- -

Radiofrequency heating of the cornea: an engineering review of electrodes and applicators

RiuNet: Repositorio Institucional de la Universidad Politécnica de Valencia

Compartir/Enviar a

Citas

Estadísticas

  • Estadisticas de Uso

Radiofrequency heating of the cornea: an engineering review of electrodes and applicators

Mostrar el registro completo del ítem

Berjano, E.; Navarro, E.; Ribera, V.; Gorris, J.; Alió, JL. (2007). Radiofrequency heating of the cornea: an engineering review of electrodes and applicators. The Open Biomedical Engineering Journal. 1:71-76. https://doi.org/10.2174/1874120700701010071

Por favor, use este identificador para citar o enlazar este ítem: http://hdl.handle.net/10251/147783

Ficheros en el ítem

Metadatos del ítem

Título: Radiofrequency heating of the cornea: an engineering review of electrodes and applicators
Autor: Berjano, Enrique Navarro, Enrique Ribera, Vicente Gorris, Javier Alió, Jorge L.
Entidad UPV: Universitat Politècnica de València. Departamento de Ingeniería Electrónica - Departament d'Enginyeria Electrònica
Fecha difusión:
Resumen:
[EN] This paper reviews the different applicators and electrodes employed to create localized heating in the cornea by means of the application of radiofrequency (RF) currents. Thermokeratoplasty (TKP) is probably the ...[+]
Derechos de uso: Reconocimiento (by)
Fuente:
The Open Biomedical Engineering Journal. (eissn: 1874-1207 )
DOI: 10.2174/1874120700701010071
Editorial:
Bentham Science
Versión del editor: https://doi.org/10.2174/1874120700701010071
Código del Proyecto:
info:eu-repo/grantAgreement/GVA//IMIDTA%2F2007%2F586/
info:eu-repo/grantAgreement/MEC//TEC2005-04199/ES/MODELOS TEORICOS Y COMPUTACION AVANZADA EN EL ESTUDIO DE SEÑALES BIOELECTRICAS EN CELULAS Y TEJIDOS. IMPLICACIONES EN EL ANALISIS DE ARRITMIAS CARDIACAS, ELECTROESTIMULACION Y ABLACION POR RADIOFR.../
Agradecimientos:
This work was partially supported by the Programa de Investigación y Desarrollo Tecnológico 2007 (Ref: IMIDTA/2007/586) of the Institut de la Petita i Mitjana Indústria de la Comunitat Valenciana (IMPIVA-Generalitat ...[+]
Tipo: Artículo

References

Mendez-Gutierrez A. “Review of thermokeratoplasty developments,” In: Pinelli JR, Pascucci SE, Eds. Conductive keratoplasty A primer. Thorofare: SLACK 2005; pp. 3-8.

Ismail MM, Pérez-Santonja JJ, Alió JL JL. “Correction of the hyperopia and hyperopic astigmatism by laser thermokeratoplasty,” In: Serdarevic ON, Ed. Refractive Surgery: Current Techniques and Management. New York: Igaku-Shoin 1997; pp. 263-74.

Shaw EL, Gasset AR. “Thermokeratoplasty (TKP) temperature profile,” Invest Ophthalmol 1974; 13 : 181-6. [+]
Mendez-Gutierrez A. “Review of thermokeratoplasty developments,” In: Pinelli JR, Pascucci SE, Eds. Conductive keratoplasty A primer. Thorofare: SLACK 2005; pp. 3-8.

Ismail MM, Pérez-Santonja JJ, Alió JL JL. “Correction of the hyperopia and hyperopic astigmatism by laser thermokeratoplasty,” In: Serdarevic ON, Ed. Refractive Surgery: Current Techniques and Management. New York: Igaku-Shoin 1997; pp. 263-74.

Shaw EL, Gasset AR. “Thermokeratoplasty (TKP) temperature profile,” Invest Ophthalmol 1974; 13 : 181-6.

Gasset AR, Kaufman HE. “Thermokeratoplasty in the treatment of keratoconus,” A J Ophthalmol 1975; 79 : 226-32.

