Diffusion and Monod kinetics model to determine in vivo human corneal oxygen-consumption rate during soft contact lens wear

Diffusion and Monod kinetics model to determine in vivo human corneal oxygen-consumption rate during soft contact lens wear

Purpose: We present an analysis of the corneal oxygen consumption Qc from non-linear models, using data of oxygen partial pressure or tension (pO2) obtained from in vivo estimation previously reported by other authors.1 Methods: Assuming that the cornea is a single homogeneous layer, the oxygen perm...

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Main Authors: Luis F. Del Castillo, Ana R. Ferreira da Silva, Saul I. Hernández, M. Aguilella, Andreu Andrio, Sergio Mollá, Vicente Compañ
Format: Article
Language:English
Published: Elsevier 2015-01-01
Series:Journal of Optometry
Subjects:
Corneal oxygen consumption
Corneal oxygen permeability
Monod kinetics model
Corneal oxygen pressure
Online Access:http://www.sciencedirect.com/science/article/pii/S1888429614000545
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spelling doaj-45f47291c6ae4c8ca2368ebcf43fb0d72020-11-25T01:57:57ZengElsevierJournal of Optometry1888-42962015-01-0181121810.1016/j.optom.2014.06.002Diffusion and Monod kinetics model to determine in vivo human corneal oxygen-consumption rate during soft contact lens wearLuis F. Del Castillo0Ana R. Ferreira da Silva1Saul I. Hernández2M. Aguilella3Andreu Andrio4Sergio Mollá5Vicente Compañ6Departamento de Polímeros, Instituto de Investigaciones en Materiales, Universidad Nacional Autónoma de México (UNAM), Ciudad Universitaria, Apartado Postal 70-360, Coyoacán, México, DF 04510, MexicoClinical & Experimental Optometry Research Lab, Center of Physics (Optometry), School of Sciences, University of Minho, Braga, PortugalDepartamento de Física, Universidad Autónoma Metropolitana-Iztapalapa, Apdo. Postal 55-534, 09340 México, DF, MexicoDepartamento de Física Aplicada, Universitat Jaume I, 12080 Castellón, SpainDepartamento de Física Aplicada, Universitat Jaume I, 12080 Castellón, SpainDepartamento de Termodinámica Aplicada, Escuela Técnica Superior de Ingenieros Industriales (ETSII), Universidad Politécnica de Valencia, Campus de Vera s/n, 46020 Valencia, SpainDepartamento de Termodinámica Aplicada, Escuela Técnica Superior de Ingenieros Industriales (ETSII), Universidad Politécnica de Valencia, Campus de Vera s/n, 46020 Valencia, SpainPurpose: We present an analysis of the corneal oxygen consumption Qc from non-linear models, using data of oxygen partial pressure or tension (pO2) obtained from in vivo estimation previously reported by other authors.1 Methods: Assuming that the cornea is a single homogeneous layer, the oxygen permeability through the cornea will be the same regardless of the type of lens that is available on it. The obtention of the real value of the maximum oxygen consumption rate Qc,max is very important because this parameter is directly related with the gradient pressure profile into the cornea and moreover, the real corneal oxygen consumption is influenced by both anterior and posterior oxygen fluxes. Results: Our calculations give different values for the maximum oxygen consumption rate Qc,max, when different oxygen pressure values (high and low pO2) are considered at the interface cornea-tears film. Conclusion: Present results are relevant for the calculation on the partial pressure of oxygen, available at different depths into the corneal tissue behind contact lenses of different oxygen transmissibility.http://www.sciencedirect.com/science/article/pii/S1888429614000545Corneal oxygen consumptionCorneal oxygen permeabilityMonod kinetics modelCorneal oxygen pressure
collection DOAJ
language English
format Article
sources DOAJ
author Luis F. Del Castillo
Ana R. Ferreira da Silva
Saul I. Hernández
M. Aguilella
Andreu Andrio
Sergio Mollá
Vicente Compañ
spellingShingle Luis F. Del Castillo
Ana R. Ferreira da Silva
Saul I. Hernández
M. Aguilella
Andreu Andrio
Sergio Mollá
Vicente Compañ
Diffusion and Monod kinetics model to determine in vivo human corneal oxygen-consumption rate during soft contact lens wear
Journal of Optometry
Corneal oxygen consumption
Corneal oxygen permeability
Monod kinetics model
Corneal oxygen pressure
author_facet Luis F. Del Castillo
Ana R. Ferreira da Silva
Saul I. Hernández
M. Aguilella
Andreu Andrio
Sergio Mollá
Vicente Compañ
author_sort Luis F. Del Castillo
title Diffusion and Monod kinetics model to determine in vivo human corneal oxygen-consumption rate during soft contact lens wear
title_short Diffusion and Monod kinetics model to determine in vivo human corneal oxygen-consumption rate during soft contact lens wear
title_full Diffusion and Monod kinetics model to determine in vivo human corneal oxygen-consumption rate during soft contact lens wear
title_fullStr Diffusion and Monod kinetics model to determine in vivo human corneal oxygen-consumption rate during soft contact lens wear
title_full_unstemmed Diffusion and Monod kinetics model to determine in vivo human corneal oxygen-consumption rate during soft contact lens wear
title_sort diffusion and monod kinetics model to determine in vivo human corneal oxygen-consumption rate during soft contact lens wear
publisher Elsevier
series Journal of Optometry
issn 1888-4296
publishDate 2015-01-01
description Purpose: We present an analysis of the corneal oxygen consumption Qc from non-linear models, using data of oxygen partial pressure or tension (pO2) obtained from in vivo estimation previously reported by other authors.1 Methods: Assuming that the cornea is a single homogeneous layer, the oxygen permeability through the cornea will be the same regardless of the type of lens that is available on it. The obtention of the real value of the maximum oxygen consumption rate Qc,max is very important because this parameter is directly related with the gradient pressure profile into the cornea and moreover, the real corneal oxygen consumption is influenced by both anterior and posterior oxygen fluxes. Results: Our calculations give different values for the maximum oxygen consumption rate Qc,max, when different oxygen pressure values (high and low pO2) are considered at the interface cornea-tears film. Conclusion: Present results are relevant for the calculation on the partial pressure of oxygen, available at different depths into the corneal tissue behind contact lenses of different oxygen transmissibility.
topic Corneal oxygen consumption
Corneal oxygen permeability
Monod kinetics model
Corneal oxygen pressure
url http://www.sciencedirect.com/science/article/pii/S1888429614000545
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