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200 14$aThe Alzheimer Conundrum$eEntanglements of Dementia and Aging /$fMargaret Lock
205   $aCourse Book
210  1$aPrinceton :$cPrinceton University Press,$d2016.
210  4$dİ2016.
215   $a1 online resource (323 p.)
300   $aOriginally published: 2013.
311 0 $a0-691-14978-X 
311 0 $a1-299-95116-3 
320   $aIncludes bibliographical references and index.
327   $aAcknowledgments -- Orientations -- Making and remaking Alzheimer disease -- Striving to standardize Alzheimer disease -- Paths to Alzheimer prevention -- Embodied risk made visible -- Alzheimer genes: biomarkers of prediction and prevention -- Genome-wide association studies: back to the future -- Living with embodied omens -- Chance untamed and the return of fate -- Transcending entrenched tensions -- Portraits from the mind -- Notes -- Bibliography -- Index.
330   $aDue to rapidly aging populations, the number of people worldwide experiencing dementia is increasing, and the projections are grim. Despite billions of dollars invested in medical research, no effective treatment has been discovered for Alzheimer's disease, the most common form of dementia. The Alzheimer Conundrum exposes the predicaments embedded in current efforts to slow down or halt Alzheimer's disease through early detection of pre-symptomatic biological changes in healthy individuals. Based on a meticulous account of the history of Alzheimer's disease and extensive in-depth interviews, Margaret Lock highlights the limitations and the dissent associated with biomarker detection. Lock argues that basic research must continue, but should be complemented by a public health approach to prevention that is economically feasible, more humane, and much more effective globally than one exclusively focused on an increasingly harried search for a cure.
606   $aOlder people$xMental health$2fast$3(OCoLC)fst01199117
606   $aBrain$xAging$xMolecular aspects$2fast$3(OCoLC)fst00837576
606   $aAlzheimer's disease$xAge factors$2fast$3(OCoLC)fst01750368
606   $aBrain$xAging$xMolecular aspects
606   $aOlder people$xMental health
606   $aAlzheimer's disease$xAge factors
610   $aAPOE.
610   $aAlois Alzheimer.
610   $aAlzheimer disease.
610   $aAlzheimer enterprise.
610   $aAlzheimer genetics.
610   $aAlzheimer prevention.
610   $aAlzheimer world.
610   $aAlzheimer's disease.
610   $aDNA samples.
610   $aDNA.
610   $aGWAS.
610   $aHuntington disease.
610   $aaging population.
610   $aaging populations.
610   $aaging societies.
610   $aamyloid cascade hypothesis.
610   $aamyloid cascade process.
610   $abehavioral changes.
610   $abiomarkers.
610   $abiosociality.
610   $abreast cancer.
610   $aclinical diagnosis.
610   $aclinical settings.
610   $acontrol samples.
610   $adementia.
610   $adiagnosis.
610   $adivination.
610   $aearly-onset.
610   $aenvironmental variables.
610   $aepidemiological research.
610   $aepidemiology.
610   $aepigenetics.
610   $aethnographic research.
610   $aexpert knowledge.
610   $afamily practice settings.
610   $agene function.
610   $agenes.
610   $agenetic testing.
610   $ageneticization.
610   $agenome-wide association studies.
610   $agenomics.
610   $aglobal economy.
610   $alate-onset.
610   $alocalization theory.
610   $amedical publications.
610   $amemory clinics.
610   $amemory loss.
610   $amicro-medical management.
610   $amild cognitive impairment.
610   $amolecular approach.
610   $amolecular biologists.
610   $amolecularization.
610   $aneuritic amyloid plaques.
610   $aneurofibrillary tangles.
610   $aneuroimaging.
610   $aprevention.
610   $aprodromal.
610   $apublic health.
610   $aresearch.
610   $athroughput technology.
615  7$aOlder people$xMental health.
615  7$aBrain$xAging$xMolecular aspects.
615  7$aAlzheimer's disease$xAge factors.
615  0$aBrain$xAging$xMolecular aspects.
615  0$aOlder people$xMental health.
615  0$aAlzheimer's disease$xAge factors.
676   $a362.1968/31
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200 00$aEngineering Metamaterials
210   $aBasel, Switzerland$cMDPI - Multidisciplinary Digital Publishing Institute$d2020
215   $a1 online resource (108 p.)
311 08$a3-03936-922-9 
311 08$a3-03936-923-7 
330   $aA couple of decades have passed since the advent of electromagnetic metamaterials. Although the research on artificial microwave materials dates back to the middle of the 20th century, the most prominent development in the electromagnetics of artificial media has happened in the new millennium. In the last decade, the electromagnetics of one-, two-, and three-dimensional metamaterials acquired robust characterization and design tools. Novel fabrication techniques have been developed. Many exotic effects involving metamaterials and metasurfaces, which initially belonged in a scientist's lab, are now well understood by practicing engineers. Therefore, it is the right time for the metamaterial concepts to become a designer's tools of choice in the landscape of electronics, microwaves, and photonics. Answering such a demand, the book "Engineering Metamaterials" focuses on the theory and applications of electromagnetic metamaterials, metasurfaces, and metamaterial transmission lines as the building blocks of present-day and future electronic, photonic, and microwave devices.
606   $aHistory of engineering and technology$2bicssc
610   $aactive control
610   $acommon-mode noise
610   $acorrugated ground plane
610   $adifferential signaling
610   $adual-band
610   $adual-band polarization converters
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610   $aelectromagnetic distortion
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610   $aepsilon-negative material
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610   $afractals
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610   $ametamaterial
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610   $amicrowave absorbers
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610   $an/a
610   $aphase shift
610   $asensors
610   $asplit-ring-resonators
610   $aspoof surface plasmon polariton (SSPP)
610   $astepped impedance
610   $aterahertz metamaterials
610   $atransmission-based polarization conversion
610   $atwo-dimensional imaging
610   $aUHF-RFID
610   $awaveguides
615  7$aHistory of engineering and technology
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702   $aMaslovski$b Stanislav$4oth
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