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Target Concepts:
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Query: EC:2.6.1.2 (
alanine aminotransferase
)
26,722
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The Appleby operation allows resection of gastric cancer with lymph nodes around the stomach and celiac axis en bloc. Hepatic arterial blood flow after resection of the celiac axis is supplied by the superior mesenteric artery. In some patients, however, hepatic arterial flow becomes decreased after resection of the celiac axis. This abrupt reduction of hepatic arterial blood flow sometimes causes postoperative complications such as severe liver dysfunction or gallbladder necrosis. To prevent the reduction of hepatic arterial blood flow and to perform the Appleby operation more safely, we modified the Appleby operation to include reconstruction of the hepatic artery. We found that after dissection of lymph nodes around the hepatoduodenal ligament, the proper hepatic artery and gastroduodenal artery can be well mobilized and it becomes possible to anastomose the celiac axis to the common hepatic artery directly without using anticoagulants. From May, 1989 to November, 1990, 15 patients with advanced gastric cancer underwent the modified Appleby procedure at Kinan General Hospital. Postoperatively, serum aspartate aminotransferase (AST) and
alanine aminotransferase
(
ALT
) levels were determined for evaluation of liver function. These levels were almost the same as those found after traditional total gastrectomy without resection of the celiac axis.
Indocyanine green
(ICG) clearance tests were performed before and 1 month after operation. There was no significant difference between the preoperative and postoperative values. Common hepatic arterial flow after celiacohepatic anastomosis was 390 ml/min on average. The modified Appleby procedure can be done quite safely.
...
PMID:A new technique for the resection of gastric cancer: modified Appleby procedure with reconstruction of hepatic artery. 146 35
In a randomized prospective controlled study in humans, the metabolism and hepatic effects of a single administration of halothane were compared with enflurane and meperidine. Pre- and postoperative antipyrine pharmacokinetics, intraoperative indocyanine green clearance, liver histology, and postoperative liver function tests were determined in 24 patients undergoing abdominal surgery who were randomly allocated to receive either halothane (0.5%, group I), enflurane (0.8%, group II), or meperidine (group III) as a supplement to a common basal anesthetic regimen consisting of thiopental, nitrous oxide/oxygen/muscle relaxant. In addition, end-tidal concentrations of the volatile reductive metabolites of halothane, chlorodifluoroethylene (CDF), and chlorotrifluoroethane (CTF) were determined in group I patients and serum and urinary inorganic fluoride were determined in both group I and II patients.
Indocyanine green
clearance was measured before anesthesia (stage I), during basal anesthesia (stage II), in the presence of surgical stimuli (stage III), and after introduction of the selected anesthetic agent (stage IV). CDF and CTF were detectable within 20 min of the start of halothane anesthesia in every patient receiving halothane. Peak serum fluoride concentrations occurred at 2 and 24 hr in the enflurane and halothane groups, respectively, whereas urinary fluoride excretion was elevated postanesthesia in the enflurane group only. There was no difference between the pre- and postoperative disposition of antipyrine in group II or III, but after anesthesia, antipyrine clearance was significantly decreased (P less than 0.02) and plasma half-life increased (P less than 0.05) in group I patients (halothane). Concentrations of serum
alanine aminotransferase
(
ALT
) and bilirubin were significantly elevated (P less than 0.5) postoperatively in groups I and II but unchanged from preoperative values in group III patients. Three of the 24 liver biopsies taken at the end of stage IV showed several foci of acute liver cell necrosis; of these, two patients were from group I and one from group II. There were no significant differences in liver cell morphology (P greater than 0.5) in biopsies taken at the end of stage IV compared with biopsies at the end of stage III, from groups I and II. The results of this study show that reductive metabolism of halothane occurs routinely in patients undergoing halothane anesthesia under conditions of normoxia. This may be the cause of the changes in antipyrine clearance after halothane anesthesia.
...
PMID:A randomized prospective controlled study of the metabolism and hepatotoxicity of halothane in humans. 356 92
We report the usefulness of monitoring hepatic venous saturation (ShVO2) during open heart surgery for a patient with severe liver dysfunction. The patient was a 55-year-old man who had been suffering from acute aortic regurgitation due to bacterial endocarditis.
Indocyanine green
retention test at 15 min was 55%. Serum GOT,
GPT
and T bilirubin were 56 U.l-1, 35 U.l-1 and 1.5 mg.dl-1 respectively. Aortic valve replacement was scheduled in spite of severe liver dysfunction because amelioration of congestive heart failure after the operation was expected to improve liver dysfunction to the previous chronic state. Anesthesia was induced and maintained by intermittent administration of diazepam and low dose of fentanyl with 100% oxygen. After induction, we inserted a balloon tipped pulmonary catheter with ultra-red beam into hepatic vein by fluoroscopy guidance and monitored ShVO2 as an index of hepatic oxygen supply/demand balance. During re-insertion of a thoracic catheter, we could detect the continued decrease in hepatic vein saturation even after the improvement of systemic circulatory state. Postoperatively, liver function became slightly worse for a short period and improved thereafter. These results suggest that ShVO2 monitoring is clinically useful in detecting hepatic oxygen supply/demand imbalance which circulatory monitoring could not uncover during open heart surgery.
...
