Objective To identify serum metabolic markers served in the clinical diagnosis of ulcerative colitis(UC).Methods Ser-um samples from 29 UC patients,31 Crohn's disease(CD)patients,and 21 matched healthy controls(HC)admitted to Department of Gastroenterology,Nanjing Drum Tower Hospital during September 2022 and March 2024 were collected.The ultra-high-performance liquid chromatography coupled with quadrupole-orbitrap mass spectrometry(UHPLC-Q Exactive HF-X)technology was used to detect and analyze serum metabolites.A partial least squares discrimination analysis(PLS-DA)model was constructed,and the metabolites significantly up-regulated in UC were screened based on the variable importance in projection(VIP)score＞1,P value＜0.05,and fold change(FC)＞1.2.The pathway enrichment analysis was performed using the Kyoto Encyclopedia of Genes and Genomes(KEGG)database to reveal the biological pathways involved in the metabolites.The area under the receiver operating characteristic curve(AUCROC)was calculated to evaluate the diagnostic potential of the differential metabolites.Results A total of 1 522 metabo-lites were identified from the three sample groups.Among them,4 metabolites,namely leucodopachrome(VIP=1.964,P＜0.05,FC=1.916),tetrahydrodipicolinate(VIP=1.74,P＜0.05,FC=2.65),N-ethylmaleimide(VIP=1.519,P＜0.05,FC=1.597),and 5,6-dihydroxyindole(VIP=3.018,P＜0.05,FC=1.575),were significantly up-regulated in UC.Their AUCROC values for distinguishing UC from CD were 0.788(95%CI:0.655-0.921),0.773(95%CI:0.639-0.907),0.834(95%CI:0.720-0.949),and 0.899(95%CI:0.821-0.977),respectively,while those for distinguishing UC from HC were 0.966(95%CI:0.924-1.000),0.926(95%CI:0.857-0.995),0.969(95%CI:0.928-1.000),and 0.910(95%CI:0.830-0.990),respectively.KEGG pathway analysis showed that the up-regulated metabolites in UC were primarily enriched in biological pathways such as tyrosine metabolism,glycerophospholipid me-tabolism,and arachidonic acid metabolism.Conclusion The serum metabolic profile of UC patients is significantly changed,and the four differential metabolites mentioned above may serve as effective biomarkers for the differential diagnosis of UC,CD,and HC.

Objective To identify serum metabolic markers served in the clinical diagnosis of ulcerative colitis(UC).Methods Ser-um samples from 29 UC patients,31 Crohn's disease(CD)patients,and 21 matched healthy controls(HC)admitted to Department of Gastroenterology,Nanjing Drum Tower Hospital during September 2022 and March 2024 were collected.The ultra-high-performance liquid chromatography coupled with quadrupole-orbitrap mass spectrometry(UHPLC-Q Exactive HF-X)technology was used to detect and analyze serum metabolites.A partial least squares discrimination analysis(PLS-DA)model was constructed,and the metabolites significantly up-regulated in UC were screened based on the variable importance in projection(VIP)score＞1,P value＜0.05,and fold change(FC)＞1.2.The pathway enrichment analysis was performed using the Kyoto Encyclopedia of Genes and Genomes(KEGG)database to reveal the biological pathways involved in the metabolites.The area under the receiver operating characteristic curve(AUCROC)was calculated to evaluate the diagnostic potential of the differential metabolites.Results A total of 1 522 metabo-lites were identified from the three sample groups.Among them,4 metabolites,namely leucodopachrome(VIP=1.964,P＜0.05,FC=1.916),tetrahydrodipicolinate(VIP=1.74,P＜0.05,FC=2.65),N-ethylmaleimide(VIP=1.519,P＜0.05,FC=1.597),and 5,6-dihydroxyindole(VIP=3.018,P＜0.05,FC=1.575),were significantly up-regulated in UC.Their AUCROC values for distinguishing UC from CD were 0.788(95%CI:0.655-0.921),0.773(95%CI:0.639-0.907),0.834(95%CI:0.720-0.949),and 0.899(95%CI:0.821-0.977),respectively,while those for distinguishing UC from HC were 0.966(95%CI:0.924-1.000),0.926(95%CI:0.857-0.995),0.969(95%CI:0.928-1.000),and 0.910(95%CI:0.830-0.990),respectively.KEGG pathway analysis showed that the up-regulated metabolites in UC were primarily enriched in biological pathways such as tyrosine metabolism,glycerophospholipid me-tabolism,and arachidonic acid metabolism.Conclusion The serum metabolic profile of UC patients is significantly changed,and the four differential metabolites mentioned above may serve as effective biomarkers for the differential diagnosis of UC,CD,and HC.

Objective To explore the effect of docosahexaenoic acid (DHA) on long-term learning and memory disorders and potential mechanism in rats after hypoxic ischemic brain damage. Methods Sixty neonatal 7-day-old SD rats were ramdonly divided into three groups: group S (sham operation+vehicle treatment), group C (hypoxic-ischemic brain damage [HIBD]+vehicle treatment) and group D (HIBD+DHA treatment). After left common carotid artery was isolated and ligated for 2.5 h, rats of group C and group D were put into a condition which oxygen concentration was about 8%for 2 h;rats in the group S were only isolated the left carotid artery, without ligation or hypoxia treatment;rats in the group D were intraperitoneally injected DHA of 15 mg/kg after modeling, and rats in the group S and group C were intraperitoneally injected equivalent volume of vehcle, once a day for 10 consecutive days. The pathomorphology changes of the hypocampal CA1 area, and marginal division of striatum were observed by Nissl staining 48 h after modling; the apoptosis cells were measured by TUNEL;immunohistochemical method was used to detect the expressions of Bax and Caspase-3 positive cells in the two brain areas. Morris water maza test was used to evaluate the long-term lerning and momory functions of 2-month-old rats, and the expressions of N-methyl-D-aspartate receptor 1 (NMDAR1) positive cells were detected by immunohistochemical method. Results The pathomorphology damage was significantly improved, the expressions of Bax and Caspase-3 positive cells and the neuron apoptosis in hypocampal CA1 areas and marginal division of striatum in group D were all signficantly decreased as compared with those in the group C (P<0.05). Rats in group D had significantly decreased escape latency as compared with those in group C in Morris water maze test (P<0.05), and the expression of NMDAR1 positive cells in the two brain areas of group D was significantly increased as compared with that in the group C (P<0.05). Conclusion DHA has the ameliorative effect on long-term learning and memory disorders after hypoxic ischemic brain damage in rats, which may be associated with inhibitory action of cell apoptosis at early phase and up-regulation of expression of NMDA1 at the late phase.