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Changes of jugular venous blood temperature associated with measurements of cerebral blood flow using the transcerebral double-indicator dilution technique

Published online by Cambridge University Press:  23 December 2004

F. Mielck
Affiliation:
University of Göttingen, Department of Anaesthesiology, Emergency and Intensive Care Medicine, Göttingen, Germany
A. Bräuer
Affiliation:
University of Göttingen, Department of Anaesthesiology, Emergency and Intensive Care Medicine, Göttingen, Germany
O. Radke
Affiliation:
University of Göttingen, Department of Anaesthesiology, Emergency and Intensive Care Medicine, Göttingen, Germany
G. Hanekop
Affiliation:
University of Göttingen, Department of Anaesthesiology, Emergency and Intensive Care Medicine, Göttingen, Germany
S. Loesch
Affiliation:
University of Göttingen, Department of Anaesthesiology, Emergency and Intensive Care Medicine, Göttingen, Germany
M. Friedrich
Affiliation:
University of Göttingen, Department of Cardiothoracic and Vascular Surgery, Göttingen, Germany
R. Hilgers
Affiliation:
University of Göttingen, Department of Medical Statistics, Göttingen, Germany
H. Sonntag
Affiliation:
University of Göttingen, Department of Anaesthesiology, Emergency and Intensive Care Medicine, Göttingen, Germany
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Extract

Summary

Background and objective: The transcerebral double-indicator dilution technique is a recently developed method to measure global cerebral blood flow at bedside. It is based on bolus injection of ice-cold indocyanine green dye and simultaneous recording of resulting thermo- and dye-dilution curves in the aorta and the jugular bulb. However, with this method 40 mL of ice-cold solution is administered as a bolus. Therefore, this prospective clinical study was performed to elucidate the effects of repeated administration of indicator on absolute blood temperature and on cerebral blood flow and metabolism.

Methods: The investigation was performed in nine male patients scheduled for elective coronary artery bypass grafting. Absolute blood temperature was measured in the jugular bulb and in the aorta before and after repeated measurements using the transcerebral double-indicator dilution technique.

Results: During the investigated time course, the blood temperature in the jugular bulb, compared to the aorta, was significantly higher with a mean difference of 0.21°C. The administration of an ice-cold bolus reduced the mean blood temperature by 0.06°C in the jugular bulb as well as in the aorta. After the transcerebral double-indicator dilution measurements a temperature recovery to baseline conditions was not observed during the investigated time period. Cerebral blood flow and cerebral metabolism did not change during the investigated time period.

Conclusions: Repeated measurements with the transcerebral double-indicator dilution technique do not affect absolute jugular bulb blood temperatures negatively. Global cerebral blood flow and metabolism measurements remain unaltered. However, accuracy and resolution of this technique is not high enough to detect the effect of minor changes of physiological variables.

Type
Original Article
Copyright
2004 European Society of Anaesthesiology

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References

Wietasch G, Mielck F, Scholz M, v. Spiegel T, Stephan H, Hoeft A. Bedside assessment of cerebral blood flow by double-indicator dilution technique. Anesthesiology 2000; 92: 367375.Google Scholar
Keller E, Wietasch G, Ringleb P, et al. Bedside monitoring of cerebral blood flow in patients with acute hemispheric stroke. Crit Care Med 2000; 28: 511516.Google Scholar
Mielck F, Wietasch G, Weyland A, et al. Reliability of cerebral blood flow measurements by transcerebral double-indicator dilution technique. Eur J Anaesthesiol 2001; 18: 653661.Google Scholar
Herscovitch P, Raichle ME. What is the correct value for the brain–blood partition coefficient for water? J Cereb Blood Flow Metab 1985; 5: 6569.Google Scholar
Crowder CM, Tempelhoff R, Theard A, Cheng MA, Todorov A, Dacey R. Jugular bulb temperature: comparison with brain surface and core temperature in neurosurgical patients during mild hypothermia. J Neurosurg 1996; 85: 98103.Google Scholar
Clausen T, Rieger A, Roth S, et al. Cerebrovenous blood temperature-influence of cerebral perfusion pressure changes and hyperventilation: evaluation in a porcine study and in man. J Neurosurg Anaesth 2000; 12: 29.Google Scholar
Lanier WL, Iaizzo PA, Murray MJ. The effects of convective cooling and rewarming on systemic and central nervous system physiology in isoflurane-anesthetized dogs. Resuscitation 1992; 23: 121136.Google Scholar
Laptook AR, Corbett RJ, Sterett R, Burns DK, Tollefsbol G, Garcia D. Modest hypothermia provides partial neuroprotection for ischemic neonatal brain. Pediatr Res 1994; 35: 436442.Google Scholar
Robertson CS, Narayan RK, Gokaslan ZL, et al. Cerebral arteriovenous oxygen difference as an estimate of cerebral blood flow in comatose patients. J Neurosurg 1989; 70: 222230.Google Scholar
Stone JG, Young WL, Smith CR, et al. Do standard monitoring sites reflect true brain temperature when profound hypothermia is rapidly induced and reversed? Anesthesiology 1995; 82: 344351.Google Scholar
Rumana CS, Gopinath SK, Uzura M, Valadka AB, Robertson CS. Brain temperature exceeds systemic temperature in head-injured patients. Crit Care Med 1998; 26: 562567.Google Scholar
Sandstrom K, Nilsson K, Andreasson S, Larsson LE. Jugular bulb temperature compared with non-invasive temperatures and cerebral arteriovenous oxygen saturation differences during open heart surgery. Paediatr Anaesth 1999; 9: 123128.Google Scholar
Schell RM, Kern FH, Greeley WJ, et al. Cerebral blood flow and metabolism during cardiopulmonary bypass. Anesth Analg 1993; 76: 849865.Google Scholar
Marion DW, Penrod LE, Kelsey SF, et al. Treatment of traumatic brain injury with moderate hypothermia. New Engl J Med 1997; 336: 540546.Google Scholar