| Nome |
# |
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Review of optical breast imaging and spectroscopy, file e0c31c0a-815c-4599-e053-1705fe0aef77
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475
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Performance assessment of time-domain optical brain imagers, part 1: basic instrumental performance protocol, file e0c31c09-52e1-4599-e053-1705fe0aef77
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324
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Time-Resolved Fluorescence Spectroscopy and Fluorescence Lifetime Imaging for the Analysis of Organic Materials in Wall Painting Replicas, file e0c31c09-679c-4599-e053-1705fe0aef77
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267
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|
Solid switchable phantom for diffuse optical imaging, file e0c31c09-52eb-4599-e053-1705fe0aef77
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250
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|
A compact time-resolved system for near infrared spectroscopy based on wavelength space multiplexing, file e0c31c0c-930c-4599-e053-1705fe0aef77
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242
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|
Design and construction of a solid switchable phantom for diffuse optical imaging, file e0c31c09-52f1-4599-e053-1705fe0aef77
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234
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|
In-vivo multilaboratory investigation of the optical properties of the human head, file e0c31c09-6065-4599-e053-1705fe0aef77
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229
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|
Mechanically switchable solid inhomogeneous phantom for performance tests in diffuse imaging and spectroscopy, file e0c31c09-4bcd-4599-e053-1705fe0aef77
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225
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Collagen content as a risk factor in breast cancer? A pilot clinical study, file e0c31c09-52ef-4599-e053-1705fe0aef77
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223
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In vivo Study of the Layered Structure on the Abdomen by Broadband Time-Domain Diffuse Optical Spectroscopy, file e0c31c0b-e630-4599-e053-1705fe0aef77
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206
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Optical Quantification of Collagen and Breast Cancer: Lesion Classification and Risk Estimate, file e0c31c0c-25b4-4599-e053-1705fe0aef77
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205
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Optical study on the dependence of breast tissue composition and structure on subject anamnesis, file e0c31c09-4f3f-4599-e053-1705fe0aef77
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200
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Breast tissue composition and its dependence on demographic risk factors for breast cancer: Non-invasive assessment by Time Domain diffuse optical spectroscopy, file e0c31c08-c891-4599-e053-1705fe0aef77
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194
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|
Hemodynamic and EEG Time-Courses During Unilateral Hand Movement in Patients with Cortical Myoclonus. An EEG-fMRI and EEG-TD-fNIRS Study., file e0c31c09-59e0-4599-e053-1705fe0aef77
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193
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Optical Characterization of Benign and Malignant Breast Lesions by Perturbative Model, file e0c31c09-9f00-4599-e053-1705fe0aef77
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188
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Frequency Offset Raman Spectroscopy (FORS) for subsurface probing of highly scattering media, file e0c31c0c-58ee-4599-e053-1705fe0aef77
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180
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Time domain diffuse optical spectroscopy: In vivo quantification of collagen in breast tissue, file e0c31c09-54f7-4599-e053-1705fe0aef77
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175
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In vivo depth heterogeneity of the abdomen assessed by broadband time-domain diffuse optical spectroscopy, file e0c31c0c-a33b-4599-e053-1705fe0aef77
