ObjectiveTo clarify the characteristics and clinical signiifcance of the NOTCH1 mutations in childhood T-cell acute lymphoblastic leukemia (T-ALL).MethodsAmplify and sequence the heterodimerization (HD) domain and the pro-line-glutamicacid-serine-threonine (PEST) domain of theNOTCH1 gene in 28 T-ALL children, in order to explore the frequency, position and type of the mutations as well as their reletions with prognosis.ResultsIn 28 children with T-ALL, 15 cases (51.57%) had been identiifed theNOTCH1 mutations, all of which were heterozygous mutations. The lymphoblast counts in peripher-al blood and bone marrow in theNOTCH1 mutant group at admission were signiifcantly higher than in the non-mutant group (P<0.05). The 1-year remission rate in the 28 children with T-ALL was 75% (21/28), including 80% (12/15) in mutant group in which 3 patients relapsed and all of them died (1-year mortality 20%) and 69.20% (9/13) in non-mutant group in which 4 patients relapsed but all survived (1-year mortality 0%).ConclusionsThe children with T-ALL had a high incidence of NOTCH1 mu-tations at various sites. In addition, the patients withNOTCH1 mutations had more severe disease at diagnosis, better short-term prognosis and poor outcome with salvage therapy after relapse.

Objective To evaluate the effect of continuous glucose monitoring system(CGMS) in improving the current status of type 1 diabetes mellitus(T1DM) control and reducing the economic burden of the patients.Methods One hundred and fifteen patients with T1DM were randomly assigned to the CGMS group and the self-monitoring of blood glucose(SMBG) group respectively.The patients in CGMS group were on 72 h CGMS every 6 months, while SMBG group only with SMBG to guide the insulin dose adjustment.The levels of blood glucose and the statistics of the number of hypoglycemia and diabetic ketoacidosis were taken as the main observational indexes every 6 months.The chronic complication and the statistics of the number of hospitalizations and the total cost of treatment were made as the secondary observational index every 12 months.Results 2 h postprandial plasma glucose(2hPG) and mean blood glucose(MBG) in the CGMS group were lower than those in the SMBG group [(10.7±1.9 vs 11.5±2.7) mmol/L, (9.7±0.5 vs 10.6±0.7) mmol/L, P<0.05] in the clinical follow-up visit after 6 months.The per capita number of hypoglycaemia in the CGMS group was lower than that in the SMBG group[(7.9±2.6 vs 9.2±3.4) times, P<0.05].In the outpatient follow-up re-visit to the patients after 6 months, fasting plasma glucose(FPG), 2hPG, MBG, and HbA1C of the patients in the CGMS group were lower than those in the SMBG group(t=4.71~9.75, P<0.05), the per capita numbers of hypoglycemia and DKA in the CGMS group were lower than those in the SMBG group(t=3.61~4.37, P<0.05).Conclusion The application of real-time continuous glucose monitoring in T1DM outpatient management may reduce the whole-day blood glucose of the patients, decrease the incidence risk of hypoglycemia, and improve the compliance of the treatment while without increasing the economic burden of the disease.

Maintaining the stemness of the transplanted stem cell spheroids in an inflammatory microenvironment is challenging but important in regenerative medicine. Direct delivery of stem cells to repair periodontal defects may yield suboptimal effects due to the complexity of the periodontal inflammatory environment. Herein, stem cell spheroid is encapsulated by interfacial assembly of metal-phenolic network (MPN) nanofilm to form a stem cell microsphere capsule. Specifically, periodontal ligament stem cells (PDLSCs) spheroid was coated with Fe^III/tannic acid coordination network to obtain spheroid@[Fe^III-TA] microcapsules. The formed biodegradable MPN biointerface acted as a cytoprotective barrier and exhibited antioxidative, antibacterial and anti-inflammatory activities, effectively remodeling the inflammatory microenvironment and maintaining the stemness of PDLSCs. The stem cell microencapsulation proposed in this study can be applied to multiple stem cells with various functional metal ion/polyphenol coordination, providing a simple yet efficient delivery strategy for stem cell stemness maintenance in an inflammatory environment toward a better therapeutic outcome.
Anti-Bacterial Agents/pharmacology* ; Capsules/pharmacology* ; Cell Differentiation ; Cell Encapsulation ; Cells, Cultured ; Ferric Compounds/pharmacology* ; Osteogenesis/physiology* ; Periodontal Ligament ; Polyphenols/pharmacology* ; Stem Cells ; Tannins/pharmacology*