about
Near-infrared photons: a non-invasive probe for studying bone blood flow regulation in humansCavity solitons as pixels in semiconductor microcavities.Linear regression models and k-means clustering for statistical analysis of fNIRS data.Mapping of calf muscle oxygenation and haemoglobin content during dynamic plantar flexion exercise by multi-channel time-resolved near-infrared spectroscopy.Feasibility of white-light time-resolved optical mammography.A compact time-resolved system for near infrared spectroscopy based on wavelength space multiplexing.Deep and surface hemodynamic signal from functional time resolved transcranial near infrared spectroscopy compared to skin flowmotion.Bone tissue phantoms for optical flowmeters at large interoptode spacing generated by 3D-stereolithographyEstimate of tissue composition in malignant and benign breast lesions by time-domain optical mammographyEffects of Increasing Neuromuscular Electrical Stimulation Current Intensity on Cortical Sensorimotor Network Activation: A Time Domain fNIRS StudyMulti-channel medical device for time domain functional near infrared spectroscopy based on wavelength space multiplexingForward solvers for photon migration in the presence of highly and totally absorbing objects embedded inside diffusive media.Performance assessment of time-domain optical brain imagers, part 2: nEUROPt protocol.Method for the discrimination of superficial and deep absorption variations by time domain fNIRS.Time-resolved diffuse optical spectroscopy: a differential absorption approach.Electronic nose to detect volatile compound profile and quality changes in 'spring Belle' peach (Prunus persica L.) during cold storage in relation to fruit optical properties measured by time-resolved reflectance spectroscopy.Load-dependent brain activation assessed by time-domain functional near-infrared spectroscopy during a working memory task with graded levels of difficulty.Hemodynamic and EEG Time-Courses During Unilateral Hand Movement in Patients with Cortical Myoclonus. An EEG-fMRI and EEG-TD-fNIRS Study.Cerebral cortex activation mapping upon electrical muscle stimulation by 32-channel time-domain functional near-infrared spectroscopy.Study of neurovascular and autonomic response in a divided attention test by means of EEG, ECG and NIRS signals.Performance assessment of time-domain optical brain imagers, part 1: basic instrumental performance protocol.Localization and quantification of fluorescent inclusions embedded in a turbid medium.Mechanically switchable solid inhomogeneous phantom for performance tests in diffuse imaging and spectroscopy.Depth dependence of estimated optical properties of a scattering inclusion by time-resolved contrast functions.Heuristic Green's function of the time dependent radiative transfer equation for a semi-infinite medium.Modelling the balance between quiescence and cell death in normal and tumour cell populations.Phantoms for diffuse optical imaging based on totally absorbing objects, part 2: experimental implementation.Non-contact time-resolved diffuse reflectance imaging at null source-detector separation.Time-resolved scanning system for double reflectance and transmittance fluorescence imaging of diffusive media.Optical properties of developing pip and stone fruit reveal underlying structural changes.Microstructure–texture relationships