Research Article
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Year 2021, Volume: 68 Issue: 2, 147 - 154, 31.03.2021
https://doi.org/10.33988/auvfd.724013

Abstract

References

  • Atiba A, Wasfy T, Abdo W, et al (2015): Aloe vera gel facilitates re-epithelialization of corneal alkali burn in normal and diabetic rats. Clin Ophthalmol, 9, 2019–2026.
  • Carlson EC, Wang IJ, Liu CY, et al (2003): Altered KSPG expression by keratocytes following corneal injury. Mo Vis, 9, 615–623.
  • Catalanotti P, Lanza M, Del Prete A, et al (2005): Slime-producing Staphylococcus epidermidis and S. aureus in acute bacterial conjunctivitis in soft contact lens wearers. New Microbiol, 28, 345–354.
  • Cintron C, Kublin CL, Covington H (1981): Quantitative studies of corneal epithelial wound healing in rabbits. Curr Eye Res, 1, 507-516.
  • Eshar D, Wyre NR, Schoster J V (2011): Use of collagen shields for treatment of chronic bilateral corneal ulcers in a pet rabbit. J Small Ani Pract, 52, 380–383.
  • Fan T, Zhao J, Hu X, et al (2011): Therapeutic efficiency of tissue-engineered human corneal endothelium transplants on rabbit primary corneal endotheliopathy. J Zhejiang Univ Sci B, 12, 492–498.
  • Frantz JM, Dupuy BM, Kaufman HE, et al (1989): The effect of collagen shields on epithelial wound healing in rabbits. Am J Ophthalmol, 108, 524–528.
  • Fu Y, Fan X, Chen P, et al (2010): Reconstruction of a tissue-engineered cornea with porcine corneal acellular matrix as the scaffold. Cells Tissues Organs, 191, 193–202.
  • Gasset AR, Kaufman HE (1970): Therapeutic uses of hydrophilic contact lenses. Am J Ophthalmol, 69, 252–259.
  • Gelatt KN, Gilger BC, Kern TJ (2013): Veterinary Ophthalmology. John Wiley&Sons, Inc., Iowa.
  • Günay C, Sağlıyan A, Yaman M (2005): Köpeklerde deneysel olarak oluşturulan korneal defektlerin sağaltımında asetilsisteinin etkisi. Fırat Üni Sağ Bil Vet Derg, 19, 151–156.
  • Honda N (2009): Descemet tripping automated endothelial keratoplasty using cultured corneal endothelial cells in a rabbit model. Arch Ophthalmol, 127, 1321.
  • Kanao S, Kouzuki S, Tsuruno M, et al (1993): Clinical application of 3% N-acetylcysteine collyrium on canine corneal diseases. J Japan Vet Med Assoc, 46, 487–491.
  • Klyce FD Beuerman RW (1988): Structure and function of the cornea. 3-54. In: HE Kaufman, BA Barron, MB McDonald (Eds), The Cornea. Churchill Livingstone, New York.
  • Kuwabara T, Perkins DG, Cogan DG (1976): Sliding of the epithelium in experimental corneal wounds. Invest Ophthalmol, 15, 4–14.
  • La Croix NC, Van Der Woerdt A, Olivero DK (2001): Nonhealing corneal ulcers in cats: 29 cases (1991-1999). J Am Vet Med Assoc, 218, 733–735.
  • Lesar TS, Fiscella RG (1985): Antimicrobial drug delivery to the eye. Drug Intell Clin Pharm, 19, 642–654.
  • Marmer RH (1988): Therapeutic and protective properties of the corneal collagen shield. J Cataract Refract Surg, 14, 496–499.
  • Marsich MM, Bullimore MA (2000): The repeatability of corneal thickness measures. Cornea, 19, 792–795.
  • Martin CL, Pickett JP (2019): Ophthalmic Disease In Veterinary Medicine. CRC Press/Taylor & Francis Group, New York.
  • Meek KM, Knupp C (2015): Corneal structure and transparency. Prog Retin Eye Res, 49, 1–16.
  • Mimura T, Yamagami S, Yokoo S, et al (2005): Sphere therapy for corneal endothelium deficiency in a rabbit model. Invest Opthalmol Vis Sci, 46, 3128.
  • Nagata M, Nakamura T, Hata Y, et al (2015): JBP485 promotes corneal epithelial wound healing. Sci Rep, 5, 14776.
  • Nakamura Y, Nakamura T, Tarui T, et al (2012): Functional role of PPARδ in corneal epithelial wound healing. Am J Pathol, 180, 583–598.
  • Oltulu R, Şatirtav G, Donbaloğlu M, et al (2014): Intraoperative corneal thickness monitoring during corneal collagen cross-linking with ısotonic riboflavin solution with and without dextran. Cornea, 33, 1164–1167.
  • Perran G (1989): Karnivorlarda (köpek ve kedi) ulkus kornea olgularının sagaltımında subkonjunktival alfakimotripsin enzimi uygulamaları. Ankara Univ Vet Fak Derg, 36, 704-721.
  • Poland DE, Kaufman HE (1988): Clinical uses of collagen shields. J Cataract Refract Surg, 14, 489–491.
  • Robin JB, Keys CL, Kaminski LA, et al (1990): The effect of collagen shields on rabbit corneal reepithelialization after chemical debridement. Invest Ophthalmol Vis Sci, 31, 1294-1300.
  • Schulz D, Iliev ME, Frueh BE, et al (2003): In vivo pachymetry in normal eyes of rats, mice and rabbits with the optical low coherence reflectometer. Vision Res, 43, 723–728.
  • Shaker GJ, Ueda S, LoCascio JA, et al (1989): Effect of a collagen shield on cat corneal epithelial wound healing. Invest Ophthalmol Vis Sci, 30, 1565–68.
  • Sharma S (2011): Antibiotic resistance in ocular bacterial pathogens. Indian J Med Microbiol, 29, 218–222.
  • Simsek NA, Ay GM, Tugal-Tutkun I, et al (1996): An experimental study on the effect of collagen shields and therapeutic contact lenses on corneal wound healing. Cornea, 15, 612–616.
  • Stoop JWFM (1970): Treatment of pressure sores in paraplegic patients with animal collagen. Spinal Cord, 8, 177–182.
  • Willoughby CE, Batterbury M, Kaye SB (2002): Collagen corneal shields. Surv Ophthalmol, 47, 174–182.