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175
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Effects of time-gated detection in diffuse optical imaging at short source-detector separation, file e0c31c08-287a-4599-e053-1705fe0aef77
|
169
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|
Optical discrimination between malignant and benign breast lesions, file e0c31c09-52ed-4599-e053-1705fe0aef77
|
169
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Is collagen an independent risk factor for breast cancer?, file e0c31c0b-87c9-4599-e053-1705fe0aef77
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167
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Clinical applications of TD-NIRS: A widespread scenario, file e0c31c10-65d8-4599-e053-1705fe0aef77
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167
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Frequency offset Raman spectroscopy (FORS) for depth probing of diffusive media, file e0c31c0a-7039-4599-e053-1705fe0aef77
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166
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TD-fNIRS for diagnosing glaucoma: A clinical pilot study, file e0c31c0f-3530-4599-e053-1705fe0aef77
|
164
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|
Use of 3D printed PLA for diffuse optics, file e0c31c10-46fc-4599-e053-1705fe0aef77
|
156
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Optical identification of subjects at high risk for developing breast cancer, file e0c31c09-4eaa-4599-e053-1705fe0aef77
|
155
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Performance assessment of time-domain optical brain imagers, part 2: nEUROPt protocol, file e0c31c08-4dd0-4599-e053-1705fe0aef77
|
147
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Phantoms for diffuse optical imaging based on totally absorbing objects, part 2: experimental implementation, file e0c31c08-344b-4599-e053-1705fe0aef77
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126
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Non-invasive optical estimate of tissue composition to differentiate malignant from benign breast lesions: A pilot study, file e0c31c0a-42f6-4599-e053-1705fe0aef77
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124
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Estimate of tissue composition in malignant and benign breast lesions by time-domain optical mammography, file e0c31c09-4d0c-4599-e053-1705fe0aef77
|
117
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Solid heterogeneous phantoms for multimodal ultrasound and diffuse optical imaging: an outcome of the SOLUS project for standardization, file e0c31c0e-f99d-4599-e053-1705fe0aef77
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117
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Determination of reference values for optical properties of liquid phantoms based on Intralipid and India ink, file e0c31c08-3201-4599-e053-1705fe0aef77
|
102
|
|
Optical characterization of 3D printed PLA and ABS filaments for diffuse optics applications, file e0c31c11-d849-4599-e053-1705fe0aef77
|
72
|
|
Non-invasive investigation of adipose tissue by time domain diffuse optical spectroscopy, file e0c31c10-8272-4599-e053-1705fe0aef77
|
62
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In vivo test-driven upgrade of a time domain multi-wavelength optical mammograph, file e0c31c10-d15b-4599-e053-1705fe0aef77
|
55
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|
Photosensitizers and PDT, file e0c31c09-4f83-4599-e053-1705fe0aef77
|
52
|
|
Optical signatures of radiofrequency ablation in biological tissues, file e0c31c11-21ba-4599-e053-1705fe0aef77
|
50
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Attractive new technologies for 7-wavelength time domain optical mammography, file e0c31c0b-6d5d-4599-e053-1705fe0aef77
|
49
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|
Diffuse optics using a dual window fast-gated counter, file e0c31c0d-a31a-4599-e053-1705fe0aef77
|
45
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Reproducibility of identical solid phantoms, file e0c31c12-5a7c-4599-e053-1705fe0aef77
|
45
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|
Glaucoma has a cerebral component: A TD-fNIRS study, file e0c31c10-1e1d-4599-e053-1705fe0aef77
|
40
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|
