Suprazero cooling conditions significantly influence subzero permeability parameters of mammalian ovarian tissue

To model the cryobiological responses of cells and tissues, permeability characteristics are often measured at suprazero temperatures and the measured values are used to predict the responses at subzero temperatures. The purpose of the present study was to determine whether the rate of cooling from...

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Published in:	Molecular reproduction and development Vol. 73; no. 3; pp. 330 - 341
Main Authors:	Devireddy, R.V., Li, G., Leibo, S.P.
Format:	Journal Article
Language:	English
Published:	Hoboken Wiley Subscription Services, Inc., A Wiley Company 01-03-2006 Wiley-Liss
Subjects:	Animals Biological and medical sciences Biological Transport - physiology Calorimetry - methods Cells, Cultured cryopreservation Cryopreservation - methods Culture Media - chemistry differential scanning calorimetry Dimethyl Sulfoxide - chemistry Female Fundamental and applied biological sciences. Psychology Glycerol - chemistry Horses Krogh model Mammalian female genital system membrane permeability Morphology. Physiology optimal rate of freezing storage Ovary - cytology Ovary - physiology Permeability Temperature Tissue Culture Techniques Vertebrates: reproduction Water - metabolism Differential scanning calorimetry Cooling Krogh model membrane permeability In vitro cryopreservation Water permeability Ovary Tissue Vertebrata optimal rate of freezing storage Mammalia Female genital system Horse Perissodactyla Cryoprotective agent Ungulata
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Abstract	To model the cryobiological responses of cells and tissues, permeability characteristics are often measured at suprazero temperatures and the measured values are used to predict the responses at subzero temperatures. The purpose of the present study was to determine whether the rate of cooling from +25 to +4°C influenced the measured water transport response of ovarian tissue at subzero temperatures in the presence or absence of cryoprotective agents (CPAs). Sections of freshly collected equine ovarian tissue were first cooled either at 40°C/min or at 0.5°C/min from 25 to 4°C, and then cooled to subzero temperatures. A shape‐independent differential scanning calorimeter (DSC) technique was used to measure the volumetric shrinkage during freezing of equine ovarian tissue sections. After ice was induced to form in the extracellular fluid within the specimen, the sample was frozen from the phase change temperature to −50°C at 5°C/min. Replicate samples were frozen in isotonic medium alone or in medium containing 0.85 M glycerol or 0.85 M dimethylsulfoxide. The water transport response of ovarian tissue samples cooled at 40°C/min from 25 to 4°C was significantly different (confidence level >95%) from that of tissue samples cooled at 0.5°C/min, whether in the presence or absence of CPAs. We fitted a model of water transport to the experimentally‐derived volumetric shrinkage data and determined the best‐fit membrane permeability parameters (Lpg and ELp) of equine ovarian tissue during freezing. Subzero water transport parameters of ovarian tissue samples cooled at 0.5°C/min from 25 to 4°C ranged from: Lpg = 0.06 to 0.73 µm/min·atm and ELp = 6.1 to 20.5 kcal/mol. The corresponding parameters of samples cooled at 40°C/min from 25 to 4°C ranged from: Lpg = 0.04 to 0.61 µm/min·atm and ELp = 8.2 to 54.2 kcal/mol. Calculations made of the theoretical response of tissue at subzero temperatures suggest that the optimal cooling rates to cryopreserve ovarian tissue are significantly dependent upon suprazero cooling conditions. Mol. Reprod. Dev. © 2005 Wiley‐Liss, Inc.
AbstractList	To model the cryobiological responses of cells and tissues, permeability characteristics are often measured at suprazero temperatures and the measured values are used to predict the responses at subzero temperatures. The purpose of the present study was to determine whether the rate of cooling from +25 to +4 degrees C influenced the measured water transport response of ovarian tissue at subzero temperatures in the presence or absence of cryoprotective agents (CPAs). Sections of freshly collected equine ovarian tissue were first cooled either at 40 degrees C/min or at 0.5 degrees C/min from 25 to 4 degrees C, and then cooled to subzero temperatures. A shape-independent differential scanning calorimeter (DSC) technique was used to measure the volumetric shrinkage during freezing of equine ovarian tissue sections. After ice was induced to form in the extracellular fluid within the specimen, the sample was frozen from the phase change temperature to -50 degrees C at 5 degrees C/min. Replicate samples were frozen in isotonic medium alone or in medium containing 0.85 M glycerol or 0.85 M dimethylsulfoxide. The water transport response of ovarian tissue samples cooled at 40 degrees C/min from 25 to 4 degrees C was significantly different (confidence level >95%) from that of tissue samples cooled at 0.5 degrees C/min, whether in the presence or absence of CPAs. We fitted a model of water transport to the experimentally-derived volumetric shrinkage data and determined the best-fit membrane permeability parameters (L(pg) and E(Lp)) of equine ovarian tissue during freezing. Subzero water transport parameters of ovarian tissue samples cooled at 0.5 degrees C/min from 25 to 4 degrees C ranged from: L(pg) = 0.06 to 0.73 microm/min.atm and E(Lp) = 6.1 to 20.5 kcal/mol. The corresponding parameters of samples cooled at 40 degrees C/min from 25 to 4 degrees C ranged from: L(pg) = 0.04 to 0.61 microm/min.atm and E(Lp) = 8.2 to 54.2 kcal/mol. Calculations made of the theoretical response of tissue at subzero temperatures suggest that the optimal cooling rates to cryopreserve ovarian tissue are significantly dependent upon suprazero cooling conditions. To model the cryobiological responses of cells and tissues, permeability characteristics are often measured at suprazero temperatures and the measured values are used