Investigation of the effectiveness of dehydrated corneal collagen barriers on corneal defects: An experimental rabbit model

Year 2021, Volume: 68 Issue: 2, 147 - 154, 31.03.2021
https://doi.org/10.33988/auvfd.724013

Abstract

The aim of this study was to evaluate the effect of collagen shield on epithelial wound healing in rabbit eyes. Adult New Zealand Albino rabbits were used in the study. All surgical procedures were carried out under general anesthesia. Superficial keratectomies of 6 mm in diameter were created in 40 eyes of 20 rabbits and they were separated into 3 groups as the control (CN), medical treatment (CA) and collagen barrier (CB) groups. In the CN group, 6 rabbits received 0.9% NaCl drops. In the CA group, 7 rabbits received ciprofloxacin and acetylcysteine. In the CB group, a collagen shield was placed on corneal defect for 72 hours in 7 rabbits. Central corneal thickness was measured using an ultrasound pachymeter. Corneal thickness was determined before and at 72 and 96 hours after surgery. There was a significant increase (CA group: P<0.01, CB group: P<0.001) in corneal thickness at 72 hours. The wound size was evaluated immediately after the surgery, then at 72 and 96 hours. There was a significantly greater healing response in the collagen shield group (P<0.001) compared to the other groups. The earlier wound closure in the CB group may be due to protection and lubrication of the epithelial cells in the margins of the fresh wound. These findings suggest that the collagen shield may be useful when treating corneal surface conditions in which de-epithelialization is a component.

