2,087 research outputs found
Fundamentos y primeras aplicaciones en España de la cirugía no invasiva mediante ultrasonidos concentrados guiados por resonancia magnética (MRgFUS)
Actas del XXVII Congreso Anual de la Sociedad Española de Ingeniería Biomédica (CASEIB09) : Cádiz, 16-18 Noviembre, 2009En este trabajo se presentan los fundamentos y los primeros
resultados de aplicación en España de la nueva tecnología de
cirugía no invasiva mediante ultrasonidos concentrados guiados
por resonancia magnética (Magnetic-Resonance guided
Focused Ultrasound Surgery, MRgFUS). En la actualidad, esta
tecnología está aprobada para el tratamiento de tumores
ginecológicos (fibromas uterinos) y el tratamiento paliativo del
dolor en las metástasis óseas. Se presentan los primeros
resultados sobre un total de 15 fibromas tratados.Agencia IDEA, Consejería de Innovación, Ciencia y Empresa, Junta de Andalucía (Ref. 840392)
Artificial Intelligence in Medicine and Healthcare: applications, availability and societal impact
This report reviews and classifies the current and near-future applications of Artificial Intelligence (AI) in Medicine and Healthcare according to their ethical and societal impact and the availability level of the various technological implementations. It provides conceptual foundations for well-informed policy-oriented work, research, and forward-looking activities that address the opportunities and challenges created in the field of AI in Medicine and Healthcare. This report is aimed for policy developers, but it also makes contributions that are of interest for researchers studying the impact and the future of AI on Healthcare, for scientific and technological stakeholders in this field and for the general public.
This report is based on an analysis of the state of the art of research and technology, including software, personal monitoring devices, genetic tests and editing tools, personalized digital models, online platforms, augmented reality devices, and surgical and companion robotics. From this analysis, it is presented the concept of “extended personalized medicine”, and it is explored the public perception of medical AI systems, and how they show, simultaneously, extraordinary opportunities and drawbacks. In addition, this report addresses the transformation of the roles of doctors and patients in an age of ubiquitous information and identifies three main paradigms in AI-supported Medicine: “fake-based”, “patient-generated”, and “scientifically tailored” views.
This Report presents:
- An updated overview of the many aspects related to the social impact of Artificial Intelligence and its applications in Medicine and Health. A new ‘Technology Availability Scale’ is defined to evaluate and compare their current status.
- Recent examples of the growing social concerns and debates in the general press, social media and other web-bases sources.
- A ‘Visual Overview of AI and AI-mediated technologies in Medicine and Healthcare’, in which two figures show, respectively, a (newly proposed) classification according to their ethical and social impact, and the most relevant ethical and social aspects considered for such classification. Some key questions, controversies, significant, and conflicting issues are outlined for each aspect.
- A ‘Structured Overview’, with a sorted list of technologies and their implementations, including perspectives, conflicting views and potential pitfalls, and a corresponding, extensive list of references.
- A conclusive set of policy challenges, namely the need of informed citizens, key aspects (of AI and AI-mediated technologies in Medicine and Healthcare) to evaluate, and some recommendations towards a European leadership in this sector.
- We finally relate our study with an update on the use of AI technologies to fight the SARS-CoV-2 virus and COVID-19 pandemic disease.JRC.A.5-Scientific Developmen
Artificial Intelligence in Medicine and Healthcare: applications, availability and societal impact
Comisión Europea. Joint Research Centre.
Serie: JRC Science for Police ReportThis report reviews and classifies the current and near-future applications of Artificial Intelligence (AI) in Medicine and Healthcare according to their ethical and societal impact and the availability level of the various technological implementations. It provides conceptual foundations for well-informed policy-oriented work, research, and forward-looking activities that address the opportunities and challenges created in the field of AI in Medicine and Healthcare. This report is aimed for policy developers, but it also makes contributions that are of interest for researchers studying the impact and the future of AI on Healthcare, for scientific and technological stakeholders in this field and for the general public.This report is based on an analysis of the state of the art of research and technology, including software, personal monitoring devices, genetic tests and editing tools, personalized digital models, online platforms, augmented reality devices, and surgical and companion robotics. From this analysis, it is presented the concept of “extended personalized medicine”, and it is explored the public perception of medical AI systems, and how they show, simultaneously, extraordinary opportunities and drawbacks. In addition, this report addresses the transformation of the roles of doctors and patients in an age of ubiquitous information and identifies three main paradigms in AI-supported Medicine: “fake-based”, “patient-generated”, and “scientifically tailored” views.This Report presents:- An updated overview of the many aspects related to the social impact of Artificial Intelligence and its applications in Medicine and Health. A new ‘Technology Availability Scale’ is defined to evaluate and compare their current status.- Recent examples of the growing social concerns and debates in the general press, social media and other web-bases sources.- A ‘Visual Overview of AI and AI-mediated technologies in Medicine and Healthcare’, in which two figures show, respeComisión Europea. Joint Research Centr
