References
- SARANUMI, N., KORHONEN, I., VAN GILS, M., and KARI, A., 1997, Framework for biosignal interpretation in intensive care and anestesia. Methods of Information in Medicine, 36, 340— 344.
- RANKIN, J. S., OLSEN, C. 0., ARENTZEN, C. E., TYSON, G. S., MAYER, G., SMITH, P. K, HAMMON, J. W., DAVIS, J. W., MCHALE, P. A., ANDERSON, R. W., and SABISTON, D. C., 1982, The effects of airway pressure on cardiac function in intact dogs and man. Circulation, 66, 108–120.
- PINSKY, M. R., and SUMMER, W. R., 1983, Cardiac augmenta-tion by phasic high intratoracic pressure support in man. Chest, 84, 370 — 375.
- DE LAZZARI, C., DAROWSKY, M., FERRARI, G., CLEMENTE, F., and GUARAGNO, N., 1999, Computer simulation of haemo-dynamic parameters changes with left ventricle assist device and mechanical ventilation. Computers in Biology and Medicine, in press.
- PRIESMAN, S., PFEIFFER, U., LIEBERMAN, N., and PEREL, A., 1997, New monitor of intravascular volume: a comparison of arterial pressure waveform analysis and the intrathoracic blood volume. 1997, Intensive Care Medicine, 23, 651–657.
- CORIAT, P., VRILLON, M., PEREL, A., BARON, J. F., LE BRET, F., SAADA, M., and VIARS, P., 1994, A comparison of systolic pressure variations and echocardiographic estimates of end diastolic left ventricular size in patients after aortic surgery. Anesthesia and Analgesia: Current Researches, 78, 46–53.
- TAVERNER, B., MAKHOTINE, 0., LEBUFFE, G., and DUPONT, J., 1998, Systolic pressure variation as a guide to fluid therapy in patients with sepsis-induced hypotension. Anesthesiology, 89, 1313–1321.
- PEREL, A., 1998, Assessing fluid responsiveness by systolic pressure variation in mechanically ventilated patients. Anesthesiology, 89, 1309–1310.
- Pizov, It, CHOEN, M., WEISS, Y, SEGAL, E., COTEV, S., and PEREL, A., 1996, Positive end-expiratory pressure-induced hemodynamic changes are reflected in the arterial pressure waveform. Critical Care Medicine, 24, 1381–1387.
- CLEMENTE F., DE LAZZARI, C., FERRARI, G., and NICOLETTI, A., 1998, Sianal processing of biomedical data using PC. LabVIE/Y Signal Processing, edited by M. L. Chugani, A. R. Samant and M. Cerna (Upper Saddle River, NJ. USA: Prentice Hall Inc), pp. 378–389.
- RIGOBELLO, M. P, CAZZARO, F., SCUTARI, G., and BINDOLI, A., 1999, Virtual instrumentation for pH measurements in biological system. Computer Methods and Programs in Biomedicine, 60, 55 — 64.
- ADELMANN, H. G., 1999, Design of a PC-based system for time domain and spectral analysis of heart rate variability. Computers and Biomedical Research, 32, 77–92.
- SPALDING, H. K, BANNER, M. J., and SKIMMING, J. W., 1997, Carbon dioxide (CO2) elimination rate accurately predicts cardiac output. Anaesthesiology, 87, A469.