0000000000172260

AUTHOR

Anna Berzina

showing 9 related works from this author

Evaluation of Skin Vascular Malformations’ Laser Treatment by RGB and Multi-spectral Imaging

2012

RGB imaging system for mapping and monitoring of hemoglobin changes in skin has been tested for evaluation of vascular malformations’ laser treatment. The multi-spectral imaging system was used as the reference.

Pathologymedicine.medical_specialtymedicine.diagnostic_testDiffuse reflectance infrared fourier transformbusiness.industryLaser treatmentMultispectral imageMulti spectralSpectral imagingOptical coherence tomographymedicineRGB color modelsense organsbusinessBiomedical engineeringBiomedical Optics and 3-D Imaging
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Towards noncontact skin melanoma selection by multispectral imaging analysis

2011

A clinical trial comprising 334 pigmented and vascular lesions has been performed in three Riga clinics by means of multispectral imaging analysis. The imaging system Nuance 2.4 (CRi) and self-developed software for mapping of the main skin chromophores were used. Spe- cific features were observed and analyzed for malignant skin melanomas: notably higher absorbance (especially as the difference of optical density relative to the healthy skin), uneven chromophore distribution over the lesion area, and the possibility to select the "melanoma areas" in the correla- tion graphs of chromophores. The obtained results indicate clinical potential of this technology for noncontact selec- tion of mel…

Diagnostic ImagingMalePathologymedicine.medical_specialtyMultispectral imageBiomedical EngineeringSkin PigmentationOptical densityBiomaterialsLesionHemoglobinsImage Processing Computer-AssistedHumansMedicineMelanomaSkinMelaninsbusiness.industrySpectrum AnalysisMelanomamedicine.diseaseAtomic and Molecular Physics and OpticsElectronic Optical and Magnetic MaterialsOxyhemoglobinsFemalesense organsmedicine.symptomSkin melanomabusinessSkin lesionSoftwareBiomedical engineeringJournal of Biomedical Optics
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Semi-automatic detection of skin malformations by analysis of spectral images

2013

The multi-spectral imaging technique to reveal skin malformations has been described in this work. Four spectral images taken at polarized monochromatic LED illumination (450nm, 545nm, 660nm and 940 nm) and polarized white LED light imaged by CMOS sensor via cross-oriented polarizing filter were analyzed to calculate chromophore maps. The algorithm based on skin color analysis and user-defined threshold selection allows highlighting of skin areas with predefined chromophore concentration semi-automatically. Preliminary results of clinical tests are presented.

medicine.medical_specialtyCMOS sensorMaterials sciencebusiness.industryMultispectral imageImage segmentationPolarizing filterChromophorePolarizerlaw.inventionSpectral imagingOpticslawmedicineMonochromatic colorbusiness
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Noncontact monitoring of vascular lesion phototherapy efficiency by RGB multispectral imaging.

2013

A prototype low-cost RGB imaging system consisting of a commercial RGB CMOS sensor, RGB light-emitting diode ring light illuminator, and a set of polarizers was designed and tested for mapping the skin erythema index, in order to monitor skin recovery after phototherapy of vascular lesions, such as hemangiomas and telangiectasias. The contrast of erythema index (CEI) was proposed as a parameter for quantitative characterization of vascular lesions. Skin recovery was characterized as a decrease of the CEI value relative to the value before the treatment. This approach was clinically validated by examining 31 vascular lesions before and after phototherapy.

AdultDiagnostic ImagingSkin erythemaPathologymedicine.medical_specialtyErythemaMultispectral imageBiomedical EngineeringBiomaterialsYoung AdultMedicineHumansTelangiectasisSkinCMOS sensorintegumentary systembusiness.industrySpectrum AnalysisVascular lesionMiddle AgedPhototherapyAtomic and Molecular Physics and OpticsElectronic Optical and Magnetic MaterialsTreatment OutcomeErythemaRGB color modelmedicine.symptombusinessHemangiomaBiomedical engineeringJournal of biomedical optics
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Contact and contactless diffuse reflectance spectroscopy: potential for recovery monitoring of vascular lesions after intense pulsed light treatment.

