Literatur
- 1
Blake D W, Hogg M N, Hackman C H, Pang J, Bjorksten A R.
Induction of anaesthesia with sevoflurane, preprogrammed propofol infusion or combined
sevoflurane/propofol for laryngeal mask insertion: cardiovascular, movement and EEG
bispectral index responses.
Anaesth Intensive Care.
1998;
26
360-365
- 2
Conzen P F, Vollmar B, Habazettl H, Frink E J, Peter K, Messmer K.
Systemic and regional hemodynamics of isoflurane and sevoflurane in rats.
Anesth Analg.
1992;
74
79-88
- 3
Heindl B, Becker B F, Zahler S, Conzen P F.
Halothane, sevoflurane and isoflurane reduce adhesion of blood platelets under low-flow
conditions in the coronary system of isolated guinea pig hearts.
Acta Anaesthesiol Scand.
1998;
42
995-1003
- 4
Kowalski C, Zahler S, Becker B F, Flaucher A, Conzen P F, Gerlach E, Peter K.
Halothane, isoflurane, and sevoflurane reduce postischemic adhesion of neutrophils
in the coronary system.
Anesthesiology.
1997;
86
188-195
- 5
Loscar M, Allhoff T, Ott E, Conzen P, Peter K.
Aufwachverhalten und kognitive Funktion nach Desfluran oder Isofluran.
Anaesthesist.
1996;
45
140-145
- 6
Muzzi D, Losasso T, Dietz N, Faust R, Cucchiara R, Milde L.
The effect of desflurane and isoflurane on cerebrospinal fluid pressure in humans
with supratentorial mass lesions.
Anesthesiology.
1992;
76
720-724
- 7
Warner D S, McFarlane C, Todd M M, Ludwig P, McAllister A M.
Sevoflurane and halothane reduce focal ischemic brain damage in the rat.
Anesthesiology.
1993;
79
985-992
- 8
Yasuda N, Lockhart S H, Eger II EI, Weiskopf R B, Johnson B H, Freire B A, Fassoulaki A.
Kinetics of desflurane, isoflurane, and halothane in humans.
Anesthesiology.
1991;
74
489-498
- 9
Yurino M, Kimura H.
Induction of anesthesia with sevoflurane, nitous oxide, and oxygen: A comparison of
spontaneous ventilation and vital capacity rapid inhalation induction (VCRII) techniques.
Anesth Analg.
1993;
76
598-601
- 10
Nuscheler M, Conzen P, Schwender D, Peter K.
Fluorinduzierte Nephrotoxizität: Fakt oder Fiktion?.
Anaesthesist.
1996;
45
32-40
- 11
Higuchi H, Sumikura H, Sumita S, Arimura S, Takamatsu F, Kanno M, Satoh T.
Renal function in patients with high serum fluoride concentrations after prolonged
sevoflurane anesthesia.
Anesthesiology.
1995;
83
449-458
- 12
Conzen P F, Nuscheler M, Melotte A, Verhaegen M, Leupolt T, van Aken H, Peter K.
Renal function and serum fluoride concentrations in patients with stable renal insufficiency
after anesthesia with sevoflurane or isoflurane.
Anesth Analg.
1995;
81
569-575
- 13
Jin L, Baillie A, Davis M R, Kharasch E D.
Nephrotoxicity of sevoflurane compound A [fluoromethyl-2,2-difluoro-1-(trifluoromethyl)vinyl
ether] in rats: evidence for glutathione and cysteine conjugated formation and the
role of renal cysteine conjugate β-lyase.
Biochem Biophys Res Commun.
1995;
210
498-506
- 14
Fang Z X, Eger E I, Laster M J, Chrotkoff B S, Kandel L, Ionescu P.
Carbon monoxide production from degradation of desflurane, enflurane, isoflurane,
halothane, and sevoflurane by soda lime and baralyme.
Anesth Analg.
1995;
89
1187-1193
Prof. Dr. med. P. Conzen
Klinik für Anästhesiologie der
Ludwig-Maximilians-Universität
Klinikum Großhadern
Marchioninistraße 15
81366 München