PMID:[The usefulness of monitoring hepatic venous saturation during open heart surgery for a patient with severe liver dysfunction]. 763 78
There has been a dramatic improvement in recent results of hepatectomy for hepatocellular carcinoma in cirrhotic patients. Hospital mortality rates of less than 5% are frequently reported. The improvement is largely a result of better techniques and performance of surgeons in hepatectomy, and reduction in blood loss and transfusion requirement. Better selection of patients is perhaps a more significant contributory factor. Careful identification of risk factors related to the medical condition of the patient, functional reserve of the liver and volume of the remnant liver is essential for the prevention of postoperative liver failure.
Indocyanine green
clearance test is the most accurate test for assessment of liver function reserve. An indocyanine green retention rate of 14% at 15 minutes is the safety limit for major hepatectomy for cirrhotic patients. A maximum of 60% of the nontumorous liver can be resected safely. Computed tomography is therefore an important assessment parameter. The liver function reserve also reveals the suitability for hepatectomy. Liver enzymes,
alanine aminotransferase
or aspartate aminotransferase can reflect the hepatic activity, which could be responsible for the impaired liver function. Steatosis is another factor that influences hepatic function reserve. Age is also an important risk factor in hepatectomy because elderly patients may harbor occult heart disease, reduced respiratory and liver function reserves. After recognizing the risk factors, surgeons should eliminate operative morbidity and mortality by making appropriate decisions based on the assessments. In conclusion, preoperative risk assessment involves evaluation of hepatic function reserve, remnant liver volume, liver status, age and the medical condition of the patient. A 0% hospital mortality rate is considered the objective.
...
PMID:Methods and related drawbacks in the estimation of surgical risks in cirrhotic patients undergoing hepatectomy. 1194 45
The knowledge of tissue perfusion has not only a prognostic value in microvascular surgery but also the intraoperative detection of malperfusion can lead to a quick surgical intervention.
Indocyanine green
(ICG) angiography allows a topographic analysis of perfusion and is used to assess lymphatic drainage pathways and to analyse the depth of burn injuries. Integrating the technique into an operating microscope enables visualisation of the flow over microanastomoses and allows the assessment of the transit time of blood flow between arterial and venous anastomosis. Using this method we analysed 11 microsurgical free flaps (3 latissimus dorsi, 3 rectus abdominis, 1 gracilis muscle, 2 radial forearm, 1
ALT
, and 1 DIEP flap). The topographic analysis was performed after the assessment of the microanastomoses. We observed no flap loss or partial flap necrosis. The transit time between arterial inflow and venous outflow was 32.8 s on average. Here we observed distinct differences between muscle flaps (27.7 s) on the one hand and fasciocutaneous and perforator flaps (47.5 s) on the other hand. We detected one venous thrombosis by ICG angiography in a case where the clinical patency test was not distinct. Revision was performed immediately. Particularly for intraoperative assessment, ICG angiography is a useful, reliable and safe technique. The integration into the operating microscope allows an "angiographic patency test" and the analysis of the transit time allows the evaluation of blood flow within the flap. Especially when planning perforator flaps the method of ICG angiography provides a new level of safety in flap design by quickly demonstrating the borders of perfusion.
...
PMID:[Microscope-integrated intraoperative indocyanine green angiography in plastic surgery]. 2249 59
The prediction and understanding of acetaminophen (APAP)-induced liver injury (APAP-ILI) and the response to therapeutic interventions is complex. This is due in part to sensitivity and specificity limitations of currently used assessment techniques. Here we sought to determine the utility of integrating translational non-invasive photoacoustic imaging of liver function with mechanistic circulating biomarkers of hepatotoxicity with histological assessment to facilitate the more accurate and precise characterization of APAP-ILI and the efficacy of therapeutic intervention. Perturbation of liver function and cellular viability was assessed in C57BL/6J male mice by
Indocyanine green
(ICG) clearance (Multispectral Optoacoustic Tomography (MSOT)) and by measurement of mechanistic (miR-122, HMGB1) and established (
ALT
, bilirubin) circulating biomarkers in response to the acetaminophen and its treatment with acetylcysteine (NAC) in vivo. We utilised a 60% partial hepatectomy model as a situation of defined hepatic functional mass loss to compared acetaminophen-induced changes to. Integration of these mechanistic markers correlated with histological features of APAP hepatotoxicity in a time-dependent manner. They accurately reflected the onset and recovery from hepatotoxicity compared to traditional biomarkers and also reported the efficacy of NAC with high sensitivity. ICG clearance kinetics correlated with histological scores for acute liver damage for APAP (i.e. 3h timepoint; r=0.90, P<0.0001) and elevations in both of the mechanistic biomarkers, miR-122 (e.g. 6h timepoint; r=0.70, P=0.005) and HMGB1 (e.g. 6h timepoint; r=0.56, P=0.04). For the first time we report the utility of this non-invasive longitudinal imaging approach to provide direct visualisation of the liver function coupled with mechanistic biomarkers, in the same animal, allowing the investigation of the toxicological and pharmacological aspects of APAP-ILI and hepatic regeneration.
...
PMID:Dynamic and accurate assessment of acetaminophen-induced hepatotoxicity by integrated photoacoustic imaging and mechanistic biomarkers in vivo. 2875 60
