Objective To explore if any rules in electrocardiogram changes after transcatheter closure of perimembranous ventricular septal defects ( PMVSD ) . Methods We included all the 358 patients who have accepted transcatheter closure of PMVSD in our hospital between July 2006 to October 2014 and the electrocardiogram (ECG) done in hospital and during follow up in 1,3, 6 and 12 months after operation were all reviewed. Results No changes were found in heart rates and electrical axis during follow-up as compared to preclosure ECG. PR interval was shorter, the QRS duration and QT interval were longer than preclosure. Incidence rate of arrhythmia was 38. 0% ( 136/358 ) and incidence rate of serious arrhythmias ( including Ⅱ° or Ⅲ° atrioventricular block and complete left bundle branch block) was 5. 0%(18/358). Among the 180 patients who had ECG done in all follow up between the first 12 months post closure, the rates of new developed arrhythmias was 12. 8% ( 23/180 ) and severe arrhythmia was 0. 6%(1/180) during follow-up. Conclusions Incidence rate of serious arrhythmias after transcatheter closure of PMVSD is low and most patients have good clinical outcome.

Objective To evaluate the difference in coronary microcirculation and short term prognosis in patients with different collateral circulation and underwent elective percutaneous coronary intervention ( PCI) with complete occlusion of coronary artery. Methods The study included 42 patients who had been admitted in our hospital for NSTEMI or STEMI between 01/2012 to 12/2015 without receiving revascularization treatment and whose symptoms persisted for over 6 months. According to the results of coronary angiography and the Rentrop grade, the patients were divided into 2 groups: poor collateral circulation formation group (group A, Rentrop=0 -1, n=17) and well established collateral circulation group (group B, Rentrop=2-3, n=25). The basic clinical data and the result of coronary angiography were compared. A pressure-temperature sensor wire was used to measure index of mierocirculatory resistance ( IMR) immediately after PCI. An echocardiograph was used to measure left ventricular end systolic diameter ( LVEDd) and left ventricular ejection fraction ( LVEF) postoperatively and again at 3 months after operation to evaluate the changes in cardiac function. Results The IMR value of group A was significantly higher than group B (P﹤0. 05), the grade of collateral circulation had negative correlation with IMR value (r=-0. 671, P﹤0. 05). The mean changes in LVEDd in 3 months in group B was -0. 28 mm, while in group A was 5. 76 mm (P﹤0. 05). The mean changes in LVEF in 3 mouths in group B was 5. 36% and in group A was -3. 82% (P﹤0. 05). The grading of coronary collateral circulation had negative correlation with the changes of LVEDd in 3 months (r= -0. 669, P﹤0. 05), but had positive correlation with the changes of LVEF (r=0. 657, P ﹤0. 05). The IMR value had positive correlation with the changes of LVEDd in 3 months (r=0. 686, P﹤0. 05), but had negative correlation with the changes of the LVEF (r= -0. 664, P﹤ 0. 05 ) . Conclusions Patients with poor collateral circulation was more prone to coronary microcirculatory injury than patients with good collateral circulation. Patients with good collateral circulation and microcirculation had better prognosis after the revascularization of the infarction-related vessel.

