Effects of Task Requirements on Choice of Upper Extremity Use in Subjects Chronic Post-stroke

Purpose: To explore how task requirements influence reaching in people post-stroke. Subjects: Eleven subjects chronic post-stroke with mild to moderate stroke severity Methods: Participants performed sitting reaching tasks under six conditions: object size (small or large), object location (Right or Left) and speed (slow or fast). Subjects were not instructed how to reach. The number of hands used, arm choice (paretic (P) or nonparetic (NP)), and if they reached contralaterally were recorded. Qualitative self-efficacy data was also collected. Data Analysis: A general estimating equation model was used to calculate odds ratios, controlling for side of weakness and hand dominance. Descriptive statistics were run and qualitative comments reviewed for trends. Results: All reaches were one-handed. Speed and object size were significantly associated with NP UE use (p = 0.002 and p = 0.03 respectively). The odds of using the paretic UE were 10.4 times lower (95% CI: 2.3 - 46.9) for the fast speed and 2.4 times lower (95% CI: 1.1 - 5.4) for the large size. Subjects only reached contralaterally with their NP UE (36.7% of time). Conclusions: Subjects chronic post-stroke with mild/moderate severity use their P UE less to reach for objects that are larger and when reaching faster.https://engagedscholarship.csuohio.edu/u_poster_2017/1025/thumbnail.jp

Volatility Impact of Stock Index Futures Trading - A Revised Analysis

The recent financial crisis renewed concerns about a possible destabilizing impact of derivatives trading. Despite a very active research, the question whether or not derivatives tend to destabilize financial markets has not yet been answered to satisfaction. This contribution aims to revise the robustness of recent empirical findings and to remedy some methodological shortcomings of earlier studies. Acknowledging their practical relevance, we focus on futures and examine the volatility impact of DAX futures trading. Our results confirm a volatility-reducing impact of DAX futures trading, whereas the observed deterioration of the fundamental price building process proved to be statistically insignificant

Air breathing cathodes for Microbial Fuel Cell using Mn-, Fe-, Co- and Ni-containing platinum group metal-free catalysts

The oxygen reduction reaction (ORR) is one of the major factors that is limiting the overall performance output of microbial fuel cells (MFC). In this study, Platinum Group Metal-free (PGM-free) ORR catalysts based on Fe, Co, Ni, Mn and the same precursor (Aminoantipyrine, AAPyr) were synthesized using identical sacrificial support method (SSM). The catalysts were investigated for their electrochemical performance, and then integrated into an air-breathing cathode to be tested in “clean” environment and in a working microbial fuel cell (MFC). Their performances were also compared to activated carbon (AC) based cathode under similar conditions. Results showed that the addition of Mn, Fe, Co and Ni to AAPyr increased the performances compared to AC. Fe-AAPyr showed the highest open circuit potential (OCP) that was 0.307 ! 0.001 V (vs. Ag/AgCl) and the highest electrocatalytic activity at pH 7.5. On the contrary, AC had an OCP of 0.203 ! 0.002 V (vs. Ag/AgCl) and had the lowest electrochemical activity. In MFC, Fe-AAPyr also had the highest output of 251 ! 2.3 mWcm"2, followed by Co-AAPyr with 196 ! 1.5 mWcm"2, Ni-AAPyr with 171 !3.6 mWcm"2, Mn-AAPyr with 160 ! 2.8 mWcm"2 and AC 129 ! 4.2 mWcm"2. The best performing catalyst (Fe-AAPyr) was then tested in MFC with increasing solution conductivity from 12.4 mScm"1 to 63.1 mScm"1. A maximum power density of 482 ! 5 mWcm"2 was obtained with increasing solution conductivity, which is one of the highest values reported in the field

Volatility Impact of Stock Index Futures Trading - A Revised Analysis

The recent financial crisis renewed concerns about a possible destabilizing impact of derivatives trading. Despite a very active research, the question whether or not derivatives tend to destabilize financial markets has not yet been answered to satisfaction. This contribution aims to revise the robustness of recent empirical findings and to remedy some methodological shortcomings of earlier studies. Acknowledging their practical relevance, we focus on futures and examine the volatility impact of DAX futures trading. Our results confirm a volatility-reducing impact of DAX futures trading, whereas the observed deterioration of the fundamental price building process proved to be statistically insignificant

Air Breathing Cathodes for Microbial Fuel Cell using Mn-, Fe-, Co- and Ni-containing Platinum Group Metal-free Catalysts

