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Original Article

Clinical Physiology: Microcalorimetric Measurements of Heat Production in Whole Blood and Blood Cells of Normal Persons

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Pages 121-127 | Received 06 May 1974, Accepted 13 Dec 1974, Published online: 28 Aug 2009

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C. Murigande, S. Regenass, D. Wirz, A. U. Daniels & A. Tyndall. (2009) A Comparison Between (3H)-thymidine Incorporation and Isothermal Microcalorimetry for the Assessment of Antigen-induced Lymphocyte Proliferation. Immunological Investigations 38:1, pages 67-75.
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L. Ljunggren, M. Monti, H. Thysell & A. Grubb. (1992) Microcalorimetric studies on uraemic plasma. Scandinavian Journal of Clinical and Laboratory Investigation 52:8, pages 813-817.
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J. Ikomi-kumm, M. Monti & I. Wadso. (1984) Heat production in human blood lymphocytes. A methodological study. Scandinavian Journal of Clinical and Laboratory Investigation 44:8, pages 745-752.
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Charles H. Spink & Ingemar Wadsö. (1980) Analytical Calorimetry in Biochemical and Clinical Applications. C R C Critical Reviews in Analytical Chemistry 9:1, pages 1-54.
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Charles J. Martin, Mario A. Marini & Harry D. Brown. (1979) Microcalorimetry in Biochemical Analysis. C R C Critical Reviews in Analytical Chemistry 8:3, pages 221-286.
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M. Monti & I. Wadsö. (1976) Microcalorimetric Measurements of Heat Production in Human Erythrocytes: III. Influence of pH, Temperature, Glucose Concentration, and Storage Conditions. Scandinavian Journal of Clinical and Laboratory Investigation 36:6, pages 565-572.
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M. Monti & I. Wadsö. (1976) Microcalorimetric Measurements of Heat Production in Human Erythrocytes Heat Effect during Methylene Blue Stimulation. Scandinavian Journal of Clinical and Laboratory Investigation 36:5, pages 431-436.
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I. Di Terlizzi, M. Gironella, D. Herraez-Aguilar, T. Betz, F. Monroy, M. Baiesi & F. Ritort. (2024) Variance sum rule for entropy production. Science 383:6686, pages 971-976.
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Olga Aleksejeva, Alexey V. Sokolov, Inmaculada Marquez, Anna Gustafsson, Sergey Bushnev, Håkan Eriksson, Lennart Ljunggren & Sergey Shleev. (2021) Autotolerant ceruloplasmin based biocathodes for implanted biological power sources. Bioelectrochemistry 140, pages 107794.
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D. Lőrinczy. (2017) Thermal analysis in biological and medical applications. Journal of Thermal Analysis and Calorimetry 130:3, pages 1263-1280.
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H. Turlier, D. A. Fedosov, B. Audoly, T. Auth, N. S. Gov, C. Sykes, J.-F. Joanny, G. Gompper & T. Betz. (2016) Equilibrium physics breakdown reveals the active nature of red blood cell flickering. Nature Physics 12:5, pages 513-519.
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Matthew W. Freyer & Edwin A. Lewis. 2008. Biophysical Tools for Biologists, Volume One: In Vitro Techniques. Biophysical Tools for Biologists, Volume One: In Vitro Techniques 79 113 .
W. Liu, F. Chaspoul, D. Berge Lefranc, L. Decome & P. Gallice. (2007) Microcalorimetry as a tool for Cr(VI) toxicity evaluation of human dermal fibroblasts. Journal of Thermal Analysis and Calorimetry 89:1, pages 21-24.
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Richard B Kemp & Ingolf Lamprecht. (2000) La vie est donc un feu pour la calorimétrie: half a century of calorimetry — Ingemar Wadsö at 70. Thermochimica Acta 348:1-2, pages 1-17.
