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String theory for dummies
Explains the basics of string theory, its hypotheses and predictions, and its curious implications.
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New and Enduring Dual Structures of Employment in Japan: The Rise of Non-Regular Labor, 1980s-2010s
A steady rise in what is called 'non-regular employment' is the most notable change in Japanese working life since at least the 1980s. Such workers accounted for nearly 40% of all employees by 2015.This paper focuses on the results of the turn to non-regular employment and identifies its distinctive aspects in the context of a long history of various forms of precarious employment. A historical perspective shows that newer forms of second-tier status, including some that can be termed 'non-regular regular' employment, have come to overlay continuing older ones. Important new elements include not only a far greater absolute and relative number of non-regular workers but also their far greater presence in the service sector.In addition, today's nonregular workers differ in social characteristics such as age, education, and gender.The relative decline of social movements is a notable impediment in seeking reform, while the move away from seeing gender as a natural axis of differentiation offers some potential for addressing the issue.
Journal Article
To constrain or not to constrain, and other stories of intensive upper extremity training for children with unilateral cerebral palsy
Impaired hand function is among the most functionally disabling symptoms of unilateral cerebral palsy. Evidence‐based treatment approaches are generally lacking. However, recent approaches providing intensive upper extremity training appear promising. In this review, we first describe two such approaches, constraint‐induced movement therapy (CIMT) and bimanual training (hand–arm bimanual intensive therapy). We then summarize findings across more than 100 participants in our CIMT/bimanual training studies since 1997. We show that (1) at high intensities, CIMT and bimanual training improve dexterity and bimanual upper extremity use; (2) bimanual training may allow direct practice of functionally meaningful goals, and such practice may transfer to unpracticed goals and improve bimanual coordination; (3) 90 hours of CIMT and bimanual training leads to greater improvements than 60 hours of the same treatments; (4) higher doses may be required for bimanual training; (5) increased dosing frequency and shaping may be needed for older children; and (6) combined CIMT/bimanual approaches may be useful, but require sufficient intensity. Together these findings suggest that dosage (treatment amount and frequency), more so than ingredients, may well be the key to successful training protocols, especially for older children. Such rehabilitation efforts should be ‘child‐friendly’, and as least invasive as possible, especially because these approaches may be provided throughout development.
Journal Article
Measurement of Glutathione as a Tool for Oxidative Stress Studies by High Performance Liquid Chromatography
Background: Maintenance of the ratio of glutathione in the reduced (GSH) and oxidised (GSSG) state in cells is important in redox control, signal transduction and gene regulation, factors that are altered in many diseases. The accurate and reliable determination of GSH and GSSG simultaneously is a useful tool for oxidative stress determination. Measurement is limited primarily to the underestimation of GSH and overestimation GSSG as a result of auto-oxidation of GSH. The aim of this study was to overcome this limitation and develop, optimise and validate a reverse-phase high performance liquid chromatographic (HPLC) assay of GSH and GSSG for the determination of oxidant status in cardiac and chronic kidney diseases. Methods: Fluorescence detection of the derivative, glutathione-O-pthaldialdehyde (OPA) adduct was used. The assay was validated by measuring the stability of glutathione and glutathione-OPA adduct under conditions that could affect the reproducibility including reaction time and temperature. Linearity, concentration range, limit of detection (LOD), limit of quantification (LOQ), recovery and extraction efficiency and selectivity of the method were assessed. Results: There was excellent linearity for GSH (r2 = 0.998) and GSSG (r2 = 0.996) over concentration ranges of 0.1 µM–4 mM and 0.2 µM–0.4 mM respectively. The extraction of GSH from tissues was consistent and precise. The limit of detection for GSH and GSSG were 0.34 µM and 0.26 µM respectively whilst their limits of quantification were 1.14 µM and 0.88 µM respectively. Conclusion: These data validate a method for the simultaneous measurement of GSH and GSSG in samples extracted from biological tissues and offer a simple determination of redox status in clinical samples.
Journal Article
Transfer of learned object manipulations between two- and five-digit grasps
Successful object manipulation involves integrating object properties into a motor plan and scaling fingertip forces through learning. This study investigated whether learned manipulations using a two-digit grip transfer to a five-digit grip and vice versa, focusing on the challenges posed by added degrees of freedom in force distribution. The goal of the task was to exert the necessary compensatory torque (Tcom) and vertical forces to minimize object roll on a visually symmetrical object that with an asymmetrical mass distribution. To examine this, subjects performed blocked consecutive learning trials before switching grip type. Our results support the learning transfer between two-digits and five-digit grasp configurations despite challenges in maintaining perfect stability during the grip switch. Subjects adapted their grip forces (GF), center of pressure (CoP), and Tcom to minimize object roll, with significant improvements observed from novel (1st) to transfer (11th) trials. These findings suggest high-level, effector-independent representations of object manipulation that enable generalization across grip types, though some limitations in force distribution and digit position arise during transfers.
Journal Article
Visual Cues of Object Properties Differentially Affect Anticipatory Planning of Digit Forces and Placement
Studies on anticipatory planning of object manipulation showed initial task failure (i.e., object roll) when visual object shape cues are incongruent with other visual cues, such as weight distribution/density (e.g., symmetrically shaped object with an asymmetrical density). This suggests that shape cues override density cues. However, these studies typically only measured forces, with digit placement constrained. Recent evidence suggests that when digit placement is unconstrained, subjects modulate digit forces and placement. Thus, unconstrained digit placement might be modulated on initial trials (since it is an explicit process), but not forces (since it is an implicit process). We tested whether shape and density cues would differentially influence anticipatory planning of digit placement and forces during initial trials of a two-digit object manipulation task. Furthermore, we tested whether shape cues would override density cues when cues are incongruent. Subjects grasped and lifted an object with the aim of preventing roll. In Experiment 1, the object was symmetrically shaped, but with asymmetrical density (incongruent cues). In Experiment 2, the object was asymmetrical in shape and density (congruent cues). In Experiment 3, the object was asymmetrically shaped, but with symmetrical density (incongruent cues). Results showed differential modulation of digit placement and forces (modulation of load force but not placement), but only when shape and density cues were congruent. When shape and density cues were incongruent, we found collinear digit placement and symmetrical force sharing. This suggests that congruent and incongruent shape and density cues differentially influence anticipatory planning of digit forces and placement. Furthermore, shape cues do not always override density cues. A continuum of visual cues, such as those alluding to shape and density, need to be integrated.
Journal Article