of aerated sugar gels: Novel measurement techniques for analysis and controlSingle-fiber diffuse optical time-of-flight spectroscopyMonitoring muscle metabolic indexes by time-domain near-infrared spectroscopy during knee flex-extension induced by functional electrical stimulationNoninvasive assessment of breast cancer risk using time-resolved diffuse optical spectroscopySeven-wavelength time-resolved optical mammography extending beyond 1000 nm for breast collagen quantificationTime-resolved optical mammography between 637 and 985 nm: clinical study on the detection and identification of breast lesionsClinical trial of time-resolved scanning optical mammography at 4 wavelengths between 683 and 975 nmDo shorter wavelengths improve contrast in optical mammography?Absorption and scattering perturbations in homogeneous and layered diffusive media probed by time-resolved reflectance at null source-detector separationTime-resolved reflectance at null source-detector separation: improving contrast and resolution in diffuse optical imaging
P50
Q26800089-AD04128F-39AE-43E4-9A13-8699868A8887Q30864010-CEC4A5BB-EB19-40C6-A158-5604BF8F1F77Q30911550-79345E21-3853-47D4-A3E2-2B964202075CQ33201176-2B1C9A00-ED3B-40F8-BA2B-D010B7C4D1EFQ33263033-D2C1B818-9F30-415E-A874-08BD557C25E4Q33763657-69D3C0E6-95ED-4E68-B80E-41C18DF0A280Q33956431-9D936931-329A-4128-829A-468D85C1A032Q34045673-66E48605-7680-4C60-B214-FAAECE32B798Q34387681-A17DF28F-65BF-44C7-9F3D-B63D1DB76A05Q35686960-008A36ED-5C7D-46CD-9EF5-3EA2299BE5CAQ37237302-C1927AED-450D-4645-8A27-1AA562BB626CQ38201204-8C3E8F64-EBC3-4B20-A98D-7175456DF61AQ39145195-0B0FE589-85DA-415A-9AC0-31BC23FAB260Q41876988-5333EE7D-5D24-4714-865A-95B96A0A6470Q42818810-1A6041D5-01F7-4D3A-83A2-4B8E51763C79Q44011383-92852E3D-13A5-44FD-8B5C-0A010114A397Q47736871-936B178F-EEED-4447-9CED-395290054061Q47741267-2D4F0DA4-09C2-41D8-BF79-E0752F267508Q48009069-A52EF58F-2241-4A8E-930C-9A52BDEDEC33Q48015544-94ED747B-03E9-4809-8778-10B691C3E4FAQ48605594-4516D430-7747-44D9-87FC-B47871F25D5CQ51476653-9878D948-FD9C-4691-AE36-EAA63C6460EAQ51830270-EDD8CF23-E2D7-48A0-80E4-1E1259AB8DAFQ51865508-D528FB11-AD59-4619-880D-1101DBBF635CQ51897972-BAFF3CA0-E1C8-40A1-8E27-D490B0ADCCF1Q51941811-BC39E119-7E60-4861-A6C1-05F0EF3AB518Q52875442-F482C295-59A3-4785-8335-9902CC5B0292Q53178771-E8132FDF-0850-4E60-90E3-4B2B247B234DQ53437246-666850A7-4FBA-41B3-9C65-039B4CE8BCA4Q53544283-49A387A3-4394-4827-B754-D1F858FDC3D4Q58075981-AB8677D4-0D8D-4B58-8240-12DEA8BB0A7EQ62539280-D567EBA0-1CAA-4F2E-86FF-B04576F0A769Q62607311-F9F55E0B-4392-474D-B406-B072BE6114FBQ63441584-717C00B8-81AF-4F47-AC2D-6F8E7D26B556Q63441591-39D477F8-1EA9-43CD-9EFC-53A54DD2D78BQ63441612-F436BBFA-D424-410F-B311-49B1F799E037Q63441615-9A10DEE7-A401-4D51-A10C-B7877CDA41C3Q63441616-864E9483-6DD1-414D-8499-52A87FA08F45Q79200055-8F5532CA-E3C7-407F-B7E1-DD94975885E9Q81290937-4C665D52-3085-4A77-A3D4-B4B04CB5535B
P50
description
researcher
@en
ricercatore
@it
wetenschapper
@nl
հետազոտող
@hy
name
Lorenzo Spinelli
@ast
Lorenzo Spinelli
@en
Lorenzo Spinelli
@es
Lorenzo Spinelli
@it
Lorenzo Spinelli
@nl
type
label
Lorenzo Spinelli
@ast
Lorenzo Spinelli
@en
Lorenzo Spinelli
@es
Lorenzo Spinelli
@it
Lorenzo Spinelli
@nl
prefLabel
Lorenzo Spinelli
@ast
Lorenzo Spinelli
@en
Lorenzo Spinelli
@es
Lorenzo Spinelli
@it
Lorenzo Spinelli
@nl
P106
P1153
7006522260
P21
P31
P496
0000-0002-4414-4351