E. Du

TL;DR: Wearable devices have found numerous applications in healthcare ranging from physiological diseases such as cardiovascular diseases, hypertension and muscle disorders to neurocognitive disorders, such as Parkinson's disease, Alzheimer's disease and other psychological diseases as discussed by the authors.

TL;DR: A microfluidics-based model to quantify cell-level processes modulating the pathophysiology of sickle cell disease (SCD) enabled quantitative investigations of the kinetics of cell sickling, unsickling, and cell rheology and point to the potential of this method as a diagnostic indicator of disease severity.

TL;DR: The method developed here provides a potentially helpful tool to characterize quickly and effectively the isolated biomechanical response of cells in a large population, for probing the pathological states of cells, disease diagnostics, and drug efficacy assays.

TL;DR: An electric impedance microflow cytometry platform for the characterization of disease states of single cells and a dimensionless offset parameter obtained as a linear combination of a normalized phase shift and a normalized magnitude shift in electric impedance to differentiate cells on the basis of their pathological states are presented.

TL;DR: Singapore. National Research Foundation (Singapore-MIT Alliance for Research and Technology) as discussed by the authors, 2013. And the authors of this paper have proposed a method to improve the performance of the proposed method.