C. Galigani
University of Siena
20 Papers
91 Citations
C. Galigani is an academic researcher from University of Siena. The author has contributed to research in topics: Blood viscosity & Erythrocyte deformability. The author has an hindex of 6, co-authored 20 publications.
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Papers
Primary and Secondary Blood Hyperviscosity Syndromes, and Syndromes Associated with Blood Hyperviscosity
TL;DR: Several pathological states such as diabetes, shock, surgery, and rheumatic disease have been described in which an increase of blood viscosity can be observed, and the term ‘syndromes associated with blood hyperviscosity’ could be proposed.
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Effect on rheological and some peripheral haemodynamic parameters of defibrotide in POAD patients
Roberto Cappelli,S. Pecchi,D. Pieragalli,A. Acciavatti,C. Galigani,G. L. Messa,A. Vittoria,Maurizio Guerrini,Sandro Forconi,T. DiPerri +9 more
TL;DR: The present investigation showed an improvement of rheological parameters and a decrease of total time and half time of reactive hyperemia of Defibrotide as well as the fibrinolytic one.
Effect of controlled physical activity on haemorheological and metabolic changes in poad patients
T. Di Perri,F. Laghi Pasini,L. Ralli,S. Pecchi,V. De Franco,P. Damiani,L. Domini,M. Materazzi,A. Monaci,M. Franchi,Burresi A,Landini F,D. Pieragalli,A. Acciavatti,C. Galigani,C. Frigerio,G. L. Messa,Patrizia Blardi,L. Volpi +18 more
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Allopurinol prevents ischaemia-dependent haemorheological changes
Pier Leopoldo Capecchi,F. Laghi Pasini,Anna Laura Pasqui,Alfredo Orrico,L. Ceccatelli,A. Acciavatti,C. Galigani,D. Pieragalli,T. Di Perri +8 more
TL;DR: Allopurinol is able markedly to attenuate the deterioration in blood viscosity and whole blood filterability that occurs after ischaemia during exercise and may attenuate changes in BV and WBF by affecting xanthine-oxidase-dependent free radical formation in tissues.
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Positive Effect of Oral Buflomedil on Exercise-Induced Haemorheological Damage and on Claudication Distance in Peripheral Obliterative Arterial Disease Patients
Sandro Forconi,D. Pieragalli,A. Acciavatti,C Del Bigo,C. Galigani,L. Ralli,Maurizio Guerrini,T. Di Perri +7 more
TL;DR: Findings suggest that the action of the drug may be directed to the red blood cell, preventing the metabolic tissue acidosis from affecting the cell's rheological characteristics, and that a prolonged treatment could improve the 'performance' of vascular patients.
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