Hand Held Devices In Hospital Setting And Efficiency 2013 To 2019 Pdf

File Name: hand held devices in hospital setting and efficiency 2013 to 2019 .zip
Size: 2736Kb
Published: 15.01.2021

Thank you for visiting nature.

Artificial intelligence in healthcare is an overarching term used to describe the use of machine-learning algorithms and software, or artificial intelligence AI , to mimic human cognition in the analysis, presentation, and comprehension of complex medical and health care data.

While mHealth has application for industrialized nations , the field has emerged in recent years as largely an application for developing countries , stemming from the rapid rise of mobile phone penetration in low-income nations. The field, then, largely emerges as a means of providing greater access to larger segments of a population in developing countries, as well as improving the capacity of health systems in such countries to provide quality healthcare. The field broadly encompasses the use of mobile telecommunication and multimedia technologies in health care delivery. The term mHealth was coined by Robert Istepanian as use of "emerging mobile communications and network technologies for healthcare". While there are some projects that are considered solely within the field of mHealth, the linkage between mHealth and eHealth is unquestionable.

The Strategy That Will Fix Health Care

In health care, the days of business as usual are over. Around the world, every health care system is struggling with rising costs and uneven quality, despite the hard work of well-intentioned, well-trained clinicians. At its core is maximizing value for patients: that is, achieving the best outcomes at the lowest cost. We must move away from a supply-driven health care system organized around what physicians do and toward a patient-centered system organized around what patients need. We must shift the focus from the volume and profitability of services provided—physician visits, hospitalizations, procedures, and tests—to the patient outcomes achieved.

The technology revolution in the miniaturization of electronic devices is enabling to design more reliable and adaptable wearables, contributing for a world-wide change in the health monitoring approach. In this paper we review important aspects in the WHDs area, listing the state-of-the-art of wearable vital signs sensing technologies plus their system architectures and specifications. A focus on vital signs acquired by WHDs is made: first a discussion about the most important vital signs for health assessment using WHDs is presented and then for each vital sign a description is made concerning its origin and effect on heath, monitoring needs, acquisition methods and WHDs and recent scientific developments on the area electrocardiogram, heart rate, blood pressure, respiration rate, blood oxygen saturation, blood glucose, skin perspiration, capnography, body temperature, motion evaluation, cardiac implantable devices and ambient parameters. A general WHDs system architecture is presented based on the state-of-the-art. After a global review of WHDs, we zoom in into cardiovascular WHDs, analysing commercial devices and their applicability versus quality, extending this subject to smart t-shirts for medical purposes. Furthermore we present a resumed evolution of these devices based on the prototypes developed along the years.

Press releases

Nosocomial infections NIs are known worldwide and remain a major problem despite scientific and technical advances in the field of health. The severity of the infection depends on the characteristics of the microorganisms involved and the high frequency of resistant pathogens in the hospital environment. The aim of this study is to determine the distribution of pathogenic bacteria and their resistance to antibiotics that spread on hospital surfaces, more specifically, on those of various departments in the Provincial Hospital Center PHC of Mohammedia, Morocco. A cross-sectional study was conducted from March to April Samples were collected by swabbing the hospital surfaces, and the isolated bacteria were checked for their susceptibility to antibiotics by the Kirby—Bauer disk diffusion method following the standards of the Clinical and Laboratory Standards Institute CLSI.

Shown are hospitalized and randomized patients in the observation period. CDSS indicates clinical decision support system. Conflicts of interest comprise financial interests, activities, and relationships within the past 3 years including but not limited to employment, affiliation, grants or funding, consultancies, honoraria or payment, speaker's bureaus, stock ownership or options, expert testimony, royalties, donation of medical equipment, or patents planned, pending, or issued. If you have no conflicts of interest, check "No potential conflicts of interest" in the box below. The information will be posted with your response.

Digital technologies in the public-health response to COVID-19

Shown are hospitalized and randomized patients in the observation period. CDSS indicates clinical decision support system. Conflicts of interest comprise financial interests, activities, and relationships within the past 3 years including but not limited to employment, affiliation, grants or funding, consultancies, honoraria or payment, speaker's bureaus, stock ownership or options, expert testimony, royalties, donation of medical equipment, or patents planned, pending, or issued. If you have no conflicts of interest, check "No potential conflicts of interest" in the box below. The information will be posted with your response.

The use of mobile devices by health care professionals HCPs has transformed many aspects of clinical practice. Mobile devices and apps provide many benefits for HCPs, perhaps most significantly increased access to point-of-care tools, which has been shown to support better clinical decision-making and improved patient outcomes.