Trembly BS, Hashizume N, Moodie KL, Cohen KL, Tripoli NK, Hoopes PJ. “Microwave thermal keratoplasty for myopia: keratoscopic evaluation in porcine eyes,” J Refract Surg 2001 Nov-Dec; 17 (6) : 682-8.

Trembly BS, Keates RH. “Combined microwave heating and surface cooling of the cornea,” IEEE Trans Biomed Eng 1991 Jan; 38 : 85-91.

Trembly BS, Crump RA. “Combined microwave heating and surface cooling of the cornea,” US Patent 4 881 453, Nov 21,1989

Rutzen CA, Roberts RW, Driller J, et al. “Production of corneal lesions using high-intensity focused ultrasound,” Cornea 1990 Oct; 9 : 324-30.

Mark DB, Beuerman R. “Intracorneal lesions produced with focused ultrasound,” Curr Eye Res 1982-1983; 2 : 323-6.

Klopotek PJ. “Meted and apparatus for generating localized hyperthermia,” US Patent 5 230 334, Jul 27, 1993

Doss JD, Rowsey JJ. “A technique for the selective heating of corneal stroma,” Contact Intraocul Lens Med J 1980 Jan-Mar; 6 : 13-7.

Doss JD, Hutson RL. “Corneal-chaping electrode,” US Patent 4 326 529, Apr 27 1982.

Rowsey JJ JJ, Gaylor JR, Dahlstrom R, Doss JD. “Los Alamos keratoplasty techniques,” Contact Intraocul Lens Med J 1980 Jan-Mar; 6 : 1-12.

Rowsey JJ, Doss JD. “Preliminary report of Los Alamos Keratoplasty Techniques,” Ophthalmol 1981 Aug; 88 : 755-60.

McDonnell PJ, Garbus J, Romero JL, Rao NA, Schanzlin DJ. “Electrosurgical keratoplasty. Clinicopathologic correlation,” Arch Ophthalmol 1988 Feb; 106 : 235-8.

Rowsey JJ. “Electrosurgical keratoplasty: update and retraction,” Invest Ophthalmol Vis Sci 1987; 28 : 224.

Doss JD. “Multipolar corneal-shaping electrode with flexible removable skirt,” US Patent 4 381 007, Apr 26 1983.

Trembly BS. “Thermokeratoplasty systems,” US Patent 7 192 429, Mar 20 2007.

Doss JD. “Electrothermal treatment of cancer eye,” Los Alamos Scientific Laboratory Mini-review 1977 Aug; 77-14.

Neumann SM, Kainer RA, Severin GA. “Reaction of normal equine eyes to radio-frequency current-induced hyperthermia,” A J Vet Res 1982; 43 : 1938-44.

Glaze MB, Turk MA. “Effects of radiofrequency hyperthermia on the healthy canine cornea,” A J Vet Res 1986; 47 : 913-8.

Fugo RJ. “Method of ocular refractive surgery,” US Patent 5 423 815, Jun 13 1995.

Mendez A, Mendez Noble A. “Conductive keratoplasty for the correction of hyperopia,” In: Sher NA, Ed. Surgery for hyperopia and presbyopia. Baltimore: Williams & Wilkins 1997; pp. 163-71.

Hood L, Mendez AG. “Method and apparatus for modifications of visual acuity by thermal means,” US Patent 5 533 999, Jul 9 1996.

Berjano EJ, Saiz J, Ferrero JM. “Radio-frequency heating of the cornea theoretical model and in vitro experiments” IEEE Trans Biomed Eng 2002 Mar; 49 : 196-205.

Mulet ME, Alió JL, Salem TF, Berjano EJ. “Corneal thermal lesions with radiofrequency currents for thermokeratoplasty,” Invest Ophthalmol Vis Sci 2000; 41 : S919.

Berjano EJ, Saiz J, Alio JL, Ferrero JM. “Ring electrode for radio-frequency heating of the cornea: modelling and in vitro experiments,” Med Biol Eng Comput 2003 Nov; 41 : 630-9.

Goth PR, Panescu D, Khalaj S. “Thermokeratoplasty system with a guided probe tip,” US Patent 2005/0245949 A1, Nov 3 2005.

Valle M, Khalaj S, Hood L, Panescu D. “Method and apparatus to automatically insert a probe into a cornea,” US Patent 2006/0184166 A1, Aug 17 2006.

