Development of marked striatal hand with antiparkinsonian medication withdrawal during traditional (Ayurvedic) medicine treatment for Parkinson's disease

Ayurveda is a traditional medical system used widely in India and increasingly worldwide. Here, we report on a patient with Parkinson's disease (PD) who developed marked striatal hand with antiparkinsonian medication withdrawal during Ayurvedic medicine treatment for her PD. Although a direct role for the Ayurvedic medicines in inducing the hand deformity cannot be excluded, we propose that severe dopaminergic deficiency (due to prolonged withdrawal of antiparkinsonian medications in the context of long-standing PD) was probably the main culprit in our patient

Self-assembled incorporation of modulated block copolymer nanostructures in phase-change memory for switching power reduction

Phase change memory (PCM), which exploits the phase change behavior of chalcogenide materials, affords tremendous advantages over conventional solid-state memory due to its nonvolatility, high speed, and scalability. However, high power consumption of PCM poses a critical challenge and has been the most significant obstacle to its widespread commercialization. Here, we present a novel approach based on the self-assembly of a block copolymer (BCP) to form a thin nanostructured SiOx layer that locally blocks the contact between a heater electrode and a phase change material. The writing current is decreased 5-fold (corresponding to a power reduction by 1/20) as the occupying area fraction of SiOx nanostructures is increased from a fill factor of 9.1% to 63.6%. Simulation results theoretically explain the current reduction mechanism by localized switching of BCP-blocked phase change materials. © 2013 American Chemical Society.137411sciescopu