Advances in single-photon detection and timing for Time Domain multi-wavelength Optical Mammography, file e0c31c0c-9add-4599-e053-1705fe0aef77
|
39
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Discrimination between healthy and glaucomatous subjects with TD-fNIRS, file e0c31c12-8e58-4599-e053-1705fe0aef77
|
39
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High-throughput multi-wavelength time-resolved optical mammograph: importance of in vivo performance assessment, file e0c31c10-f390-4599-e053-1705fe0aef77
|
36
|
|
Rehabilitation Monitoring After Bed Rest in Elderly: TD-NIRS and sEMG Preliminary Study, file e0c31c12-5470-4599-e053-1705fe0aef77
|
33
|
|
Breast Monitoring by Time-Resolved Diffuse Optical Imaging, file e0c31c09-43cb-4599-e053-1705fe0aef77
|
32
|
|
Broadband optical spectroscopy of the human adipose and muscle tissues – An in-vivo pilot study, file e0c31c12-8611-4599-e053-1705fe0aef77
|
32
|
|
Preliminary Evidence of the Efficacy of Time-Resolved Broad-Spectrum Optical Mammography in Monitoring Neoadjuvant Chemotherapy, file e0547aa6-b8ad-4eda-916e-65ae1ae3f014
|
29
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Optical mammography in the time domain up to 1060 nm: From tests on healthy women to initial data for monitoring neoadjuvant chemotherapy, file e0c31c12-954b-4599-e053-1705fe0aef77
|
29
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|
Vastus Lateralis Muscle's Characterization on bedridden patients: a Time Domain fNIRS study, file 697ade93-b54f-4c4f-9572-1a8d4b63d50b
|
27
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Filament 3D printing technology for diffuse optics applications: Advantages and drawbacks, file e0c31c12-9144-4599-e053-1705fe0aef77
|
26
|
|
In vivo time-resolved reflectance spectroscopy of the human forehead, file e0c31c0c-4d20-4599-e053-1705fe0aef77
|
25
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Key features in the optical properties of tissue during and after radiofrequency ablation, file e0c31c11-2924-4599-e053-1705fe0aef77
|
25
|
|
Multidistance time domain diffuse optical spectroscopy in the assessment of abdominal fat heterogeneity, file e0c31c0c-58ec-4599-e053-1705fe0aef77
|
24
|
|
High throughput detection chain for time domain optical mammography, file e0c31c0d-326f-4599-e053-1705fe0aef77
|
24
|
|
Novel approaches to photon detection and timing for 7-wavelength time domain optical mammography, file e0c31c0c-6b38-4599-e053-1705fe0aef77
|
20
|
|
Monitoring Neoadjuvant Chemotherapy Through Time Domain Diffuse Optical Spectroscopy in Breast Cancer Patients: Preliminary Clinical Results, file 00e0aa7f-7133-4e5e-bfe7-b756d9d2cde1
|
17
|
|
Monitoring the haemodynamic response to visual stimulation in glaucoma patients, file e0c31c12-92b8-4599-e053-1705fe0aef77
|
17
|
|
Breast lesion classification based on absorption and composition parameters: a look at SOLUS first outcomes, file 191f2ae5-6adf-42b0-8e32-3c0bfb89405f
|
16
|
|
Evaluation of neoadjuvant chemotherapy-induced changes in contralateral healthy breast tissue through diffuse optical spectroscopy, file 0584fa4e-f06e-46e3-87d8-d37281a21ad5
|
12
|
|
SOLUS: A Smart OpticaL and UltraSound device for the diagnostics of breast cancer, file 8c4fca60-3bf5-4849-836b-4059b8ee55c1
|
8
|
|
Advances in single-photon detection and timing for Time Domain multi-wavelength Optical Mammography, file e0c31c0c-9adc-4599-e053-1705fe0aef77
|
7
|
|
In vivo validation of time domain optical mammograph with high-sensitivity detection chain, file e0c31c12-5b11-4599-e053-1705fe0aef77
|
7
|
|
Evaluation of neoadjuvant chemotherapy-induced changes in contralateral healthy breast tissue through diffuse optical spectroscopy, file 7b67bc0c-5819-4917-931c-9135ce87fa1a
|
3
|
|
Preliminary Evidence of the Efficacy of Time-Resolved Broad-Spectrum Optical Mammography in Monitoring Neoadjuvant Chemotherapy, file 8be6ffdc-cb4c-4c06-8b4c-f2153fc91bdf
|
3
|
|
Time-gated optical projection tomography allows visualization of adult zebrafish internal structures, file e0c31c08-0a64-4599-e053-1705fe0aef77
|
3
|
|
Solid heterogeneous phantoms for multimodal ultrasound and diffuse optical imaging: an outcome of the SOLUS project for standardization, file e0c31c0e-639b-4599-e053-1705fe0aef77
|
3
|
|
Spatially-enhanced time-domain NIRS for determination of optical properties in layered structures, file e0c31c0f-0037-4599-e053-1705fe0aef77
|
3
|
|