References

  • Atiba A, Wasfy T, Abdo W, et al (2015): Aloe vera gel facilitates re-epithelialization of corneal alkali burn in normal and diabetic rats. Clin Ophthalmol, 9, 2019–2026.
  • Carlson EC, Wang IJ, Liu CY, et al (2003): Altered KSPG expression by keratocytes following corneal injury. Mo Vis, 9, 615–623.
  • Catalanotti P, Lanza M, Del Prete A, et al (2005): Slime-producing Staphylococcus epidermidis and S. aureus in acute bacterial conjunctivitis in soft contact lens wearers. New Microbiol, 28, 345–354.
  • Cintron C, Kublin CL, Covington H (1981): Quantitative studies of corneal epithelial wound healing in rabbits. Curr Eye Res, 1, 507-516.
  • Eshar D, Wyre NR, Schoster J V (2011): Use of collagen shields for treatment of chronic bilateral corneal ulcers in a pet rabbit. J Small Ani Pract, 52, 380–383.
  • Fan T, Zhao J, Hu X, et al (2011): Therapeutic efficiency of tissue-engineered human corneal endothelium transplants on rabbit primary corneal endotheliopathy. J Zhejiang Univ Sci B, 12, 492–498.
  • Frantz JM, Dupuy BM, Kaufman HE, et al (1989): The effect of collagen shields on epithelial wound healing in rabbits. Am J Ophthalmol, 108, 524–528.
  • Fu Y, Fan X, Chen P, et al (2010): Reconstruction of a tissue-engineered cornea with porcine corneal acellular matrix as the scaffold. Cells Tissues Organs, 191, 193–202.
  • Gasset AR, Kaufman HE (1970): Therapeutic uses of hydrophilic contact lenses. Am J Ophthalmol, 69, 252–259.
  • Gelatt KN, Gilger BC, Kern TJ (2013): Veterinary Ophthalmology. John Wiley&Sons, Inc., Iowa.
  • Günay C, Sağlıyan A, Yaman M (2005): Köpeklerde deneysel olarak oluşturulan korneal defektlerin sağaltımında asetilsisteinin etkisi. Fırat Üni Sağ Bil Vet Derg, 19, 151–156.
  • Honda N (2009): Descemet tripping automated endothelial keratoplasty using cultured corneal endothelial cells in a rabbit model. Arch Ophthalmol, 127, 1321.
  • Kanao S, Kouzuki S, Tsuruno M, et al (1993): Clinical application of 3% N-acetylcysteine collyrium on canine corneal diseases. J Japan Vet Med Assoc, 46, 487–491.
  • Klyce FD Beuerman RW (1988): Structure and function of the cornea. 3-54. In: HE Kaufman, BA Barron, MB McDonald (Eds), The Cornea. Churchill Livingstone, New York.
  • Kuwabara T, Perkins DG, Cogan DG (1976): Sliding of the epithelium in experimental corneal wounds. Invest Ophthalmol, 15, 4–14.
  • La Croix NC, Van Der Woerdt A, Olivero DK (2001): Nonhealing corneal ulcers in cats: 29 cases (1991-1999). J Am Vet Med Assoc, 218, 733–735.
  • Lesar TS, Fiscella RG (1985): Antimicrobial drug delivery to the eye. Drug Intell Clin Pharm, 19, 642–654.
  • Marmer RH (1988): Therapeutic and protective properties of the corneal collagen shield. J Cataract Refract Surg, 14, 496–499.
  • Marsich MM, Bullimore MA (2000): The repeatability of corneal thickness measures. Cornea, 19, 792–795.
  • Martin CL, Pickett JP (2019): Ophthalmic Disease In Veterinary Medicine. CRC Press/Taylor & Francis Group, New York.
  • Meek KM, Knupp C (2015): Corneal structure and transparency. Prog Retin Eye Res, 49, 1–16.
  • Mimura T, Yamagami S, Yokoo S, et al (2005): Sphere therapy for corneal endothelium deficiency in a rabbit model. Invest Opthalmol Vis Sci, 46, 3128.
  • Nagata M, Nakamura T, Hata Y, et al (2015): JBP485 promotes corneal epithelial wound healing. Sci Rep, 5, 14776.
  • Nakamura Y, Nakamura T, Tarui T, et al (2012): Functional role of PPARδ in corneal epithelial wound healing. Am J Pathol, 180, 583–598.
  • Oltulu R, Şatirtav G, Donbaloğlu M, et al (2014): Intraoperative corneal thickness monitoring during corneal collagen cross-linking with ısotonic riboflavin solution with and without dextran. Cornea, 33, 1164–1167.
  • Perran G (1989): Karnivorlarda (köpek ve kedi) ulkus kornea olgularının sagaltımında subkonjunktival alfakimotripsin enzimi uygulamaları. Ankara Univ Vet Fak Derg, 36, 704-721.
  • Poland DE, Kaufman HE (1988): Clinical uses of collagen shields. J Cataract Refract Surg, 14, 489–491.
  • Robin JB, Keys CL, Kaminski LA, et al (1990): The effect of collagen shields on rabbit corneal reepithelialization after chemical debridement. Invest Ophthalmol Vis Sci, 31, 1294-1300.
  • Schulz D, Iliev ME, Frueh BE, et al (2003): In vivo pachymetry in normal eyes of rats, mice and rabbits with the optical low coherence reflectometer. Vision Res, 43, 723–728.
  • Shaker GJ, Ueda S, LoCascio JA, et al (1989): Effect of a collagen shield on cat corneal epithelial wound healing. Invest Ophthalmol Vis Sci, 30, 1565–68.
  • Sharma S (2011): Antibiotic resistance in ocular bacterial pathogens. Indian J Med Microbiol, 29, 218–222.
  • Simsek NA, Ay GM, Tugal-Tutkun I, et al (1996): An experimental study on the effect of collagen shields and therapeutic contact lenses on corneal wound healing. Cornea, 15, 612–616.
  • Stoop JWFM (1970): Treatment of pressure sores in paraplegic patients with animal collagen. Spinal Cord, 8, 177–182.
  • Willoughby CE, Batterbury M, Kaye SB (2002): Collagen corneal shields. Surv Ophthalmol, 47, 174–182.
There are 34 citations in total.