Hood L. “Thermokeratoplasty system with a power supply that can determine a wet or dry cornea,” US Patent 6,673,069 B1, Jan 6 2004.

Paulino LV, Paulino E, Barros RA, Salles AG, Rehder JR. “Corneal topographic alteration after radiofrequency application to an animal model,” Arq Bras Oftalmol 2005 Jul-Aug; 68 : 415-56.

Lyra JM, Trindade FC, Lyra D, Bezerra A. “Outcomes of radiofrequency in advanced keratoconus,” J Cataract Refract Surg 2007 Jul; 33 : 1288-95.

Choi B, Kim J, Welch AJ, Pearce JA. “Dynamic impedance measurements during radio-frequency heating of cornea,” IEEE Trans Biomed Eng 2002 Dec; 49 : 1610-6.

Pearce JA, Ikei C. “Increasing corneal curvature by RF current: numerical model studies of governing physical processes,” Proc SPIE 2007; 6640.

Pearce J, Panescu D, Thomsen S. “Simulation of diopter changes in radio frequency conductive keratoplasty in the cornea,” WIT Trans Biomed Health 2005; 8 : 469-77.

Pearce JA, Panescu D. “Radio frequency conductive keratoplasty in the cornea: prediction of diopter changes in numerical models,” In: Proc. 26th Annual Int. Conf. IEEE EMBS; 2004; pp. 5426-9.

Pearce JA. “Numerical model study of radio frequency conductive keratoplasty in the cornea for correction of hyperopia,” In: Proc Second Joint EMBS/BMES Conf; 2002; pp. 2149-50.

Berjano EJ, Alio JL, Saiz J. “Modeling for radio-frequency conductive keratoplasty: implications for the maximum temperature reached in the cornea,” Physiol Meas 2005 Jun; 26 : 157-72.

Woo EJ, Tungjitkusolmun S, Cao H, et al. “A new catheter design using needle electrode for subendocardial RF ablation of ventricular muscles: finite element analysis and in vitro experiments,” IEEE Trans Biomed Eng 2000 Jan; 47 : 23-31.

Berjano EJ, Saiz J, Ferrero JM, Alió J. “Effect of the termal conductivity of the intra-tissue active electrode during RF electrocoagulation,” In: Proc XVI Annual Congress Spanish Soc. Biomed. Eng; 1998; pp. 23-5.

Silvestrini TA. “Electrosurgical procedure for treatment of the cornea,” US Patent 5 766 171, Jun 16 1998.

Berjano EJ. “Theoretical modeling for radiofrequency ablation: state-of-the-art and challenges for the future,” Biomed Eng Online 2006; 18 (5) : 24.

Alio JL, Claramonte PJ, Caliz A, Ramzy MI. “Corneal modeling of keratoconus by conductive keratoplasty,” J Cataract Refract Surg 2005 Jan; 31 : 190-7.

McDonald MB, Hersh PS, Manche EE, Maloney RK, Davidorf J, Sabry M. “Conductive Keratoplasty United States Investigators Group. Conductive keratoplasty for the correction of low to moderate hyperopia: U.S. clinical trial 1-year results on 355 eyes,” Ophthalmol 2002 Nov; 109 : 1978-89.

Comaish IF, Lawless MA. Conductive keratoplasty to correct residual hyperopia after corneal surgery J Cataract Refract Surg 2003 Jan; 29 : 202-6.

Pallikaris IG, Naoumidi TL, Astyrakakis NI. “Conductive keratoplasty to correct hyperopic astigmatism,” J Refract Surg 2003 Jul-Aug; 19 : 425-32.

McDonald MB, Durrie D, Asbell P, Maloney R, Nichamin L. “Treatment of presbyopia with conductive keratoplasty: six-month results of the 1-year United States FDA clinical trial,” Cornea 2004 Oct; 23 : 661-8.

Strauss GH. “Mechanism of Conductive Keratoplasty,” In: Pinelli JR, Pascucci SE, Eds. Conductive keratoplasty A primer. Thorofare: SLACK 2005; pp. 11-9.

[-]

recommendations

 

Este ítem aparece en la(s) siguiente(s) colección(ones)

Mostrar el registro completo del ítem