Effects of atelocollagen on neural stem cell function and its migrating capacity into brain in psychiatric disease model

Abstract Stem cell therapy is well proposed as a potential method for the improvement of neurodegenerative damage in the brain. Among several different procedures to reach the cells into the injured lesion, the intravenous (IV) injection has benefit as a minimally invasive approach. However, for the brain disease, prompt development of the effective treatment way of cellular biodistribution of stem cells into the brain after IV injection is needed. Atelocollagen has been used as an adjunctive material in a gene, drug and cell delivery system because of its extremely low antigenicity and bioabsorbability to protect these transplants from intrabody environment. However, there is little work about the direct effect of atelocollagen on stem cells, we examined the functional change of survival, proliferation, migration and differentiation of cultured neural stem cells (NSCs) induced by atelocollagen in vitro. By 72-h treatment 0.01-0.05 % atelocollagen showed no significant effects on survival, proliferation and migration of NSCs, while 0.03-0.05 % atelocollagen induced significant reduction of neuronal differentiation and increase of astrocytic differentiation. Furthermore, IV treated NSCs complexed with atelocollagen (0.02 %) could effectively migrate into the brain rather than NSC treated alone using chronic alcohol binge model rat. These experiments suggested that high dose of atelocollagen exerts direct influence on NSC function but under 0.03 % of atelocollagen induces beneficial effect on regenerative approach of IV administration of NSCs for CNS disease

Phase reduction of strongly coupled limit-cycle oscillators

The phase reduction method has played a key role in the theoretical and experimental analysis of synchronization dynamics of coupled oscillators, but its applicability is limited to the case of weak coupling. In this study, a phase equation that describes strongly coupled limit-cycle oscillators is derived, where the orbit of each oscillator can deform largely depending on the strong parametric coupling. We extend the phase reduction theory for strongly perturbed limit-cycle oscillators and develop an approximate self-consistency analysis to obtain a reduced description of the oscillator dynamics using only the phase variables of the oscillators. Numerical simulations show that the proposed phase equation improves the accuracy to predict the dynamics of strongly coupled oscillators over the conventional description

Effect of tranexamic acid administration on intraoperative blood loss during peritonectomy: a single-center retrospective observational study

Abstract Background The efficacy of tranexamic acid in elective major invasive abdominal surgeries has not yet been established. We investigated the effect of tranexamic acid administration on intraoperative blood loss during peritoneal resection of pseudomucinoma and cancerous peritoneal dissemination. Methods Patients aged ≥ 20 years old who underwent peritoneal resection for pseudomucinoma or cancerous peritoneal dissemination at the Kishiwada Tokushukai Hospital were included in this single-center retrospective observational study. The tranexamic acid group received 1000 mg of tranexamic acid at the start of the operation, while the control group received the same intraoperative management as the tranexamic acid group, except for the tranexamic acid administration. The primary endpoint was intraoperative blood loss, and a multivariate analysis of the contributing factors was performed. Results The median volume of intraoperative blood loss was 1372 [interquartile range, 842 − 1877] mL and 907 [516 − 1537] mL in the control and tranexamic acid groups, respectively (p < 0.01). The total volume of blood transfusion during the operation was 2040 [1480 − 2380] mL and 1560 [1000 − 2120] mL in the control and tranexamic acid groups, respectively (p = 0.02). Postoperative blood test results revealed D-dimer values of 7.5 [4.1 − 10.7] µg/mL and 1.8 [1.0 − 3.3] µg/mL in the control and tranexamic acid groups, respectively (p < 0.01). Multivariate analysis showed that tranexamic acid administration was significantly associated with decreased intraoperative blood loss (p = 0.02). Conclusion Tranexamic acid administration may be useful in reducing intraoperative blood loss and blood transfusion volume during highly-invasive surgeries such as peritoneal resection of pseudomucinoma and cancerous peritoneal dissemination