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Microdialysis Catheter (microdialysi + catheter)

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Medical Sciences100%

Selected Abstracts

Continuous glucose monitoring by intravenous microdialysis

ACTA ANAESTHESIOLOGICA SCANDINAVICA, Issue 7 2010
O. ROOYACKERS
Background: The conflicting results from studies over tight glucose control in intensive care unit (ICU) patients ask for a continuous on-line real-time glucose monitoring in future. Here, intravenous microdialysis was tested in ICU patients and healthy volunteers. Primary aims were technical feasibility and accuracy. Methods: A microdialysis catheter was inserted into a peripheral vein. ICU patients (n=10) were studied for up to 5 days. Healthy volunteers (n=6) were studied on one occasion. Recordings were monitored during 70 min each 24-h period to allow for an estimate of variability over time. Microdialysis glucose and lactate were compared with plasma glucose and whole blood lactate. Results are presented as medians (quartiles) of the differences between microdialysis and plasma concentrations over each of the 70-min recording periods. Results: Out of the included ICU patients, no exclusions or early terminations were due to failure of the microdialysis catheter. The concordance was highly variable. The difference of medians over the recording periods differed by ,34% (,40, ,16) in patients and ,22% (,31, ,15) for the volunteers. In contrast, the overall variability within the individual measurement periods was low. Conclusion: Technical feasibility was good, but the accuracy was not sufficient and the variability between the recording periods was high without calibrations. The non-availability of suitable peripheral veins was a problem in many patients screened but not included in the study. Intravenous microdialysis to obtain continuous on-line real-time glucose monitoring is technically feasible, but accuracy needs to be improved. [source]

Metabolic changes in the liver graft monitored continuously with microdialysis during liver transplantation in a pig model

LIVER TRANSPLANTATION, Issue 5 2002
Grzegorz Nowak MD
Microdialysis provides the opportunity to continuously monitor metabolic changes in tissue. The aim of the study is to monitor metabolic changes in the liver graft over time during transplantation in a pig model. Fourteen littermate female pigs with a body weight of 30 to 34 kg were used for seven orthotopic liver transplantations. Intrahepatic implantation of a microdialysis catheter into the liver graft was performed in the donor. Microdialysis samples were collected at 20-minute intervals during the donor operation, cold preservation, and for 7 hours after reperfusion in the recipient. Glucose, lactate, pyruvate, and glycerol concentrations were measured. After cold perfusion, glucose, lactate, and glycerol levels increased, whereas pyruvate levels decreased rapidly. During cold storage, glucose and glycerol levels increased, whereas lactate levels remained stable and pyruvate levels were undetectable. During implantation of the liver graft, glucose, lactate, and glycerol levels showed an accelerated increase. After portal reperfusion, glucose, lactate, and glycerol levels continued to increase for another 40 to 60 minutes, after which they decreased and finally settled at normal levels. At this time, pyruvate levels increased, with a peak within 2 hours after reperfusion, and then decreased to normal levels. Calculated lactate-pyruvate ratio increased after cold perfusion and remained stable during cold storage. During rewarming, it showed an accelerated increase, but after reperfusion, it decreased rapidly. Rewarming and reperfusion are most harmful to the liver, reflected by an accelerated increase in glucose and glycerol levels and lactate-pyruvate ratio. High intrahepatic glucose levels during ischemia appear to be a liver-specific event, which may represent glycogen degradation in injured hepatocytes. [source]

Low-dose prostacyclin in treatment of severe brain trauma evaluated with microdialysis and jugular bulb oxygen measurements

ACTA ANAESTHESIOLOGICA SCANDINAVICA, Issue 7 2000
P.-O. Grände
Background: The endogenous substance prostacyclin is a substance with the potential to improve microcirculation and oxygenation around contusions in the brain following a head trauma by its vasodilatory, antiaggregatory and antiadhesive effects. Microdialysis measurements of local concentrations of selected interstitial substances in the brain, and measurements of venous jugular bulb oxygenation reflecting overall brain oxygenation, might be useful to evaluate possible therapeutic effects of a specific therapy, such as treatment with prostacyclin. Methods: This case report study on six patients, of whom five were given prostacyclin, includes cerebral microdialysis measurements of interstitial lactate (n=5), pyruvate (n=3), glycerol (n=5) and glucose (n=4), and is combined with measurements of venous jugular bulb oxygenation in three of the patients. One microdialysis catheter was placed adjacent to a contusion, and in four of the patients another catheter was also placed in the contralateral less injured side for comparison. Low-dose prostacyclin infusion (0.5,1.0 ng kg,1 min,1) was started when lactate concentrations in the more injured side was raised at a constant level for more than 10 h. The study also includes one patient used as control to whom no prostacyclin was given. Results: Lactate was markedly lower in the less injured than in the more injured area of the brain. During the prostacyclin infusion elevated lactate and lactate/pyruvate ratio were reduced. Elevated glycerol decreased, a low glucose increased and jugular bulb blood oxygenation increased following start of prostacyclin. The control patient showed an increase in lactate and lactate/pyruvate ratio. Conclusion: The microdialysis data combined with the jugular bulb oxygenation data indicated that low-dose prostacyclin exerts effects compatible with improved oxygenation and reduced cell damage in the severely traumatised brain. [source]

Bedside biochemical monitoring of the penumbra zone surrounding an evacuated acute subdural haematoma

ACTA NEUROLOGICA SCANDINAVICA, Issue 3 2003
N. Ståhl
We describe a penumbra zone with increased biochemical vulnerability in cerebral cortex underlying an evacuated acute subdural haematoma. Two microdialysis catheters were placed in this zone and one catheter was placed in the opposite, less injured hemisphere. The microdialysis perfusates were analysed bedside for glucose, pyruvate, lactate, glutamate, and glycerol. In the penumbra zone, but not in the opposite hemisphere, energy metabolism was seriously disturbed with signs of cell membrane degradation. During an adverse event (decrease in haemoglobin level, systemic blood pressure and cerebral perfusion pressure) the perturbation of energy metabolism increased in this zone. Energy metabolism recovered and the signs of cell membrane degradation disappeared after normalization of the physiological parameters. We use the term biochemical penumbra zone to describe an area with signs of energy failure and cell membrane degradation, which has a capacity to regain a normal metabolic pattern but also an increased vulnerability to secondary insults. [source]