Filament 3D printing technology for diffuse optics applications: Advantages and drawbacks, file e0c31c12-6714-4599-e053-1705fe0aef77
|
3
|
|
Initial examples of the SOLUS multimodal potential, file 82ed99ca-d199-4936-b28a-caae273b2db1
|
2
|
|
Non-Surgical Lower-Limb Rehabilitation Enhances Quadriceps Strength in Inpatients with Hip Fracture: A Study on Force Capacity and Fatigue, file af5000e4-b41e-463c-bf66-4d551ce308ca
|
2
|
|
No Difference in Muscle Basal Oxygenation in a Bedridden Population Pre and Post Rehabilitation, file c1df44a6-1586-4440-9578-5d52f3bee4a0
|
2
|
|
Temporal propagation of spatial information in turbid media, file e0c31c07-d59e-4599-e053-1705fe0aef77
|
2
|
|
Diffuse optics using a dual window fast-gated counter, file e0c31c08-1c0b-4599-e053-1705fe0aef77
|
2
|
|
Detection of inhomogeneities in diffusive media using spatially modulated light, file e0c31c08-44cf-4599-e053-1705fe0aef77
|
2
|
|
In-vivo multilaboratory investigation of the optical properties of the human head, file e0c31c09-6064-4599-e053-1705fe0aef77
|
2
|
|
Frequency Offset Raman Spectroscopy (FORS) for subsurface probing of highly scattering media, file e0c31c0c-58ef-4599-e053-1705fe0aef77
|
2
|
|
In vivo Study of the Layered Structure on the Abdomen by Broadband Time-Domain Diffuse Optical Spectroscopy, file e0c31c0f-36d7-4599-e053-1705fe0aef77
|
2
|
|
High-throughput multi-wavelength time-resolved optical mammograph: importance of in vivo performance assessment, file e0c31c11-4b56-4599-e053-1705fe0aef77
|
2
|
|
Monitoring Neoadjuvant Chemotherapy Through Time Domain Diffuse Optical Spectroscopy in Breast Cancer Patients: Preliminary Clinical Results, file ff226058-b16d-4811-ad71-1d7a76e4b040
|
2
|
|
No Difference in Muscle Basal Oxygenation in a Bedridden Population Pre and Post Rehabilitation, file 4cc0a621-b211-428b-b8a4-15009764b016
|
1
|
|
Performance assessment of photon migration instruments: the MEDPHOT protocol, file e0c31c07-c86d-4599-e053-1705fe0aef77
|
1
|
|
Feasibility of white-light time-resolved optical mammography, file e0c31c07-cac3-4599-e053-1705fe0aef77
|
1
|
|
Load-dependent brain activation assessed by time-domain functional near-infrared spectroscopy during a working memory task with graded levels of difficulty, file e0c31c07-f292-4599-e053-1705fe0aef77
|
1
|
|
Optical Spectroscopy up to 1700 nm: a Time-Resolved Approach Combined with an InGaAs/InP Single-Photon Avalanche Diode, file e0c31c08-02f2-4599-e053-1705fe0aef77
|
1
|
|
Memory effect in gated single-photon avalanche diodes: a limiting noise contribution similar to afterpulsing, file e0c31c08-0d6b-4599-e053-1705fe0aef77
|
1
|
|
Time-resolved diffuse optical spectroscopy up to 1.7 μm for the characterization of diffusive materials, file e0c31c08-1dd1-4599-e053-1705fe0aef77
|
1
|
|
Multi-center study of the optical properties of the human head, file e0c31c08-2dc1-4599-e053-1705fe0aef77
|
1
|
|
Time-Resolved Functional Near-Infrared Spectroscopy at Null Source-Detector Separation, file e0c31c08-3584-4599-e053-1705fe0aef77
|
1
|
|
Photosensitizers and PDT, file e0c31c09-4e68-4599-e053-1705fe0aef77
|
1
|
|
Frequency offset Raman spectroscopy (FORS) for depth probing of diffusive media, file e0c31c0a-6fe1-4599-e053-1705fe0aef77
|
1
|
|
Attractive new technologies for 7-wavelength time domain optical mammography, file e0c31c0b-a7d8-4599-e053-1705fe0aef77
|
1
|
|
Novel approaches to photon detection and timing for 7-wavelength time domain optical mammography, file e0c31c0c-4146-4599-e053-1705fe0aef77
|
1
|
|
Multidistance time domain diffuse optical spectroscopy in the assessment of abdominal fat heterogeneity, file e0c31c0c-6fb0-4599-e053-1705fe0aef77
|
1
|
|
TD-fNIRS for diagnosing glaucoma: A clinical pilot study, file e0c31c0e-d501-4599-e053-1705fe0aef77
|
1
|
|
Optical Quantification of Collagen and Breast Cancer: Lesion Classification and Risk Estimate, file e0c31c0e-f563-4599-e053-1705fe0aef77
|
1
|
|
DNA microarray reading by an intensified CCD camera with picosecond time resolution, file e0c31c0f-2c87-4599-e053-1705fe0aef77
|
1
|
|
Monitoring radiofrequency ablation of biological tissue using broadband time-resolved diffuse optical spectroscopy, file e0c31c0f-3527-4599-e053-1705fe0aef77
|
1
|
|
Use of 3D printed PLA for diffuse optics, file e0c31c10-46fd-4599-e053-1705fe0aef77
|
1
|
|
Key features in the optical properties of tissue during and after radiofrequency ablation, file e0c31c11-04b4-4599-e053-1705fe0aef77
|
1
|
| Totale |
7.285 |