Mauricio A. Flores scite author profile

Ten years ago, the proposition that healthcare is evolving from reactive disease care to care that is predictive, preventive, personalized and participatory was regarded as highly speculative. Today, the core elements of that vision are widely accepted and have been articulated in a series of recent reports by the US Institute of Medicine. Systems approaches to biology and medicine are now beginning to provide patients, consumers and physicians with personalized information about each individual’s unique health experience of both health and disease at the molecular, cellular and organ levels. This information will make disease care radically more cost effective by personalizing care to each person’s unique biology and by treating the causes rather than the symptoms of disease. It will also provide the basis for concrete action by consumers to improve their health as they observe the impact of lifestyle decisions. Working together in digitally powered familial and affinity networks, consumers will be able to reduce the incidence of the complex chronic diseases that currently account for 75% of disease-care costs in the USA.

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A personal view on systems medicine and the emergence of proactive P4 medicine: predictive, preventive, personalized and participatory

Hood¹,

Flores²

2012

New Biotechnology

489

318

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First-principles DFT +GW study of the Te antisite in CdTe

Flores

Orellana

Menéndez-Proupín

2016

Computational Materials Science

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Self-compensation in phosphorus-doped CdTe

2017

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We investigate the self-compensation mechanism in phosphorus-doped CdTe. The formation energies, charge transition levels, and defects states of several P-related point defects susceptible to cause self-compensation are addressed by first-principles calculations. Moreover, we assess the influence of the spin-orbit coupling and supercell-size effects on the stability of AX centers donors, which are believed to be responsible for most of the self-compensation. We report an improved result for the lowest-energy configuration of the P interstitial (Pi) and find that the self-compensation mechanism is not due to the formation of AX centers. Under Te-rich growth conditions, (Pi) exhibits a formation energy lower than the substitutional acceptor (PTe) when the Fermi level is near the valence band, acting as compensating donor. While, for Cd-rich growth conditions, our results suggest that p-type doping is limited by the formation of (PTe − VTe) complexes.

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