Study on early warning method of olanzapine induced weight gain in rats
Objective Olanzapine has a significant effect in the treatment of mental illness,so its use has been increasing year by year,and poisoning cases have occurred from time to time.Weight gain is a common side effect,and predicting it can be used as a warning to reduce the occurrence of olanzapine poisoning.In this paper,we screened out the differential metabolites between the olanzapine administration rats whose body weight significantly increased and no significantly changed weight.,therefore established an early diagnosis model for predicting olanzapine-induced weight gain in rats.Methods Thirty rats were randomly divided into the control group and olanzapine administration group,which were given continuously gavage with gthe normal saline and olanzapine for 28 days respectively.Blood was taken from the medial canthal vein on the first day after administration,and serum was collected for metabolomics analysis.The olanzapine group was divided into weight gain group and weight unchanged group by comparing with control group.The metabolic group data of the two groups were compared and the differential compounds were screened out between the two groups,Further then an early diagnosis model was established.Results There were 26 differential compounds between the weight gain group and the weight unchanged group after olanzapine administration for 28 days,including 10 lipids,which were involved in the metabolism of α-linolenic acid,the biosynthesis of unsaturated fatty acids,the biosynthesis of primary bile acids,and the synthesis of steroid hormones.Combined with the random forest algorithm,a early diagnosis model was established and the accurate rate was 80%.Conclusion Olanzapine administration would cause changes in the metabolome of rats,mostly concentrated in lipids,and the model based on 26 differential metabolites could be a candidate method for the early forensic determination of olanzapine poisoning.
OlanzapineEarly diagnosisMetabolomicsUltra-high liquid chromatography-time-of-flight mass spectrometryBiomarkers