to predict the responses at subzero temperatures. The purpose of the present study was to determine whether the rate of cooling from +25 to +4°C influenced the measured water transport response of ovarian tissue at subzero temperatures in the presence or absence of cryoprotective agents (CPAs). Sections of freshly collected equine ovarian tissue were first cooled either at 40°C/min or at 0.5°C/min from 25 to 4°C, and then cooled to subzero temperatures. A shape‐independent differential scanning calorimeter (DSC) technique was used to measure the volumetric shrinkage during freezing of equine ovarian tissue sections. After ice was induced to form in the extracellular fluid within the specimen, the sample was frozen from the phase change temperature to −50°C at 5°C/min. Replicate samples were frozen in isotonic medium alone or in medium containing 0.85 M glycerol or 0.85 M dimethylsulfoxide. The water transport response of ovarian tissue samples cooled at 40°C/min from 25 to 4°C was significantly different (confidence level >95%) from that of tissue samples cooled at 0.5°C/min, whether in the presence or absence of CPAs. We fitted a model of water transport to the experimentally‐derived volumetric shrinkage data and determined the best‐fit membrane permeability parameters (Lpg and ELp) of equine ovarian tissue during freezing. Subzero water transport parameters of ovarian tissue samples cooled at 0.5°C/min from 25 to 4°C ranged from: Lpg = 0.06 to 0.73 µm/min·atm and ELp = 6.1 to 20.5 kcal/mol. The corresponding parameters of samples cooled at 40°C/min from 25 to 4°C ranged from: Lpg = 0.04 to 0.61 µm/min·atm and ELp = 8.2 to 54.2 kcal/mol. Calculations made of the theoretical response of tissue at subzero temperatures suggest that the optimal cooling rates to cryopreserve ovarian tissue are significantly dependent upon suprazero cooling conditions. Mol. Reprod. Dev. © 2005 Wiley‐Liss, Inc. To model the cryobiological responses of cells and tissues, permeability characteristics are often measured at suprazero temperatures and the measured values are used to predict the responses at subzero temperatures. The purpose of the present study was to determine whether the rate of cooling from +25 to +4 degrees C influenced the measured water transport response of ovarian tissue at subzero temperatures in the presence or absence of cryoprotective agents (CPAs). Sections of freshly collected equine ovarian tissue were first cooled either at 40 degrees C/min or at 0.5 degrees C/min from 25 to 4 degrees C, and then cooled to subzero temperatures. A shape-independent differential scanning calorimeter (DSC) technique was used to measure the volumetric shrinkage during freezing of equine ovarian tissue sections. After ice was induced to form in the extracellular fluid within the specimen, the sample was frozen from the phase change temperature to -50 degrees C at 5 degrees C/min. Replicate samples were frozen in isotonic medium alone or in medium containing 0.85 M glycerol or 0.85 M dimethylsulfoxide. The water transport response of ovarian tissue samples cooled at 40 degrees C/min from 25 to 4 degrees C was significantly different (confidence level >95%) from that of tissue samples cooled at 0.5 degrees C/min, whether in the presence or absence of CPAs. We fitted a model of water transport to the experimentally-derived volumetric shrinkage data and determined the best-fit membrane permeability parameters (L(pg) and E(Lp)) of equine ovarian tissue during freezing. Subzero water transport parameters of ovarian tissue samples cooled at 0.5 degrees C/min from 25 to 4 degrees C ranged from: L(pg) = 0.06 to 0.73 microm/min.atm and E(Lp) = 6.1 to 20.5 kcal/mol. The corresponding parameters of samples cooled at 40 degrees C/min from 25 to 4 degrees C ranged from: L(pg) = 0.04 to 0.61 microm/min.atm and E(Lp) = 8.2 to 54.2 kcal/mol. Calculations made of the theoretical response of tissue at subzero temperatures suggest that the optimal cooling rates to cryopreserve ovarian tissue are significantly dependent upon suprazero cooling conditions.
Author	Li, G. Devireddy, R.V. Leibo, S.P.
Author_xml	– sequence: 1 givenname: R.V. surname: Devireddy fullname: Devireddy, R.V. email: devireddy@me.lsu.edu organization: Bioengineering Laboratory, Department of Mechanical Engineering, Louisiana State University, Baton Rouge, Louisiana – sequence: 2 givenname: G. surname: Li fullname: Li, G. organization: Bioengineering Laboratory, Department of Mechanical Engineering, Louisiana State University, Baton Rouge, Louisiana – sequence: 3 givenname: S.P. surname: Leibo fullname: Leibo, S.P. organization: Department of Biological Sciences, University of New Orleans, New Orleans, Louisiana
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Keywords	Differential scanning calorimetry Cooling Krogh model membrane permeability In vitro cryopreservation Water permeability Ovary Tissue Vertebrata optimal rate of freezing storage Mammalia Female genital system Horse Perissodactyla Cryoprotective agent Ungulata
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Snippet	To model the cryobiological responses of cells and tissues, permeability characteristics are often measured at suprazero temperatures and the measured values...
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SubjectTerms	Animals Biological and medical sciences Biological Transport - physiology Calorimetry - methods Cells, Cultured cryopreservation Cryopreservation - methods Culture Media - chemistry differential scanning calorimetry Dimethyl Sulfoxide - chemistry Female Fundamental and applied biological sciences. Psychology Glycerol - chemistry Horses Krogh model Mammalian female genital system membrane permeability Morphology. Physiology optimal rate of freezing storage Ovary - cytology Ovary - physiology Permeability Temperature Tissue Culture Techniques Vertebrates: reproduction Water - metabolism
Title	Suprazero cooling conditions significantly influence subzero permeability parameters of mammalian ovarian tissue
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