Objective This study was aimed to evaluate the remote real-time transmission 12-lead electrocardiogram system on door-to-balloon time in patients with ST-segment elevation myocardial infarction.Methods We retrospectively analyzed the consecutive patients with STEM I who had accepted primary percutaneous coronary intervention (PCI) in the chest pain center of our hospital from February 2012 to July 2012.The study group consisted of patients with pre-hospital ECG,while the control group included patients without pre-hospital ECG,Their door-to-balloon time and door-to-catheter room time,mortality w ere compared.Results Totally 60 consecutive patients who had received primary PC I for STEMI were evaluated.Among them,35 patients were hospitalized with pre-hospital ECG while the other 25 patients without ECG.The Pre-hospital ECG was associated with a significautly shorter median door-to-balloon time (38 min vs.94min;P ＜0.01),The proportion of patients received balloon dilation within the guidelinerecommended 90 min timeframes Was significantly higher in pre-hospital ECG group than in non pre-hospital ECG group (94.6％ vs.60％;P =0.001).No difference was observed in mortality between the two groups (5.7％vs.4％;P ＞ 0.05),Significant difference was seen in the median hospital time in study group (5 compared with control group (7day) (5 day vs.7 day;P ＜ 0.01).Conclusions The remote real-time transmission 12-lead electrocardiogram system is associated with a significantly shorter door-to-balloon time in STEMI patients.The remote real-time transmission 12-lead electrocardiogram system is recommended in patients suspected STEMI.

OBJECTIVE:To observe clinical efficacy and safety of Shuxuetong injection combined with alprostadil in the treat-ment of acute cerebral infraction(ACI). METHODS:A total of 123 ACI patients selected from our hospital during Mar. 2014-Sept. 2016 selected as research subjects were divided into observation group (62 cases) and control group (61 cases) according to ran-dom number table. Control group was additionally given Alprostadil injection 2 mL+0.9% Sodium chloride injection 100 mL, ivgtt,qd,on the basis of routine treatment. Observation group was additionally given Shuxuetong injection 6 mL+0.9% Sodium chloride injection 250 mL,ivgtt,qd,on the basis of control group. Both groups were treated for 2 weeks. MPV,FIB content, hemorheology indexes,neurologic impairment degree score before and after treatment as well as clinical efficacy,the occurrence of ADR were compared between 2 groups. RESULTS:Before treatment,there was no statistical significance in MPV,FIB content, hemorheology indexes or neurologic impairment score between 2 groups (P>0.05). Compared with before treatment,MPV,FIB content,hemorheology indexes and modified Rankin scale of 2 groups were all decreased significantly;Barthel index and NIHSS scores were increased significantly,and each aspect of observation group was better than that of control group,with statistical sig-nificance(P<0.05). Total response rate of observation group was 95.16%,which was significantly higher than 85.25% of control group,with statistical significance(P<0.05). No severe ADR was found in 2 groups. CONCLUSIONS:Shuxuetong injection com-bined with alprostadil can significantly improve the neurological function of ACI patients,improve hypercoagulable state by reduc-ing MPV and FIB content,and have good therapeutic efficacy and safety.

Objective To evaluate the pre-hospital diagnostic reliability of real-time tele-transmission of 12-lead electrocardiogram of patients with ST-segment elevated acute myocardial infarction (STEMI).Methods The 12-lead electrocardiogram was simultaneously recorded with real-time tele-transmission system and a conventional electrocardiograph in 40 STEMI cases.The width and amplitude of each wave,the deviated amplitude of ST-segment in the same leads were compared by t-test and rank-sum test.Results There were no statistical differences in the width and amplitude of P wave,QRS wave and t wave as well as the deviated altitude of ST-segment between the two separate electrocardiographs (P ＞0.05).There was a significant positive correlation between the two ECG devices in respect of ST-segment elevated altitude (r =0.912,P =0.000).The differential ability of ST-segment elevation between two separate ECG devices kept highly consistent (Kappa value:0.976).Conclusions Real-time tele-transmission of 12-lead electrocardiogram is reliable for the pre-hospital diagnosis of STEMI.

