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R Diller

Showing results (31-40 of 255) with videos related to

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Microvascular Research|November 1, 1982
A programmable, microprocessor-controlled temperature stage for burn and freezing studies in the microcirculationC D Evans, K R Diller
Journal of Biomechanical Engineering|July 31, 2009
Modeling heat shock protein expression produced by a heat wrapAlfred S Song, Kenneth R Diller
Cryobiology|November 1, 1970
A cryomicroscope for the study of freezing and thawing processes in biological cellsK R Diller, E G Cravalho
Nature Medicine|August 8, 2022
Predicting chronic morbidity in childhood cancer survivorsLynda M Vrooman, Lisa R Diller
Journal of Biomechanical Engineering|August 1, 1983
A finite element model of burn injury in blood-perfused skinK R Diller, L J Hayes
ISA Transactions|January 1, 1983
A finite element model for phase change heat transfer in a composite tissue with blood perfusionL J Hayes, K R Diller
Journal of Biomechanical Engineering|November 1, 1983
Analysis of the water permeability of human granulocytes at subzero temperatures in the presence of extracellular iceG J Schwartz, K R Diller
Metabolism: Clinical and Experimental|March 1, 1970
Diurnal variation of liver glycogen and plasma free fatty acids in rats fed ad libitum or single daily mealR W Fuller, E R Diller
Cryobiology|December 1, 1984
Intracellular freezing of human granulocytesG J Schwartz, K R Diller
Cryobiology|October 1, 1983
Osmotic response of individual cells during freezing. II. Membrane permeability analysisG J Schwartz, K R Diller
Pageof 26

Showing results (31-40 of 255) with videos related to

Sort By:
Pageof 26
Microvascular Research|November 1, 1982
A programmable, microprocessor-controlled temperature stage for burn and freezing studies in the microcirculationC D Evans, K R Diller
Journal of Biomechanical Engineering|July 31, 2009
Modeling heat shock protein expression produced by a heat wrapAlfred S Song, Kenneth R Diller
Cryobiology|November 1, 1970
A cryomicroscope for the study of freezing and thawing processes in biological cellsK R Diller, E G Cravalho
Nature Medicine|August 8, 2022
Predicting chronic morbidity in childhood cancer survivorsLynda M Vrooman, Lisa R Diller
Journal of Biomechanical Engineering|August 1, 1983
A finite element model of burn injury in blood-perfused skinK R Diller, L J Hayes
ISA Transactions|January 1, 1983
A finite element model for phase change heat transfer in a composite tissue with blood perfusionL J Hayes, K R Diller
Journal of Biomechanical Engineering|November 1, 1983
Analysis of the water permeability of human granulocytes at subzero temperatures in the presence of extracellular iceG J Schwartz, K R Diller
Metabolism: Clinical and Experimental|March 1, 1970
Diurnal variation of liver glycogen and plasma free fatty acids in rats fed ad libitum or single daily mealR W Fuller, E R Diller
Cryobiology|December 1, 1984
Intracellular freezing of human granulocytesG J Schwartz, K R Diller
Cryobiology|October 1, 1983
Osmotic response of individual cells during freezing. II. Membrane permeability analysisG J Schwartz, K R Diller
Pageof 26