Col J., Col-Debeys C., Lavenne-Pardonge E. et al. Propylene glycol induces heparin resistance during nitroglycerin infusion. Am HeartJ1985; 110: 272-3.
2.
Habbab MA, Haft JIHeparin resistance induced by intravenous nitroglycerin. Arch Intern Med1987; 147: 857-60.
3.
Pizzulli L., Nitsch J., Luderitz B.Inhibition of the heparin effect by nitroglycerin. Dtsch-Med-Wochenschr1988; 113(47): 1837-40.
4.
Wright G.Factors affecting the pulsatile hydraulic power output of the Stöckert roller pump. Perfusion1989; 4: 187-95.
5.
Sohma A., Ohga K., Oda Y. et al. Quantitative analysis of the effect of pulsatile perfusion on vascular resistance. Perfusion1989; 4: 213-21.
6.
Alston RP, Singh M., McLaren D.Systemic oxygen uptake during hypothermic cardiopulmonary bypass: effects of flow rate, flow character and arterial pH. J Thorac Cardiovasc Surg (in press).
7.
Alston RP, Murray L., McLaren D.Changes in haemodynamic variables during hypothermic cardiopulmonary bypass: effects of flow rate, flow character and arterial pH. (unpublished data).
8.
Dunn J., Kirsh MM, Harness J., Carroll M., Straker J., Sloan H.Haemodynamic, metabolic and haematologic effects of pulsatile cardiopulmonary bypass. J Thorac Cardiovasc Surg1974; 68: 138-47.
Trinkle JK, Helton NE, Wood RE, Bryant LRMetabolic comparison of a new pulsatile pump and roller pump for cardiopulmonary bypass. J Thorac Cardiovasc Surg1969; 58: 562-69.
11.
Grossi EA, Mark W., Karl C. et al. Quantification of pulsatile flow during cardiopulmonary bypass to permit direct comparison of the effectiveness of various types of 'pulsatile' and 'non-pulsatile' flow. Surgery1985; 98: 547-54.
12.
Sohma A., Ohga K., Oka T. et al. Quantitative analysis of the effect of pulsatile flow on vascular resistance. Perfusion1989; 4: 213-21.
