To solve the problem that mostly gait analysis is independent from the treatment, this work proposes a system that integrates the functions of gait training and assessment for foot drop treatment. The system uses a set of sensors to collect gait parameters and designes multi-mode functional electrical stimulators as actuator. Body area network technology is introduced to coordinate the data communication and execution of the sensors and stimulators, synchronize the gait analysis and foot drop treatment. Bluetooth 4.0 is applied to low the power consumption of the system. The system realizes the synchronization of treatment and gait analysis. It is able to acquire and analyze the dynamic parameters of ankle, knee and hip in real-time, and treat patients by guiding functional electrical stimulation delivery to the specific body locations of patients.
Electric Stimulation ; Electric Stimulation Therapy ; Exercise Therapy ; Gait ; Humans ; Wireless Technology

ObjectiveTo explore the relation of heart rate variability (HRV) in neonatal asphyxia with myocardial injury.MethodsContinuous electrocardiographic monitoring by 24-hour Holter recordings was performed in 53 neonates with asphyxia and 40 healthy newborn.The difference of HRV with sinus rhythm was analyzed.Time-domain indexs included standard deviation of R-R intervals (SDNN) ; standard deviation of all mean 5-minute R-R intervals (SDANN) ;standard deviation of all R-R intervals for all 5-minute segments of 24 hours (SDNNindex ) ;root mean squared successive difference (rMSSD) ;percent of NN50 in the total number R-R intervals ( PNN50 ).Results( 1 ) Maximum heart rate,minimum heart rate and average heart rate of 24-hour Holter in healthy newborn were faster than those in newborn with neonatal asphyxia ( P ＜ 0.05 ).And the heart rate was faster in newborn with mild neonatal asphyxia than that in newborn with serious neonatal asphyxia ( P ＜ 0.05 ).(2) SDNN,SDANN of HRV index analysis showed significantly difference between healthy newborn and asphyxia newhom ( P ＜ 0.05 ).There were no difference of SDNN,SDANN,SDNNindex,rMSSD and PNN50 between mild and serious neonatal asphyxia (P ＞ 0.05 ).No significant differences of SDNNindex,rMSSD and PNN50 were found among three groups.ConclusionMyocardial injury caused by neonatal asphyxia can lead to damage of cardiac autonomic nevous and affect heart rate changes.The degree of myocardial injury is related to the degree of neonatal asphyxia.

Objective To evaluate the clinical value of emergency bedside-echocardiography in neonatal intensive care unit.Methods Six hundred and sixty-eight infants with cardiac pathological murmurs,cyanosis and shortness of breath were detected by emergency bedside echocardiography (Sonosite Micromax 1 portable ultrasound or Philips iE33 ultrasonic systems) during January 2007 to July 2011.The accuracy of emergency bedside-echocardiography in the diagnosis of neonatal heart diseases was evaluated according to the results of surgical exploration.Results Among 668 enrolled neonates with the mean age of (7.2±1.3) d,there were 347 males and 321 females,and 309 term infants [mean gestational age (39.1±0.6) weeks (37.0～42.1 weeks)] and 359 premature infants [mean gestational age (33.7±0.91) weeks (28.9～36.9 weeks)].Totally,507 cases were found cardiac abnormality by emergency bedside-echocardiography,including 268 cases of patent ductus arteriosus (232 premature and 36 term infants),115 congenital heart disease,99 persistent fetal circulation and 25 arrythmia.Surgeries were performed on 54 infants and invasive therapy was performed on one infant,and none of them received CT,magnetic resonance imaging or invasive examinations before operation; among which,51 surgeries successed and 4 infants died.Other 452 infants were treated with medications,392 infants recovered and discharged,26 infants did not recover,14 cases died and 20 cases left the hospital before recovery.The accuracy rate of Micromax 1 portable ultrasound in diagnosing congenital heart diseases was 94.5％ (52/55),while 96.4 ％ (53/55) for philips iE33 ultrasonic systems.Conclusions Emergency bedside-echocardiography could provide instant and valuable information of cardiovascular system,which would be helpful in making quick clinical decisions.

To solve the problem that mostly gait analysis is independent from the treatment, this work proposes a system that integrates the functions of gait training and assessment for foot drop treatment. The system uses a set of sensors to col ect gait parameters and designes multi-mode functional electrical stimulators as actuator. Body area network technology is introduced to coordinate the data communication and execution of the sensors and stimulators, synchronize the gait analysis and foot drop treatment. Bluetooth 4.0 is applied to low the power consumption of the system. The system realizes the synchronization of treatment and gait analysis. It is able to acquire and analyze the dynamic parameters of ankle, knee and hip in real-time, and treat patients by guiding functional electrical stimulation delivery to the specific body locations of patients.

