal Cross-linking for Keratoconus. J Refract Surg. 2016 Mar;32(3):206-8. doi: 10.3928/1081597X-20160204-03. — View Citation

Raiskup F, Spoerl E. Corneal crosslinking with riboflavin and ultraviolet A. I. Principles. Ocul Surf. 2013 Apr;11(2):65-74. doi: 10.1016/j.jtos.2013.01.002. Epub 2013 Jan 24. Review. — View Citation

Sharif R, Bak-Nielsen S, Hjortdal J, Karamichos D. Pathogenesis of Keratoconus: The intriguing therapeutic potential of Prolactin-inducible protein. Prog Retin Eye Res. 2018 Nov;67:150-167. doi: 10.1016/j.preteyeres.2018.05.002. Epub 2018 Jul 13. Review. — View Citation

Spadea L, Salvatore S, Paroli MP, Vingolo EM. Recovery of corneal sensitivity after collagen crosslinking with and without epithelial debridement in eyes with keratoconus. J Cataract Refract Surg. 2015 Mar;41(3):527-32. doi: 10.1016/j.jcrs.2014.06.030. Ep — View Citation

Spadea L, Tonti E, Vingolo EM. Corneal stromal demarcation line after collagen cross-linking in corneal ectatic diseases: a review of the literature. Clin Ophthalmol. 2016 Sep 19;10:1803-1810. eCollection 2016. Review. — View Citation

Wollensak G, Spoerl E, Seiler T. Riboflavin/ultraviolet-a-induced collagen crosslinking for the treatment of keratoconus. Am J Ophthalmol. 2003 May;135(5):620-7. — View Citation

Woreta FA, Gupta A, Hochstetler B, Bower KS. Management of post-photorefractive keratectomy pain. Surv Ophthalmol. 2013 Nov-Dec;58(6):529-35. doi: 10.1016/j.survophthal.2012.11.004. Review. — View Citation

Xia Y, Chai X, Zhou C, Ren Q. Corneal nerve morphology and sensitivity changes after ultraviolet A/riboflavin treatment. Exp Eye Res. 2011 Oct;93(4):541-7. doi: 10.1016/j.exer.2011.06.021. Epub 2011 Jul 13. — View Citation

Yam JC, Chan CW, Cheng AC. Corneal collagen cross-linking demarcation line depth assessed by Visante OCT After CXL for keratoconus and corneal ectasia. J Refract Surg. 2012 Jul;28(7):475-81. doi: 10.3928/1081597X-20120615-03. — View Citation

* Note: There are 17 references in allClick here to view all references

Outcome

Type Measure Description Time frame Safety issue
Primary Change pain perception in patients undergoing crosslinking with riboflavin at 4ºC A previously validated numerical pain scale questionnaire was applied. Patients are asked to indicate their pain intensity on a scale of 0 to 10, explaining that 0 does not represent pain at all and 10 is a severe and disabling pain. 2 postoperative hours and from day 1 to 5 postoperative.
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