Details

Primary Language English
Subjects Veterinary Surgery
Journal Section Research Article
Authors

Büşra Kibar Kurt 0000-0002-1490-8832

Ali Belge 0000-0003-3346-6926

Publication Date March 31, 2021
Published in Issue Year 2021Volume: 68 Issue: 2

Cite

APA Kibar Kurt, B., & Belge, A. (2021). Investigation of the effectiveness of dehydrated corneal collagen barriers on corneal defects: An experimental rabbit model. Ankara Üniversitesi Veteriner Fakültesi Dergisi, 68(2), 147-154. https://doi.org/10.33988/auvfd.724013
AMA Kibar Kurt B, Belge A. Investigation of the effectiveness of dehydrated corneal collagen barriers on corneal defects: An experimental rabbit model. Ankara Univ Vet Fak Derg. March 2021;68(2):147-154. doi:10.33988/auvfd.724013
Chicago Kibar Kurt, Büşra, and Ali Belge. “Investigation of the Effectiveness of Dehydrated Corneal Collagen Barriers on Corneal Defects: An Experimental Rabbit Model”. Ankara Üniversitesi Veteriner Fakültesi Dergisi 68, no. 2 (March 2021): 147-54. https://doi.org/10.33988/auvfd.724013.
EndNote Kibar Kurt B, Belge A (March 1, 2021) Investigation of the effectiveness of dehydrated corneal collagen barriers on corneal defects: An experimental rabbit model. Ankara Üniversitesi Veteriner Fakültesi Dergisi 68 2 147–154.
IEEE B. Kibar Kurt and A. Belge, “Investigation of the effectiveness of dehydrated corneal collagen barriers on corneal defects: An experimental rabbit model”, Ankara Univ Vet Fak Derg, vol. 68, no. 2, pp. 147–154, 2021, doi: 10.33988/auvfd.724013.
ISNAD Kibar Kurt, Büşra - Belge, Ali. “Investigation of the Effectiveness of Dehydrated Corneal Collagen Barriers on Corneal Defects: An Experimental Rabbit Model”. Ankara Üniversitesi Veteriner Fakültesi Dergisi 68/2 (March 2021), 147-154. https://doi.org/10.33988/auvfd.724013.
JAMA Kibar Kurt B, Belge A. Investigation of the effectiveness of dehydrated corneal collagen barriers on corneal defects: An experimental rabbit model. Ankara Univ Vet Fak Derg. 2021;68:147–154.
MLA Kibar Kurt, Büşra and Ali Belge. “Investigation of the Effectiveness of Dehydrated Corneal Collagen Barriers on Corneal Defects: An Experimental Rabbit Model”. Ankara Üniversitesi Veteriner Fakültesi Dergisi, vol. 68, no. 2, 2021, pp. 147-54, doi:10.33988/auvfd.724013.
Vancouver Kibar Kurt B, Belge A. Investigation of the effectiveness of dehydrated corneal collagen barriers on corneal defects: An experimental rabbit model. Ankara Univ Vet Fak Derg. 2021;68(2):147-54.