The objective of the study was to clone avian beta-defensin (AvBD) 5 gene from pigeon bone marrow tissues and liver tissues, to express the recombinant AvBD5 protein in E. coli, and to determine its antimicrobial activity. The mRNA of duck AvBD5 was cloned from pigeon bone marrow tissues and liver tissues by RT-PCR. In addition, phylogenetic relationships between amino acid sequence of the pigeon AvBD5, AvBDs from other avian species, and some mammalian beta-defensin-5 were analyzed. The cDNA of pigeon AvBD5 was sub-cloned into pGEX-6p-1 vector to construct recombinant plasmid pGEX-pigeon AvBD5. The recombinant protein was expressed into E. coli and purified. Antimicrobial activity and physical-chemical stability of the recombinant fusion protein were measured in vitro. The complete nucleotide sequence of both cDNAs contained 201 bp nucleotides, encoding a polypeptide of 66 amino acids. Both beta-defensins have six conserved cysteines. Phylogenetic relationships were analyzed. Both pigeon AvBDs shared the highest amino acid homology (87.9% and 78.8%) with duck AvBD5. So it was named as pigeon AvBD5alpha (bone marrow) and AvBD5beta (liver). Both recombinant plasmids were transformed into E. coli BL21 and the bacteria were induced with Isopropyl beta-D-1-Thiogalactopyranoside (IPTG). After purification, antibacterial activity of the purified was investigated. In addition, effect of ionic strength on the antibacterial activity, and hemolytic recombinant protein activity of the purified recombinant protein were investigated. A 32 kDa protein was highly expressed. Both purified recombinant pigeon AvBD5alpha and AvBD5beta exhibited extensive antimicrobial activities against 12 bacteria, including Gram-positive and Gram-negative. In high salt ions concentrations, antibacterial activity of both recombinant proteins was decreased. In addition, the hemolysis activity of recombinant protein was extremely low.
Amino Acid Sequence ; Animals ; Anti-Infective Agents ; metabolism ; pharmacology ; Avian Proteins ; biosynthesis ; genetics ; pharmacology ; Cloning, Molecular ; Columbidae ; genetics ; Escherichia coli ; genetics ; metabolism ; Molecular Sequence Data ; Recombinant Proteins ; biosynthesis ; genetics ; pharmacology ; beta-Defensins ; biosynthesis ; genetics ; pharmacology

Mechanical ventilation has, since its introduction into clinical practice, undergone a major evolution from controlled ventilation to diverse modes of assisted ventilation. Conventional mechanical ventilators depend on flow sensors and pneumatic pressure and controllers to complete the respiratory cycle. Neurally adjusted ventilatory assist (NAVA) is a new form of assisted ventilation in recent years, which monitors the electrical activity of the diaphragm (EAdi) to provide an appropriately level of pressure support. And EAdi is the best available signal to sense central respiratory drive and trigger ventilatory assist. Unlike other ventilation modes, NAVA breathing instructions come from the center. Therefore, NAVA have the synchronous nature of the breaths and the patient-adjusted nature of the support. Compared with traditional ventilation mode, NAVA can efficiently unload respiratory muscles, relieve the risk of ventilator-induced lung injury (VILI), improve patient-ventilator coordination, enhance gas exchange, increase the success rate of weaning, etc. This article reviews the research progress of NAVA in order to provide theoretical guidance for clinical applications.
Humans ; Interactive Ventilatory Support ; Respiration, Artificial ; Positive-Pressure Respiration ; Diaphragm/physiology* ; Respiratory Muscles/physiology*

Chronic cerebral hypoperfusion leads to white matter injury (WMI), which subsequently causes neurodegeneration and even cognitive impairment. However, due to the lack of treatment specifically for WMI, novel recognized and effective therapeutic strategies are urgently needed. In this study, we found that honokiol and magnolol, two compounds derived from Magnolia officinalis, significantly facilitated the differentiation of primary oligodendrocyte precursor cells (OPCs) into mature oligodendrocytes, with a more prominent effect of the former compound. Moreover, our results demonstrated that honokiol treatment improved myelin injury, induced mature oligodendrocyte protein expression, attenuated cognitive decline, promoted oligodendrocyte regeneration, and inhibited astrocytic activation in the bilateral carotid artery stenosis model. Mechanistically, honokiol increased the phosphorylation of serine/threonine kinase (Akt) and mammalian target of rapamycin (mTOR) by activating cannabinoid receptor 1 during OPC differentiation. Collectively, our study indicates that honokiol might serve as a potential treatment for WMI in chronic cerebral ischemia.
Magnolia ; White Matter ; Brain Ischemia/metabolism* ; Oligodendroglia/metabolism*