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J.A Nogueira-Machado, M.L Mares-Guia, F.C Lima e Silva, T.V.B Magalhães & M.M Chaves. (1999) Calorimetry: a highly sensitive technique for evaluating the effect of IL-2, IFN-γ and IL-10 on the response of peripheral blood mononuclear cells. Thermochimica Acta 327:1-2, pages 57-62.
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M. Monti. 1999. From Macromolecules to Man. From Macromolecules to Man 657 710 .
R.B. Kemp & Y.H. Guan. 1999. From Macromolecules to Man. From Macromolecules to Man 557 656 .
Håkan Karlsson & Lennart Nässberger. (1996) A calorimetric method for continuous recording of lymphocyte proliferation. Journal of Immunological Methods 189:2, pages 197-202.
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P. Swartbol, H. Pärsson, L. Nässberger & L. Norgren. (2018) Metabolic Response of Blood Cells to Synthetic Graft-Materials with Special Reference to a Fluoromer Passivated Dacron ® Graft. An in Vitro Study Using Microcalorimetry . The International Journal of Artificial Organs 18:7, pages 372-379.
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Håkan Pärsson, Lennart Nässberger, Johan Thörne & Lars Norgren. (2004) Metabolic response of granulocytes and platelets to synthetic vascular grafts: Preliminary results with an in vitro technique . Journal of Biomedical Materials Research 29:4, pages 519-525.
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D. Gebreselassie, L. Ljunggren & M. Monti. (1995) Energetic study of human lymphocytes and the metabolic response to antigenic stimulation. Thermochimica Acta 251, pages 177-182.
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D. Singer, D. Stege, Ch.P. Speer & W. Schröter. (1995) Microcalorimetric determination of blood heat output in human neonates. Thermochimica Acta 251, pages 219-226.
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M.M. Chaves, F.C.Lima e Silva, M. Mares-Guia & J.A. Nogueira-Machado. (1994) Human schistosomiasis: evaluation of the reactivity of peripheral blood mononuclear cells by calorimetry. Thermochimica Acta 241, pages 87-94.
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D. Singer, O. Schunck, F. Bach & H.-J. Kuhn. (1993) Body size allometry of mammalian blood heat output as assessed by microcalorimetry. Thermochimica Acta 229, pages 133-145.
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R.B. Kemp. (1993) Developments in cellular microcalorimetry with particular emphasis on the valuable role of the energy (enthalpy) balance method. Thermochimica Acta 219, pages 17-41.
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Per Bäckman. (1992) A microcalorimetric study of human erythrocytes in stirred buffer suspensions. Thermochimica Acta 205, pages 87-97.
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J. Ikomi-Kumm, L. Ljunggren & M. Monti. (1992) Thermochemical studies of surface-induced activation in human granulocytesin vitro. Journal of Materials Science: Materials in Medicine 3:2, pages 151-153.
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M. Monti. (1991) Calorimetric studies of lymphocytes and hybridoma cells. Thermochimica Acta 193, pages 281-285.
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R.B. Kemp. (1991) Calorimetric studies of heat flux in animal cells. Thermochimica Acta 193, pages 253-267.
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M. Monti. (1990) Application of microcalorimetry to the study of living cells in the medical field. Thermochimica Acta 172, pages 53-60.
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L. Edvinsson, J. Ikomi-Kumm & M. Monti. (2016) Effects of Calcium Entry Blockers on Human Platelet Metabolism Measured by Microcalorimetry. Human Toxicology 8:2, pages 131-133.
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B Fagher, M Monti & S Theander. (1989) Microcalorimetric study of muscle and platelet thermogenesis in anorexia nervosa and bulimia. The American Journal of Clinical Nutrition 49:3, pages 476-481.
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Jan T. Christenson, W. Al-Huneidi & R. Abu Saleh. (2016) Microcalorimetric Measurements of Platelet Metabolism After Synthetic Arterial Bypass Procedures in Sheep and the Effect of Low Molecular Weight Dextran. Vascular Surgery 22:4, pages 238-243.
