References
- Bussemaker J B, Lindeman J. Comparison of methods to determine viability of small intestine. Ann Surg 1972; 176: 97–101
- Cooperman M, Martin E W, Keith L M, Carey L C. Use of Doppler ultrasound in intestinal surgery. Am J Surg 1979; 138: 856–859
- Katz S, Wahab A, Murray W, Williams L F. New parameters of viability in bowel disease. Am J Surg 1974; 127: 136–141
- Zarins C K, Skinner D B, Rhodes B A, Janes A E. Prediction of the viability of revascularized intestine with radioactive micropheres. Surg Gynecol Obstet 1974; 138: 576–580
- Wright C B, Hobson R W. Prediction of intestinal viability using Doppler ultrasound technics. Am J Surg 1975; 129: 642–645
- Hulten L, Jodal M, Lindhagen J, Lundgren O. Colonic blood flow in cat and man analysed by an inert gas washout technique. Gastroenterology 1976; 70: 36–44
- Papachristou D, Fortner J G. Prediction of intestinal viability by intra-arterial dye injection: a simple test. Am J Surg 1976; 132: 572–574
- Carter M S, Fantine G A, Sammartano R J, Mitsudu S, Silverman D G, Boley S J. Qualitative and quantitative fluorescein fluorescence in determining intestinal viability. Am J Surg 1984; 147: 117–123
- Ahn H, Lindhagen J, Nilsson G E, Salerud E G, Jodal M, Lundgren O. Evaluation of laser doppler in the assessment of intestinal blood flow in the cat. Gastroenterology 1985; 88: 951–957
- Sheridan W G, Lowndes H L, Young H L. Tissue oxygen tension as a predictor of colonic anastomotic healing. Dis Colon Rectum 1987; 30: 867–871
- Gottrup F, Firmin R, Chang N, Goodson W H, Hunt T K. Continuous direct tissue oxygen tension measurement by a new method using an implantable silastic tonometer and oxygen polarography. Am J Surg 1983; 146: 399–403
- Cater B C, Silver I A. Quantitative measurements of oxygen tension in normal tissues and in the tumors of patients before and after radiotherapy. Acta Radiol 1960; 53: 233–256
- Connelly C M. Methods for measuring tissue oxygen tension; theory and evaluation, the oxygen electrode. Fed Proc 1957; 16: 681–684
- Brantigan J W, Gott V L, Martz M N. A teflon membrane for measurement of blood and intramyo-cardial gas tensions by mass spectrometry. J Appl Physiol 1972; 32: 276–282
- Niinikoski J, Heughan C, Hunt T K. Oxygen tensions in human wounds. J Surg Res 1972; 12: 77–82
- Niinikoski J, Hunt T K. Measurement of wound oxygen with implanted Silastic tube. Surgery 1972; 71: 22–26
- Hunt T K. A new method of determining tissue oxygen tension. Lancet 1964; 2: 1370–1371
- Gottrup F, Firmin R, Hunt T K, Mathes S J. The dynamic properties of tissue oxygen in healing flaps. Surgery 1984; 95: 527–536
- Gottrup F, Firmin R, Rabkin J, Halliday B J, Hunt T K. Directly measured tissue oxygen tension and arterial oxygen tension assess tissue perfusion. Crit Care Med 1987; 15: 1030–1036
- Kässler M. Normal and critical O2-supply of the liver. Oxygen transport in blood and tissue, D W Lübbers, U C Luft, G Thews, E Witzleb. Georg Thieme Verlag, Stuttgart 1968; 242–251
- Yu B, Baumgärt H, Lübbers D W. An improved polarographic multiwire surface Po2-electrode particularly for measurements of high Po2 values. Oxygen transport to tissue, D W Lübbers, H Acker, E Leninger-Follert. Plenum Press, New York 1984; Vol. V: 877–886, Gold
- Nickelsen C, Weber T. Fetal transcutaneous carbon dioxide monitoring—the effect of different fixation methods. Br J Obstet Gynaecol 1986; 93: 1268–1271
- Nickelsen C, Weber T. Suction fixation of the tcPCO2 electrode for fetal monitoring. J Perinat Med 1987; 15: 383–389
- Larsen P N, Moesgaard F, Gottrup F, Helledie N. Characterization of a silicone tonometer using a membrane covered transcutaneous electrode. Scand J Clin Lab Invest 1989; 49: 513–519
- Henriksen T B, Hjortdal V E, Kjolseth D, Hansen E S, Djurhuus J C, Gottrup F. The microcirculatory changes in the surroundings of silastic catheters and the relationship between tissue oxygen tension and microcirculation. An experimental study in pigs. Eur Surg Res 1989; 21(suppl 2)75–76