Imaging biomarkers for steatohepatitis and fibrosis detection in non-alcoholic fatty liver disease
There is a need, in NAFLD management, to develop non-invasive methods to detect steatohepatitis (NASH) and to predict advanced fibrosis stages. We evaluated a tool based on optical analysis of liver magnetic resonance images (MRI) as biomarkers for NASH and fibrosis detection by investigating patients with biopsy-proven NAFLD who underwent magnetic resonance (MR) protocols using 1.5T General Electric (GE) or Philips devices. Two imaging biomarkers (NASHMRI and FibroMRI) were developed, standardised and validated using area under the receiver operating characteristic curve (AUROC) analysis. The results indicated NASHMRI diagnostic accuracy for steatohepatitis detection was 0.83 (95% CI: 0.73–0.93) and FibroMRI diagnostic accuracy for significant fibrosis determination was 0.85 (95% CI: 0.77–0.94). These findings were independent of the MR system used. We conclude that optical analysis of MRI has high potential to define non-invasive imaging biomarkers for the detection of steatohepatitis (NASHMRI) and the prediction of significant fibrosis (FibroMRI) in NAFLD patients.Comisión Europea, 7º Programa Marco FP7/2007–2013 HEALTH-F2-2009-241762 Project Fatty Liver Inhibition of Progression (FLIP)Junta de Andalucía, Consejería de Salud PI-0488-2012/201
Hyperspectral image processing for the identification and quantification of lentiviral particles in fluid samples
Optical spectroscopic techniques have been commonly used to detect the presence of biofilm-forming pathogens (bacteria and fungi) in the agro-food industry. Recently, near-infrared (NIR) spectroscopy revealed that it is also possible to detect the presence of viruses in animal and vegetal tissues. Here we report a platform based on visible and NIR (VNIR) hyperspectral imaging for non-contact, reagent free detection and quantification of laboratory-engineered viral particles in fluid samples (liquid droplets and dry residue) using both partial least square-discriminant analysis and artificial feed-forward neural networks. The detection was successfully achieved in preparations of phosphate buffered solution and artificial saliva, with an equivalent pixel volume of 4 nL and lowest concentration of 800 TU·μL−1. This method constitutes an innovative approach that could be potentially used at point of care for rapid mass screening of viral infectious diseases and monitoring of the SARS-CoV-2 pandemic.Instituto de Salud Carlos III COV20-00080 and COV20-00173Ministerio de Ciencia e Innovación EQC2019-006240-PComisión Europea JRC HUMAINT projec
Electrothermoplasmonic flow in gold nanoparticles suspensions: nonlinear dependence of flow velocity on aggregate concentration
Efficient mixing and pumping of liquids at the microscale is a technology that is still to be optimized. The combination of an AC electric field with a small temperature gradient leads to a strong electrothermal flow that can be used for multiple purposes. Combining simulations and experiments, an analysis of the performance of electrothermal flow is provided when the temperature gradient is generated by illuminating plasmonic nanoparticles in suspension with a near-resonance laser. Fluid flow is measured by tracking the velocity of fluorescent tracer microparticles in suspension as a function of the electric field, laser power, and concentration of plasmonic particles. Among other results, a non-linear relationship is found between the velocity of the fluid and particle concentration, which is justified in terms of multiple scattering-absorption events, involving aggregates of nanoparticles, that lead to enhanced absorption when the concentration is raised. Simulations provide a description of the phenomenon that is compatible with experiments and constitute a way to understand and estimate the absorption and scattering cross-sections of both dispersed particles and/or aggregates. A comparison of experiments and simulations suggests that there is some aggregation of the gold nanoparticles by forming clusters of about 2–7 particles, but no information about their structure can be obtained without further theoretical and experimental developments. This nonlinear behavior could be useful to get very high ETP velocities by inducing some controlled aggregation of the particles.This research has been supported by Consejería de Universidad, Investigación e Innovación de la Junta de Andalucía and FEDER, “Una manera de hacer Europa”/Projects P18-FR-3583 and FQM-410-UGR18, Ministerio de Ciencia, Innovación y Universidades through Project EQC2018-004693-P, and Grant PID2021-127427NB-I00/ MCIN/AEI/10.13039/501100011033/FEDER,UE.
