Search results for "Signal enhancement"

showing 3 items of 3 documents

Materials and methods of signal enhancement for spectroscopic whole blood analysis: Novel research overview

2017

Abstract The early diagnosis of diseases is crucial for reducing morbidity and mortality and also for improving the quality of treatment process. Among various biological samples used to follow up the concentrations of disease markers, whole blood sensing can efficiently decrease analysis time by means of introducing methods with no pretreatment. In addition, the direct detection of markers in whole blood facilitates testing procedure and minimize the possibility of the loss of analytes in the process. Therefore, the assay of unprocessed whole blood is becoming increasingly important in clinical diagnostics and biomedical research. Incorporation of new advanced materials plays a major role …

AnalyteComputer science010401 analytical chemistryTreatment processNanotechnology02 engineering and technologyAdvanced materials021001 nanoscience & nanotechnology01 natural sciences0104 chemical sciencesAnalytical ChemistrySignal enhancementOptical sensingDisease markers0210 nano-technologySpectroscopyBiomedical engineeringPoint of careWhole bloodTrAC Trends in Analytical Chemistry
researchProduct

Nanomaterials and new biorecognition molecules based surface plasmon resonance biosensors for mycotoxin detection

2019

Mycotoxins are highly toxic secondary metabolites, which may contaminate many types of food and feeds. These toxins have serious health risks for both human and animals. One of the effective ways to prevent food contamination and protect people against mycotoxins is based on timely detection. Several methods like enzyme-linked immunosorbent assay and affinity chromatography are commercially available for this purpose. Nevertheless, sensitive, fast, simple, low-cost, and portable devices are absolutely required for a fast point-of care information and making decisions. Application of biosensors appears to be a possible technique to meet this need for mycotoxins analyze. The present study has…

Computer scienceBiomedical EngineeringBiophysicsEnzyme-Linked Immunosorbent AssayFood ContaminationNanotechnologyBiosensing Techniques02 engineering and technology01 natural sciencesChromatography Affinitychemistry.chemical_compoundElectrochemistryHumansSurface plasmon resonanceMycotoxin010401 analytical chemistrytechnology industry and agricultureGeneral MedicineMycotoxinsSurface Plasmon Resonance021001 nanoscience & nanotechnologyNanostructures0104 chemical sciencesSignal enhancementchemistryEnvironmental Pollutants0210 nano-technologyBiosensorBiotechnologyBiosensors and Bioelectronics
researchProduct

DNP in MRI: an in-bore approach at 1.5 T.

2011

Abstract We have used liquid state (“Overhauser”) Dynamic Nuclear Polarization (DNP) to significantly enhance the signal to noise ratio (SNR) of Magnetic Resonance Imaging (MRI). For the first time this was achieved by hyperpolarizing directly in the MRI-scanner field of 1.5 T in continuous flow mode and immediately delivering the hyperpolarized substance to the imaging site to ensure maximum contrast between hyperpolarized sample and sample at thermal polarization. We achieve a maximum absolute signal enhancement factor of 98; while the hyperpolarized sample is transported at a flow rate of up to 30 ml/h yielding an average flow speed up to 470 mm/s over a distance of approximately 80 mm. …

Nuclear and High Energy PhysicsContrast enhancementMagnetic Resonance Spectroscopymedicine.diagnostic_testContinuous flowChemistryPhantoms ImagingBiophysicsMagnetic resonance imagingSignal-To-Noise RatioCondensed Matter PhysicsPolarization (waves)BiochemistryMagnetic Resonance ImagingVolumetric flow rateSignal enhancementCyclic N-OxidesLiquid stateNuclear magnetic resonanceFlow velocitymedicineImage Processing Computer-AssistedSpin LabelsMicrowavesCopperJournal of magnetic resonance (San Diego, Calif. : 1997)
researchProduct