© 2017 The Authors The oxygen reduction reaction (ORR) is one of the major factors that is limiting the overall performance output of microbial fuel cells (MFC). In this study, Platinum Group Metal-free (PGM-free) ORR catalysts based on Fe, Co, Ni, Mn and the same precursor (Aminoantipyrine, AAPyr) were synthesized using identical sacrificial support method (SSM). The catalysts were investigated for their electrochemical performance, and then integrated into an air-breathing cathode to be tested in “clean” environment and in a working microbial fuel cell (MFC). Their performances were also compared to activated carbon (AC) based cathode under similar conditions. Results showed that the addition of Mn, Fe, Co and Ni to AAPyr increased the performances compared to AC. Fe-AAPyr showed the highest open circuit potential (OCP) that was 0.307±0.001V (vs. Ag/AgCl) and the highest electrocatalytic activity at pH 7.5. On the contrary, AC had an OCP of 0.203±0.002V (vs. Ag/AgCl) and had the lowest electrochemical activity. In MFC, Fe-AAPyr also had the highest output of 251±2.3μWcm−2, followed by Co-AAPyr with 196±1.5μWcm−2, Ni-AAPyr with 171±3.6μWcm−2, Mn-AAPyr with 160±2.8μWcm−2and AC 129±4.2μWcm−2. The best performing catalyst (Fe-AAPyr) was then tested in MFC with increasing solution conductivity from 12.4 mScm−1to 63.1 mScm−1. A maximum power density of 482±5μWcm−2was obtained with increasing solution conductivity, which is one of the highest values reported in the field

Leader Behaviors as Mediators of the Leader Characteristics - Follower Satisfaction Relationship

This is the author accepted manuscript. The final version is available from SAGE Publications via the DOI in this record.This study examined two potential mediators through which leaders transmit their position power into an effectiveness outcome. Drawing upon recent work integrating trait, situational, and behavioral theories of leadership effectiveness, we hypothesized and tested a model specifying that the interactive effects of leader position power and leader political skill on follower satisfaction would be mediated by followers’ perceptions of leaders’ initiating structure and consideration behaviors. Specifically, this model indicates that leaders who are both in powerful positions and politically skilled are perceived to initiate more structure and demonstrate more consideration for their followers than their nonpolitically skilled counterparts, which, in turn, positively impacts followers’ satisfaction (i.e., an indication of subjective leadership effectiveness). Utilizing 190 leaders and 476 followers, we found support for the hypothesized model. Contributions to various literatures, strengths, limitations, and practical implications are discussed

Inhibitor-resistant TEM- and OXA-1-producing Escherichia coli isolates resistant to amoxicillin-clavulanate are more clonal and possess lower virulence gene content than susceptible clinical isolates

In a previous prospective multicenter study in Spain, we found that OXA-1 and inhibitor-resistant TEM (IRT) β-lactamases constitute the most common plasmid-borne mechanisms of genuine amoxicillin-clavulanate (AMC) resistance in Escherichia coli. In the present study, we investigated the population structure and virulence traits of clinical AMC-resistant E. coli strains expressing OXA-1 or IRT and compared these traits to those in a control group of clinical AMC-susceptible E. coli isolates. All OXA-1-producing (n = 67) and IRT-producing (n = 45) isolates were matched by geographical and temporal origin to the AMC-susceptible control set (n = 56). We performed multilocus sequence typing and phylogenetic group characterization for each isolate and then studied the isolates for the presence of 49 virulence factors (VFs) by PCR and sequencing. The most prevalent clone detected was distinct for each group: group C isolates of sequence type (ST) 88 (C/ST88) were the most common in OXA-1 producers, B2/ST131 isolates were the most common in IRT producers, and B2/ST73 isolates were the most common in AMC-susceptible isolates. The median numbers of isolates per ST were 3.72 in OXA-1 producers, 2.04 in IRT producers, and 1.69 in AMC-susceptible isolates; the proportions of STs represented by one unique isolate in each group were 19.4%, 31.1%, and 48.2%, respectively. The sum of all VFs detected, calculated as a virulence score, was significantly higher in AMC-susceptible isolates than OXA-1 and IRT producers (means, 12.5 versus 8.3 and 8.2, respectively). Our findings suggest that IRT- and OXA-1-producing E. coli isolates resistant to AMC have a different and less diverse population structure than AMC-susceptible clinical E. coli isolates. The AMC-susceptible population also contains more VFs than AMC-resistant isolates

Influence of platinum group metal-free catalyst synthesis on microbial fuel cell performance

© 2017 The Authors Platinum group metal-free (PGM-free) ORR catalysts from the Fe-N-C family were synthesized using sacrificial support method (SSM) technique. Six experimental steps were used during the synthesis: 1) mixing the precursor, the metal salt, and the silica template; 2) first pyrolysis in hydrogen rich atmosphere; 3) ball milling; 4) etching the silica template using harsh acids environment; 5) the second pyrolysis in ammonia rich atmosphere; 6) final ball milling. Three independent batches were fabricated following the same procedure. The effect of each synthetic parameters on the surface chemistry and the electrocatalytic performance in neutral media was studied. Rotating ring disk electrode (RRDE) experiment showed an increase in half wave potential and limiting current after the pyrolysis steps. The additional improvement was observed after etching and performing the second pyrolysis. A similar trend was seen in microbial fuel cells (MFCs), in which the power output increased from 167 ± 2 μW cm−2 to 214 ± 5 μW cm−2. X-ray Photoelectron Spectroscopy (XPS) was used to evaluate surface chemistry of catalysts obtained after each synthetic step. The changes in chemical composition were directly correlated with the improvements in performance. We report outstanding reproducibility in both composition and performance among the three different batches