Saki Okubo scite author profile

Saki Okubo

3Publications

16Citation Statements Received

109Citation Statements Given

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109

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Kobe University

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Recombinant human thrombomodulin attenuated sepsis severity in a non-surgical preterm mouse model

Ashina

Fujioka

Nishida

et al. 2020

Sci Rep

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neonatal sepsis is characterised by dysregulated immune responses. Lipid mediators (LMs) are involved in the regulation of inflammation. Human recombinant thrombomodulin (rhTM), an anticoagulant, has anti-inflammatory effects and might be useful for sepsis treatment. A stock caecal slurry (CS) solution was prepared from adult caeca. To induce sepsis, 1.5 mg/g of CS was administered intraperitoneally to 4 d-old wild-type FVB mouse pups. Saline (Veh-CS) or rhTM (3 or 10 mg/kg; rhTM3-CS or rhTM10-CS) was administered subcutaneously 6 h prior to sepsis induction, and liver LM profiles at 3 and 6 h postsepsis induction and survival up to 7 days were examined. Mortality was significantly lower (47%) in the rhTM3-CS group and significantly higher (100%) in the rhTM10-CS group, compared with the Veh-CS group (79%, p < 0.05). Eleven LMs (12-HEPE, EPA, 14-HDHA, DHA, PD1, PGD 2 , 15d-PGJ 2 , 12S-HHT, lipoxin B 4 , 12-HETE, AA) were significantly increased at 3 h, and five LMs (5-HEPE, 15-HEPE, 18-HEPE, 17-HDHA, PD1) were significantly increased at 6 h post-sepsis induction. Increased EPA, DHA, 12S-HHT, lipoxin B 4 , and AA were significantly suppressed by rhTM pre-treatment. rhTM was protective against neonatal sepsis. This protective effect might be mediated via LM modulation. Further post-sepsis studies are needed to determine clinical plausibility.

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A Case of Hypothalamic Panhypopituitarism with Empty Sella Syndrome: Case Report and Review of the Literature

et al. 2009

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Abstract. Empty sella syndrome is frequently accompanied with pituitary dysfunction. Most of the patients with empty sella syndrome demonstrate primary pituitary or stalk dysfunction and few cases show hypothalamic dysfunction. A 71-year-old man manifested appetite loss, nausea and vomiting with hyponatremia and adrenal insufficiency. Hormonal evaluation and cranial MRI revealed a panhypopituitarism with empty sella. Intriguingly, while the response of ACTH to CRH administration was exaggerated, the response to insulin hypoglycemia was blunted. Serum PRL levels were normal. Further, decreased level of fT4, slightly elevated basal levels of TSH, and delayed response of TSH to TRH administration were observed. These findings strongly suggest that the panhypopituitarism is caused by hypothalamic dysfunction. The presence of autoantibodies to pituitary and cerebrum in the patient's serum implies an autoimmune mechanism as a pathogenesis.

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Insulin therapy for hyperglycemia in neonatal sepsis using a preterm mouse model

Miyauchi

Fujioka

Okubo

et al. 2020

Pediatrics International

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Background: Stress-induced hyperglycemia is a frequent complication of neonatal sepsis. Hyperglycemia induces oxidative stress and immunosuppression. We investigated the glucose kinetics and effect of insulin administration during stress-induced hyperglycemia in a neonatal sepsis mouse model. Methods: A stock cecal slurry (CS) solution was prepared from adult cecums and 3.0 mg of CS/g (LD 40 ) was administered intraperitoneally to 4-day-old FVB mouse pups. Blood glucose levels were measured at 1.5, 3, 6, and 9 h post-sepsis induction and compared with basal levels. Two different doses of ultrafast-acting insulin were administered subcutaneously, and blood glucose levels and survival rates were monitored. Results: Blood glucose levels were significantly higher than those of baseline levels with a peak at 3 h, which progressively decreased from 6 to 9 h post-sepsis induction. Insulin treatment reduced post-sepsis-induced hyperglycemia at 1.5 and 3 h. The mortality rate of CS-only pups (39%) was similar to that of CS + 1 U/kg insulin pups (60%). However, the mortality rate of CS + 5 U/kg insulin pups (82%) was significantly higher than that of CSonly pups. Conclusions: Marked hyperglycemia was induced immediately after post-sepsis induction, and the high-dose insulin treatment increased mortality post-induction. Stress-induced hyperglycemia could therefore be a physiological and protective response for preterm sepsis, and aggressive treatment of this hyperglycemia might be contraindicated.

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Saki Okubo

Recombinant human thrombomodulin attenuated sepsis severity in a non-surgical preterm mouse model

A Case of Hypothalamic Panhypopituitarism with Empty Sella Syndrome: Case Report and Review of the Literature

Insulin therapy for hyperglycemia in neonatal sepsis using a preterm mouse model

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