Funding for open access charge: Universidad de Málaga/CBUA
Virtual holographic recognition and its applications in medicine and other fields
Novel digital applications developed from analog holographic recognition techniques are presented. Virtual Holographic Recognition (VHR) substitutes physical processes in matched filtering by digital equations and calculates light distribution on the observation plane. If a certain image is defined as a reference, bright light spots corresponding to coincidences between the searched element and the image under study can be numerically calculated with a high degree of accuracy. Since peak values and radial symmetry of values define the degree of coincidence with the reference, this method can be used to find elements similar-up to any degree- to a given reference in a complex image. Current applications include detection and location of malignant masses and nodules in mammograms, computed-tomography (CT) chest scans and conventional digitized radiographs. If the image taken by a digital video camera is continuously processed and the position of the peak corresponding to a reference is tracked on a screen, it allows for guiding of persons in complex environments. Application to guiding of disabled in sport courts is also described
Characterization of volcanic structures using ground penetrating radar and additional inverse modelling: Multidisciplinary geophysical investigation in the Timanfaya National Park (Spain)
—A ground penetrating radar survey is presented
over a recent lava flow at the volcanic area of Timanfaya
National Park (Canary Island, Spain). The purpose was to locate
lava tubes into the lava flow through the combination of field and
simulated data. Different modelling strategies were used for the
analysis and knowledge of the signal behaviour. Finite-difference
time-domain algorithm was considered for simulations, and the
pattern of reflections generated from previously known volcanic
structures were characterized. After the characterization of the
radar-wave response, the interpretation achieved was applied
over the field data acquired at other non-studied area in which
different lava tubes were recognized.Authors thanks to the financial support of the National
Parks Network of the Spanish Ministry of Environment and
Rural and Marine Affairs (320/2011 – project “Caracterización
estructural del Parque Nacional de Timanfaya mediante uso
combinado de técnicas y métodos geodésicos y geofísicos”.
The staff of National Park of Timanfaya is also acknowledged,
as well as the Applied Geotechnologies research group from
the University of Vigo for providing the RAMAC/GPR
equipment. Additionally, this study is a contribution to the EU
funded COST Action TU-1208.Peer reviewe
Low and high Reynolds number flows inside Taylor cones
Liquid motions inside Taylor cones exhibit interesting features which are not well understood yet. In addition to the flow rate injected through the electrified needle to which the conical meniscus is anchored, the action of the tangential electrical stress on the cone surface induces a recirculating meridional motion, towards the apex along the generatrix and away from it along the axis. Sometimes, a vigorous swirl is observed. The characteristic value of the liquid velocity is found to be highly dependent on both the electrical conductivity and the viscosity of the liquid, so that the Reynolds number of the liquid flow varies from very small values (creeping flow) for the case of highly conducting and viscous liquids to relatively large values for liquids with sufficiently low values of the liquid conductivity and viscosity. Theoretical conical flows for low and high values of the Reynolds number show qualitatively good agreement with photographs of real flows inside Taylor cones. In particular, the existence of a vigorous swirl which is observed in the electrospraying of paraffins and other poorly conducting and low viscosity liquids can be explained as bifurcation of a primarily nonswirling meridional flow when the Reynolds number reaches a critical value.Comisión Interministerial de Ciencia y Tecnología PB96-0679-C02-0
Vida y muerte de dos mujeres de Brigantium (NW de Iberia) mediante isótopos estables y antropología forense
[Resumen] En este trabajo se obtienen datos antropológicos e isotópicos a partir de los restos óseos de dos
individuos de edad tardorromana a efectos de reconstruir sus condiciones de vida y las causas
de su muerte. Se trata de dos esqueletos femeninos conservados en el Museo Arqueolóxico de A
Coruña datados entre los siglos III a VI dC. Se han aplicado técnicas de antropología forense para
determinar patologías y lesiones que puedan haber afectado a los individuos estudiados. Para el
estudio de paleodieta, se ha extraído colágeno óseo que se analiza mediante espectrometría de masas
de relaciones isotópicas. Las relaciones isotópicas de 13C/12C y 15N/14N obtenidas se comparan con
datos procedentes de otras poblaciones contemporáneas. Los perfiles antropológicos confirman que
se trata de mujeres adultas jóvenes, de posible ancestralidad caucásica, con signos de hiponutrición
e infección crónica y cuyas señales isotópicas del colágeno muestran una importante contribución
de los moluscos en su dieta. Estos resultados concuerdan con los datos arqueológicos disponibles,
reflejando el progresivo empobrecimiento de la ciudad durante la crisis del Bajo Imperio[Abstract] In this paper we obtain anthropological and isotopic data from the skeletal remains of two
individuals of the late Roman age in order to rebuild their lives and causes of death. These are
two female skeletons preserved in the Archaeological Museum of A Coruña dating from III to VI
centuries AD. Forensic anthropology techniques have been applied to identify diseases and injuries
that may have affected the individuals studied. For the palaeodiet study, extracted bone collagen was
analysed by isotope ratios mass spectrometry. The 13C/12C and 15N/14N ratios are compared with data
from other contemporary populations. Anthropological profiles confirm that these are two young
adult females of Caucasian ancestry, with signs of chronic malnutrition and infection. Their isotopic
signature shows a significant contribution of molluscs in their diet. These results are consistent with
the available archaeological data, reflecting the progressive impoverishment of the city during the
crisis of the Lower Empire.https://doi.org/10.17979/cadlaxe.2015.38.
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