about
Assessment, origin, and implementation of breath volatile cancer markers.Quantitative analysis of volatile organic compounds released and consumed by rat L6 skeletal muscle cells in vitroStability of selected volatile breath constituents in Tedlar, Kynar and Flexfilm sampling bagsBlood and breath levels of selected volatile organic compounds in healthy volunteersPrediction of blood:air and fat:air partition coefficients of volatile organic compounds for the interpretation of data in breath gas analysis.Emission rates of selected volatile organic compounds from skin of healthy volunteers.Product ion distributions for the reactions of NO(+) with some physiologically significant volatile organosulfur and organoselenium compounds obtained using a selective reagent ionization time-of-flight mass spectrometer.Temporal profiling of human urine VOCs and its potential role under the ruins of collapsed buildings.Release and uptake of volatile organic compounds by human hepatocellular carcinoma cells (HepG2) in vitro.Analysis of volatile organic compounds liberated and metabolised by human umbilical vein endothelial cells (HUVEC) in vitro.Blood and breath profiles of volatile organic compounds in patients with end-stage renal disease.Product ion distributions for the reactions of NO(+) with some physiologically significant aldehydes obtained using a SRI-TOF-MS instrument.A Compendium of Volatile Organic Compounds (VOCs) Released By Human Cell Lines.Ion mobility spectrometry for detection of skin volatiles.Modeling-based determination of physiological parameters of systemic VOCs by breath gas analysis: a pilot study.Modeling of breath methane concentration profiles during exercise on an ergometerAssessment of the exhalation kinetics of volatile cancer biomarkers based on their physicochemical propertiesMonitoring of selected skin-borne volatile markers of entrapped humans by selective reagent ionization time of flight mass spectrometry in NO+ mode.Hybrid volatolomics and disease detection.Spatial characteristics of urinary BTEX concentrations in the general population.Permeation profiles of potential urine-borne biomarkers of human presence over brick and concrete.Application of GC-MS with a SPME and thermal desorption technique for determination of dimethylamine and trimethylamine in gaseous samples for medical diagnostic purposes.Physiological modeling of isoprene dynamics in exhaled breath.Breath isoprene--aspects of normal physiology related to age, gender and cholesterol profile as determined in a proton transfer reaction mass spectrometry study.Quantification of selected volatile organic compounds in human urine by gas chromatography selective reagent ionization time of flight mass spectrometry (GC-SRI-TOF-MS) coupled with head-space solid-phase microextraction (HS-SPME).Instrumental sensing of trace volatiles - a new promising tool for detecting the presence of entrapped or hidden people.Determination of sevoflurane and its metabolite hexafluoroisopropanol by direct injection of human plasma into gas chromatography-tandem mass spectrometry.Sniffing Entrapped Humans with Sensor Arrays.Modeling-based determination of physiological parameters of systemic VOCs by breath gas analysis, part 2Potential of volatile organic compounds as markers of entrapped humans for use in urban search-and-rescue operationsPhysiological Modeling for Analysis of Exhaled Breath
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Paweł Mochalski
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