2011

Optical fiber contact probe diffuse reflectance spectroscopy and remote multispectral imaging methods in the spectral range of 400 to 1100 nm were used for skin vascular malformation assessment and recovery tracing after treatment by intense pulsed light. The results confirmed that oxy-hemoglobin relative changes and the optical density difference between lesion and healthy skin in the spectral region 500 to 600 nm may be successfully used for objective appraisal of the therapy effect. Color redness parameter a* = 2 is suggested as a diagnostic border to distinguish healthy skin and vascular lesions, and as the indicator of phototreatment efficiency. Valuable diagnostic information on large…

Diagnostic informationOptical fiberMaterials scienceDiffuse reflectance infrared fourier transformmedicine.medical_treatmentMultispectral imagePort-Wine StainBiomedical EngineeringColorIntense pulsed lightlaw.inventionBiomaterialsLesionDiffusionOpticslawmedicineHumansTelangiectasisSkinbusiness.industrySpectrum AnalysisVascular malformationNear-infrared spectroscopyPhototherapymedicine.diseaseAtomic and Molecular Physics and OpticsElectronic Optical and Magnetic MaterialsTreatment Outcomemedicine.symptombusinessHemangiomaBiomedical engineeringJournal of biomedical optics
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RGB imaging system for monitoring of skin vascular malformation's laser therapy

2012

A prototype RGB imaging system for mapping of skin chromophores consists of a commercial RGB CMOS sensor, RGB LEDs ring-light illuminator and orthogonally orientated polarizers for reducing specular reflectance. The system was used for monitoring of vascular malformations (hemagiomas and telangiectasias) therapy.

CMOS sensorMaterials sciencebusiness.industryVascular malformationPolarizermedicine.diseaseReflectivitylaw.inventionOpticsLaser therapylawmedicineOptoelectronicsRGB color modelSpecular reflectionbusinessLight-emitting diodeSPIE Proceedings
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Smartphone snapshot mapping of skin chromophores under triple-wavelength laser illumination

2017

Abstract Chromophore distribution maps are useful tools for skin malformation severity assessment and for monitoring of skin recovery after burns, surgeries, and other interactions. The chromophore maps can be obtained by processing several spectral images of skin, e.g., captured by hyperspectral or multispectral cameras during seconds or even minutes. To avoid motion artifacts and simplify the procedure, a single-snapshot technique for mapping melanin, oxyhemoglobin, and deoxyhemoglobin of in-vivo skin by a smartphone under simultaneous three-wavelength (448–532–659 nm) laser illumination is proposed and examined. Three monochromatic spectral images related to the illumination wavelengths …

Materials scienceLightMonte Carlo methodMultispectral imageBiomedical Engineeringsmartphone applicationsImage processing02 engineering and technologyDermatologylaser illumination design01 natural sciencesSkin Diseaseslaw.invention010309 opticsBiomaterialsOpticslaw0103 physical sciencesmultispectral imagingHumansLightingSkinbusiness.industryLasersHyperspectral imagingskin chromophore mappingChromophore021001 nanoscience & nanotechnologyLaserAtomic and Molecular Physics and OpticsElectronic Optical and Magnetic MaterialsRGB color modelMonochromatic colorSmartphone0210 nano-technologybusiness
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Study of smartphone suitability for mapping of skin chromophores.

2015

RGB (red-green-blue) technique for mapping skin chromophores by smartphones is proposed and studied. Three smartphones of different manufacturers were tested on skin phantoms and in vivo on benign skin lesions using a specially designed light source for illumination. Hemoglobin and melanin indices obtained by these smartphones showed differences in both tests. In vitro tests showed an increment of hemoglobin and melanin indices with the concentration of chromophores in phantoms. In vivo tests indicated higher hemoglobin index in hemangiomas than in nevi and healthy skin, and nevi showed higher melanin index compared to the healthy skin. Smartphones that allow switching off the automatic cam…

Materials scienceBiomedical EngineeringSkin PigmentationIn vivo testsSkin DiseasesBiomaterialsMelaninOpticsOptical imagingLight sourcemedicineImage Processing Computer-AssistedNevusHumansNevusSkinintegumentary systembusiness.industryPhantoms ImagingOptical Imagingmedicine.diseaseAtomic and Molecular Physics and OpticsElectronic Optical and Magnetic MaterialsSmartphoneSkin lesionbusinessHemangiomaAlgorithmsBiomedical engineeringJournal of biomedical optics
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Multimodal device for assessment of skin malformations

2013

A variety of multi-spectral imaging devices is commercially available and used for skin diagnostics and monitoring; however, an alternative cost-efficient device can provide an advanced spectral analysis of skin. A compact multimodal device for diagnosis of pigmented skin lesions was developed and tested. A polarized LED light source illuminates the skin surface at four different wavelengths – blue (450 nm), green (545 nm), red (660 nm) and infrared (940 nm). Spectra of reflected light from the 25 mm wide skin spot are imaged by a CMOS sensor. Four spectral images are obtained for mapping of the main skin chromophores. The specific chromophore distribution differences between different skin…

CMOS sensorMedical diagnosticMaterials scienceintegumentary systembusiness.industryInfraredMultispectral imageOpticsLight sourceSkin surfaceSpectral analysisPigmented skinbusinessBiomedical engineeringSPIE Proceedings
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