The surface properties of biomaterials are essentially important to their biocompatibility. The complexity of surface composition and structure of biomaterials bring out the problem that it is difficult to make fully clear how the surface chemical properties and the structures of biomaterials control the biological reactions between the surfaces and proteins and/or cells. The structure of self-assembled monolayers (SAMs) is well established and SAMs have the characteristics of which a variety of functional groups and molecules can be introduced, either before or after the monolayer is formed, and diversified spectroscopy monitoring can be used to characterize SAMs and changes after their interactions with proteins or cells. Thus, SAMs are suitable model substrates for the study of the relationship between the surface chemical properties and biocompatibility of biomaterials. This paper reviews the researches on SAMs as models to study the absorption of proteins, cell adhesion and proliferation on materials, and the influences of both surface chemical functional groups and motion of molecular chains on hemocompatibility of biomaterials.
Adsorption ; Biocompatible Materials ; chemistry ; Cell Adhesion ; Cell Proliferation ; Humans ; Membranes, Artificial ; Models, Biological ; Protein Binding ; Surface Properties

Objective: To screen and identify the mutations in Kawasaki disease by targeted enrichment of genomic region sequencing technique and investigate susceptibility genes associated with coronary artery lesion. Method: This was a case-control study.A total of 114 patients diagnosed as Kawasaki disease treated in Shanghai Children′s Hospital between December 2015 and November 2016 were studied and another 45 healthy children who were physically examined in outpatient department were enrolled as control group. Patients were divided into two groups based on the results of echocardiogram. Peripheral venous blood was obtained from patients and controls. Genomic DNA was extracted. SeqCap EZ Choice libraries were prepared by targeted enrichment of genomic region technology. Then the libraries were sequenced to identify susceptibility genes associated with coronary artery lesion in patients diagnosed as Kawasaki disease.Susceptible genes were identified by Burden test, Pearson chi-square test or Fisher′s exact probability test. Result: There was statistically significant difference in TNFRSF11B(rs2073618)G>C(p.N3K)mutation and GG/GC/CC genotype between Kawasaki disease group and control group(χ²=15.52, P=0.00). There was statistically significant difference in TNFRSF13B(rs34562254)C>T(p.P251L)mutation(χ²=10.40, P=0.01)and LEFTY1(rs360057)T>G(p.D322A)mutation(χ²=8.505, P=0.01)between patients with coronary artery lesions and those without. Conclusion Targeted enrichment of genomic region sequencing technology can be used to do primary screening for the susceptible genes associated with coronary artery lesions in Chinese Kawasaki patients and may provide theoretical basis for larger sample investigation of risk prediction score standard in Kawasaki disease.

Objective To evaluate the effect of different kind of intravenous immunoglobulin (IVIG) therapy in treating Kawasaki disease (KD) and preventing cardiac consequences (coronary artery lesion, CAL). Methods A questionnaire form and guideline for KD diagnosis were sent to 50 hospitals providing pediatric medical care in Shanghai. The data from a total of 1 682 KD patients were collected. It included 1 064 males and 618 females from 1998 through 2008 in Shanghai. The average age of the KD patients was (2.57±2.33) years old (0.1-18.8 years).The patients had been divided into 6 groups for different IVIG therapy, which included 1 g/kg once, 2 g/kg once, 0.4-0.5 g/kg five times, 1 g/kg twice, 2 g/kg twice and others. SAS 6.12 software was used for statistical analysis. Results In all KD patients, the patients treated with IV1G in 5th-10th day of illness has the least cardiac complication and CAL incidence and the group with IVIG therapy of 1 g/kg twice also has the least cardiac complication and CAL incidence. Conclusions The best doses of IVIG in treating KD is 1 g/kg twice and the IVIG therapy should be used in 5th-10th day of KD illness.

China prospective multicenter birth cohort (Prospective Omics Health Atlas birth cohort, POHA birth cohort) study was officially launched in 2022. This study, in collaboration with 12 participating units, aims to establish a high-quality, multidimensional cohort comprising 20 000 naturally conceived families and assisted reproductive families. The study involves long-term follow-up of parents and offspring, with corresponding biological samples collected at key time points. Through multi-omics testing and analysis, the study aims to conduct multi-omics big data research across the entire maternal and infant life cycle. The goal is to identify new biomarkers for maternal and infant diseases and provide scientific evidence for risk prediction related to maternal diseases and neonatal health.