Non-linear stimulus-response behavior of the human stance control system is predicted by optimization of a system with sensory and motor noise

We developed a theory of human stance control that predicted (1) how subjects re-weight their utilization of proprioceptive and graviceptive orientation information in experiments where eyes closed stance was perturbed by surface-tilt stimuli with different amplitudes, (2) the experimentally observed increase in body sway variability (i.e. the “remnant” body sway that could not be attributed to the stimulus) with increasing surface-tilt amplitude, (3) neural controller feedback gains that determine the amount of corrective torque generated in relation to sensory cues signaling body orientation, and (4) the magnitude and structure of spontaneous body sway. Responses to surface-tilt perturbations with different amplitudes were interpreted using a feedback control model to determine control parameters and changes in these parameters with stimulus amplitude. Different combinations of internal sensory and/or motor noise sources were added to the model to identify the properties of noise sources that were able to account for the experimental remnant sway characteristics. Various behavioral criteria were investigated to determine if optimization of these criteria could predict the identified model parameters and amplitude-dependent parameter changes. Robust findings were that remnant sway characteristics were best predicted by models that included both sensory and motor noise, the graviceptive noise magnitude was about ten times larger than the proprioceptive noise, and noise sources with signal-dependent properties provided better explanations of remnant sway. Overall results indicate that humans dynamically weight sensory system contributions to stance control and tune their corrective responses to minimize the energetic effects of sensory noise and external stimuli

BMI, Diet and Female Reproductive Factors as Risks for Thyroid Cancer: A Systematic Review

Background: Thyroid cancer incidence rates have been increasing worldwide but the reason behind this is unclear. Both the increasing use of diagnostic technologies allowing the detection of thyroid cancer and a true increase in thyroid cancer incidence have been proposed. This review assesses the role of body mass index (BMI), diet, and reproductive factors on the thyroid cancer trend. Methods: Epidemiologic studies of the selected risk factors up to June 2010 were reviewed and critically assessed. Results: Among the thirty-seven studies reviewed and despite variation in the risk estimates, most papers supported a small but positive association for BMI (risk estimate range: 1.1–2.3 in males and 1.0–7.4 in females.). Among specific dietary components, there was no consistent association of thyroid cancer risk with iodine intake through fortification (risk estimate range: 0.49–1.6) or fish consumption (risk estimate range 0.6–2.2), nor with diets high in cruciferous vegetables (risk estimate range 0.6–1.9). A small number of studies showed a consistent protective effect of diets high in non-cruciferous vegetable (risk estimate range: 0.71–0.92). Among reproductive factors (pregnancy, parity, number of live births, use of prescription hormones, menstrual cycle regularity, and menopausal status), none were consistently associated with higher thyroid cancer risk. Conclusions: BMI had the strongest link to thyroid cancer risk among those examined. Detailed examinations of populationleve

Factors affecting the perception on telecommuters' productivity and performance evaluation in Sri Lankan IT industry

Telecommuting is a work arrangement which is valued by employers as well as employees as a flexibility enabler for both parties. It facilitates flexibility in work schedule and location for the employee while allowing the employer to have the flexibility in usage of resources such as spaces and assets. Telecommuting population in the Sri Lankan IT industry is growing rapidly, driven by the increasing number of organizations that embrace it. However, to the best of our knowledge, there is no formal study conducted on the level of acceptance of telecommuting within the Sri Lankan IT industry. This research focuses on finding the perception on telecommuting in the Sri Lankan IT industry. Specifically, it tries to answer the two ground level questions “What are the factors that influence the telecommuters’, non-telecommuters’ and their managers’ perception on telecommuter productivity?” and “What are the factors that influence the telecommuters’, non-telecommuters’ and their managers’ perception on telecommuter performance evaluation?” The study was conducted as a qualitative research based on ‘Grounded Theory’. Perception of the telecommuters, non-telecommuters and managers (representing employers) were gathered through semi-structured interviews. The main focus was on large scale IT organizations. The interview transcripts were analyzed through ‘Open coding’, ‘Axial coding’ and ‘Selective coding’ methods to identify the major factors that affect the perception on productivity and performance evaluation of telecommuters. Six (6) major factors that influence the perception on productivity and three (3) major factors that influence the perception on performance evaluation of the telecommuters were identified through the analysis. Based on the identified factors, we propose two frameworks that model the perception on productivity and performance evaluation of telecommuters. Moreover, the findings reveal that the overall perception on telecommuters’ productivity is positive, while the performance evaluation of telecommuters is perceived to be unbiased

Influence of Stance Width on Frontal Plane Postural Dynamics and Coordination in Human Balance Control

The influence of stance width on frontal plane postural dynamics and coordination in human bipedal stance was studied. We tested the hypothesis that when subjects adopt a narrow stance width, they will rely heavily on nonlinear control strategies and coordinated counter-phase upper and lower body motion to limit center-of-mass (CoM) deviations from upright; as stance increases, the use of these strategies will diminish. Freestanding frontal plane body sway was evoked through continuous pseudorandom rotations of the support surface on which subjects stood with various stimulus amplitudes. Subjects were either eyes open (EO) or closed (EC) and adopted various stance widths. Upper body, lower body, and CoM kinematics were summarized using root-mean-square and peak-to-peak measures, and dynamic behavior was characterized using frequency-response and impulse-response functions. In narrow stance, CoM frequency-response function gains were reduced with increasing stimulus amplitude and in EO compared with EC; in wide stance, gain reductions were much less pronounced. Results show that the narrow stance postural system is nonlinear across stimulus amplitude in both EO and EC conditions, whereas the wide stance postural system is more linear. The nonlinearity in narrow stance is likely caused by an amplitude-dependent sensory reweighting mechanism. Finally, lower body and upper body sway were approximately in-phase at low frequencies (<1 Hz) and out-of-phase at high frequencies (>1 Hz) across all stance widths, and results were therefore inconsistent with the hypothesis that subjects made greater use of coordinated counter-phase upper and lower body motion in narrow compared with wide stance conditions