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M. Monti. 1987. Thermal and Energetic Studies of Cellular Biological Systems. Thermal and Energetic Studies of Cellular Biological Systems 131 146 .
MARIO MONTI, LARS EDVINSSON, EVA RANKLEV & ROGER FLETCHER. (2009) Methylxanthines Reduce in vitro Human Overall Platelet Metabolism as Measured by Microcalorimetry. Acta Medica Scandinavica 220:2, pages 185-188.
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R. Faldt, J Ankerst & M. Monti. (2008) Heat production rate in polymorphonuclear granulocytes from patients with acute myelogenous leukaemia and healthy individuals. British Journal of Haematology 58:4, pages 671-678.
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L. N�ssberger & M. Monti. (1984) Assessment of overall metabolism inAmoeba proteus measured by a microcalorimetric method. Protoplasma 123:2, pages 135-139.
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G. Rialdi & S. Raffanti. 1984. Thermochemistry and Its Applications to Chemical and Biochemical Systems. Thermochemistry and Its Applications to Chemical and Biochemical Systems 531 540 .
Costantino Eftimiadi & Giovanni Rialdi. (1982) Increased heat production proportional to oxygen consumption in human neutrophils activated with phorbol-12-myristate-13-acetate. Cell Biophysics 4:2-3, pages 231-244.
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M. Monti, L. Brandt, J. Ikomi‐Kumm, H. Olsson & I. Wadö. (2009) Metabolic Activity of Lymphoma Cells and Clinical Course in Non‐Hodgkin Lymphoma (NHL). Scandinavian Journal of Haematology 27:5, pages 305-310.
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M. Monti, R. Fäldt, J. Ankerst & I. Wadsö. (1980) A new approach to detection of antigen-antibody complexes by microcalorimetric measurements of heat production in blood cells. Journal of Immunological Methods 37:1, pages 29-37.
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Paul C. Anderson & Rex E. Lovrien. (1979) A flow calorimeter for assay of hormone- and metabolite-induced changes in steady-state heat production by tissue. Analytical Biochemistry 100:1, pages 77-86.
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L. Brandt, J. Ikomi‐Kumm, M. Monti & I. Wadsö. (2009) Heat Production by Lymphocytes in Chronic Lymphocytic Leukaemia. Scandinavian Journal of Haematology 22:2, pages 141-144.
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Florence Dunkel, Charles Wensman & Rex Lovrien. (1979) Direct calorific heat equivalent of oxygen respiration in the egg of the flour beetle Tribolium confusum (coleoptera: Tenebrionidae). Comparative Biochemistry and Physiology Part A: Physiology 62:4, pages 1021-1029.
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M. Monti. (2009) Microcalorimetric Measurements of Heat Production in Erythrocytes of Patients with Liver Diseases. Scandinavian Journal of Haematology 19:3, pages 313-318.
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M. Monti & I. Wadsö. (2009) Microcalorimetric Studies of Human Platelet Metabolism at Rest Influence of pH, Temperature, Cell Concentration, Preparation Methods and Storage. Scandinavian Journal of Haematology 19:1, pages 111-115.
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C. Spink & I. Wadsö. 1976. Methods of Biochemical Analysis. Methods of Biochemical Analysis 1 159 .
T. Krakauer & H. Krakauer. (1976) Antigenic stimulation of lymphocytes I. Calorimetric exploration of metabolic responses. Cellular Immunology 26:2, pages 242-253.
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Shigeki MINAKAMI & Carl‐Henric de VERDIER. (2008) Calorimetric Study on Human Erythrocyte Glycolysis. European Journal of Biochemistry 65:2, pages 451-460.
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M. Monti & I. Wadsö. (2009) Microcalorimetric Measurements of Heat Production in Human Erythrocytes. Acta Medica Scandinavica 200:1-6, pages 301-308.
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