br Experimental design materials and methods

Experimental design, materials and methods
Acknowledgements The authors would like to thank Student Research Committee, Abadan University of Medical Sciences for providing financial support for this research (Grant no.: IR.ABADANUMS.REC.1394.8).
Data
Experimental design, materials and methods For microscopies, X-ray diffraction analysis and Raman measurements, the films were grown on glass substrates using a RF-magnetron suturing technique. To characterize the tungsten oxide thin film, atomic force microscopy (AFM) in the contact mode was used. The crystal structure and the phase purchase Atglistatin were then studied using X-ray diffraction spectroscopy (PANalytical X\'pert PRO, with Kα=1.54056Å) and micro-Raman spectroscopy (VG Multilab 2000, Thermo VG Scientific, UK). For the electrochemical properties, the tungsten oxide thin films were grown on the conducting glass substrates. The three-electrode electrochemical cell consists of 1M LiClO4 + PC as the electrolyte, a WO3 electrode as the working electrode, a saturated calomel electrode (SCE) as the reference electrode, and a Pt coil as the counter-electrode.
Data We provide a dataset showing differences in the kinematic and EMG parameters between two underwater dolphin kick trials: swimming freely at maximum effort (Maximum effort) and swimming while synchronizing the kick frequency of maximum effort with the beat of a metronome (Synchronized 100% frequency). No significant differences between the two trials were detected in any kinematic or EMG parameters (Tables 1 and 2 below).
Experimental design, materials and methods Seven collegiate female swimmers (mean±standard deviation (SD): age, 19.0±0.6 years; height, 1.64±0.05m; weight, 56.7±3.3kg) participated in this experiment. The experimental trials consisted of 15m underwater dolphin kick swimming. Firstly, the participants swam freely using the underwater dolphin kick at maximum effort. Secondly, they swam using the underwater dolphin kick while synchronizing the kick frequency of their maximum effort with the beat of a metronome. A rest interval of at least five minutes was set between the two trials. For 2-D motion analysis, video of the sagittal movement was recorded by two cameras at a 100Hz sampling rate. To evaluate muscle activity, the surface EMG of six muscles (rectus abdominis, erector spinae, rectus femoris, biceps femoris, tibialis anterior, and gastrocnemius) were measured using a wireless recorder with an 8-channel EMG logger (Biolog2, S&ME Inc., Japan). From all the collected data, the kinematic and EMG parameters were calculated according to the method described by Yamakawa et al. [1]. All data are reported as the mean and standard deviation (Mean±SD). Statistical analyses were conducted using BellCurve for Excel (SSRI Inc., Tokyo, Japan). The normality of all data was confirmed using the Shapiro-Wilk test. A paired t-test was used to compare the kinematic and EMG parameter data between the two conditions. The statistical significance level was set at 5% in this work (P<0.05).
Data The data for this paper were obtained from Yaba psychiatry hospital, Yaba, Lagos state, Nigeria, being the medical records of 500 psychotic patients for a period of five years between January 2010 and December 2014. The data are 16 variables classified as demographic variables (gender, age, marital status, occupation and religion); family problems/ issues (history of ailment in the family, loss of parents, family hereditary of the ailment, head injury, spiritual consultation, and divorce); and medical test result for five psychotic disorder indicators (bipolar, vascular dementia, minimal brain dysfunction, insomnia, and schizophrenia). The data can be accessed as Supplementary data. Definition
Methods and materials Several studies have been conducted on the psychotic disorder ailments. [1–28]. Similar data articles on medicine that applied statistical tools can be helpful, readers are refer to [29–40].