Based on the in vitro culturing system developed for epithelial cells in mammary gland of Xinong Saanen dairy goats using tissue explant culture, high density cultivation, and continuous passaging, the cultured epithelial cells were evaluated by growth curve fitting, karyotype analysis, immunofluorescence staining (keratin, epithelial membrane antigen (EMA), vimentin, beta-casein), oil red staining and RT-PCR of beta-casein gene. The results showed that the growth of epithelial cells with the model number of chromosome of 60 demonstrated a typical 'S' shape curve, the positive gene expression of keratin, EMA, vimentin and beta-casein was detected, the cytoplasmic lipid droplets were observed following the oil red staining, the cultured cells expressed the mRNA of beta-casein. In conclusion, the current in vitro culturing system can obtain the normal mammary gland epithelial cells with the function of secretion.
Animals ; Cell Separation ; methods ; Cells, Cultured ; Epithelial Cells ; cytology ; Female ; Goats ; Mammary Glands, Animal ; cytology ; Primary Cell Culture ; methods

Leptin, an adipocyte-derived peptide hormone, has been shown to facilitate breathing. However, the central sites and circuit mechanisms underlying the respiratory effects of leptin remain incompletely understood. The present study aimed to address whether neurons expressing leptin receptor b (LepRb) in the nucleus tractus solitarii (NTS) contribute to respiratory control. Both chemogenetic and optogenetic stimulation of LepRb-expressing NTS (NTS^LepRb) neurons notably activated breathing. Moreover, stimulation of NTS^LepRb neurons projecting to the lateral parabrachial nucleus (LPBN) not only remarkably increased basal ventilation to a level similar to that of the stimulation of all NTS^LepRb neurons, but also activated LPBN neurons projecting to the preBötzinger complex (preBötC). By contrast, ablation of NTS^LepRb neurons projecting to the LPBN notably eliminated the enhanced respiratory effect induced by NTS^LepRb neuron stimulation. In brainstem slices, bath application of leptin rapidly depolarized the membrane potential, increased the spontaneous firing rate, and accelerated the Ca²⁺ transients in most NTS^LepRb neurons. Therefore, leptin potentiates breathing in the NTS most likely via an NTS-LPBN-preBötC circuit.
Leptin/pharmacology* ; Membrane Potentials ; Neurons/metabolism* ; Solitary Nucleus/metabolism*

The nucleus tractus solitarii (NTS) is one of the morphologically and functionally defined centers that engage in the autonomic regulation of cardiovascular activity. Phenotypically-characterized NTS neurons have been implicated in the differential regulation of blood pressure (BP). Here, we investigated whether phenylethanolamine N-methyltransferase (PNMT)-expressing NTS (NTS^PNMT) neurons contribute to the control of BP. We demonstrate that photostimulation of NTS^PNMT neurons has variable effects on BP. A depressor response was produced during optogenetic stimulation of NTS^PNMT neurons projecting to the paraventricular nucleus of the hypothalamus, lateral parabrachial nucleus, and caudal ventrolateral medulla. Conversely, photostimulation of NTS^PNMT neurons projecting to the rostral ventrolateral medulla produced a robust pressor response and bradycardia. In addition, genetic ablation of both NTS^PNMT neurons and those projecting to the rostral ventrolateral medulla impaired the arterial baroreflex. Overall, we revealed the neuronal phenotype- and circuit-specific mechanisms underlying the contribution of NTS^PNMT neurons to the regulation of BP.
Solitary Nucleus/metabolism* ; Blood Pressure/physiology* ; Phenylethanolamine N-Methyltransferase/metabolism* ; Neurons/metabolism* ; Paraventricular Hypothalamic Nucleus/metabolism*