0000000001079173

AUTHOR

Marta Padilla

showing 5 related works from this author

Modular Breath Analyzer (MBA): Introduction of a Breath Analyzer Platform Based on an Innovative and Unique, Modular eNose Concept for Breath Diagnos…

2021

Exhaled breath analysis for early disease detection may provide a convenient method for painless and non-invasive diagnosis. In this work, a novel, compact and easy-to-use breath analyzer platform with a modular sensing chamber and direct breath sampling unit is presented. The developed analyzer system comprises a compact, low volume, temperature-controlled sensing chamber in three modules that can host any type of resistive gas sensor arrays. Furthermore, in this study three modular breath analyzers are explicitly tested for reproducibility in a real-life breath analysis experiment with several calibration transfer (CT) techniques using transfer samples from the experiment. The experiment …

calibration transferComputer scienceRespiratory SystemPharmaceutical ScienceOrganic chemistrycorrelation alignment01 natural scienceseNoseAnalytical Chemistry0302 clinical medicineQD241-441DDC 570 / Life sciencesDrug Discoverybreath analysisSensortechnikdigestive oral and skin physiologyAtemgasanalyseMischoxideExhalationChemistry (miscellaneous)piecewise direct standardization030220 oncology & carcinogenesisElektronische NaseCalibrationMolecular MedicineMOX sensorsSpectrum analyzerAdolescentlow sensing chamber volumeReal-time computingstandard samplesbreath samplingArticleElectronic nose03 medical and health sciencesddc:570Breath testsCalibrationHumansddc:610Physical and Theoretical ChemistryReproducibilitybusiness.industry010401 analytical chemistryBreath samplingpattern recognitionBreath diagnosticsAtemluftModular design0104 chemical sciencesBreath analyzerBreath gas analysisbusinessBiosensing techniquesDDC 610 / Medicine & healthBiomarkersMolecules
researchProduct

Class Decomposition for Gastric Cancer Detection from Breath

2021

CombinatoricsDecomposition (computer science)Cancer detectionClass (biology)Mathematics2021 62nd International Scientific Conference on Information Technology and Management Science of Riga Technical University (ITMS)
researchProduct

Overview on SNIFFPHONE:A portable device for disease diagnosis

2019

We present SNIFFPHONE, a handy and easy-To-use device that allows the non-invasive detection of gastric diseases. It analyzes the user's exhaled breath using specifically developed gas sensors. The device is coupled to a smartphone, which governs the breath analysis process, sends the data measurements to an external data analysis server, and finally gives feedback to the user. In this work, we describe the SNIFFPHONE device and the general platform under development.

SNIFFPHONEComputer sciencegastrointestinal cancerProcess (computing)DiseaseGastric Diseasesgas sensorExternal dataBreath gas analysisSDG 3 - Good Health and Well-beingHuman–computer interaction/dk/atira/pure/sustainabledevelopmentgoals/good_health_and_well_beingbreath analysis
researchProduct

Modular Point-of-Care Breath Analyzer and Shape Taxonomy-Based Machine Learning for Gastric Cancer Detection

2022

Background: Gastric cancer is one of the deadliest malignant diseases, and the non-invasive screening and diagnostics options for it are limited. In this article, we present a multi-modular device for breath analysis coupled with a machine learning approach for the detection of cancer-specific breath from the shapes of sensor response curves (taxonomies of clusters). Methods: We analyzed the breaths of 54 gastric cancer patients and 85 control group participants. The analysis was carried out using a breath analyzer with gold nanoparticle and metal oxide sensors. The response of the sensors was analyzed on the basis of the curve shapes and other features commonly used for comparison. These f…

gastric cancer; breath analysis; electronic nose; machine learning; screeningClinical BiochemistryDiagnostics
researchProduct

Sensing gastric cancer via point‐of‐care sensor breath analyzer

2021

Background Detection of disease by means of volatile organic compounds from breath samples using sensors is an attractive approach to fast, noninvasive and inexpensive diagnostics. However, these techniques are still limited to applications within the laboratory settings. Here, we report on the development and use of a fast, portable, and IoT-connected point-of-care device (so-called, SniffPhone) to detect and classify gastric cancer to potentially provide new qualitative solutions for cancer screening. Methods A validation study of patients with gastric cancer, patients with high-risk precancerous gastric lesions, and controls was conducted with 2 SniffPhone devices. Linear discriminant an…

AdultMaleCancer ResearchValidation studymedicine.medical_specialtyvolatile organic compoundPoint-of-Care SystemsBiosensing TechniquesSensitivity and Specificity03 medical and health sciences0302 clinical medicineSDG 3 - Good Health and Well-beingbreath analyzerStomach NeoplasmsCancer screeningmedicineHumansNanotechnology030212 general & internal medicinePoint of careAgedAged 80 and overbusiness.industrygastric cancerscreeningCancerpersonalizedDiscriminant AnalysisGastric lesionsMiddle Agedmedicine.diseaseLinear discriminant analysisprecancerous lesion3. Good healthBreath analyzerOncologyBreath Tests030220 oncology & carcinogenesisArea Under CurveCase-Control Studies/dk/atira/pure/sustainabledevelopmentgoals/good_health_and_well_beingFemaleRadiologyInternet of ThingsbusinessPrecancerous ConditionsCancer
researchProduct