about
A priori Prediction of Neoadjuvant Chemotherapy Response and Survival in Breast Cancer Patients using Quantitative UltrasoundQuantitative ultrasound assessment of breast tumor response to chemotherapy using a multi-parameter approach.High-frequency ultrasound detection of cell death: Spectral differentiation of different forms of cell death in vitroMultiparametric monitoring of chemotherapy treatment response in locally advanced breast cancer using quantitative ultrasound and diffuse optical spectroscopyQuantification of Ultrasonic Scattering Properties of In Vivo Tumor Cell Death in Mouse Models of Breast Cancer.Quantitative evaluation of cell death response in vitro and in vivo using conventional-frequency ultrasoundQuantitative ultrasound spectroscopic imaging for characterization of disease extent in prostate cancer patients.Noninvasive characterization of locally advanced breast cancer using textural analysis of quantitative ultrasound parametric images.Early prediction of therapy responses and outcomes in breast cancer patients using quantitative ultrasound spectral textureQuantitative ultrasound characterization of tumor cell death: ultrasound-stimulated microbubbles for radiation enhancement.Conventional frequency ultrasonic biomarkers of cancer treatment response in vivo.Evaluation of neoadjuvant chemotherapy response in women with locally advanced breast cancer using ultrasound elastography.Diffuse optical spectroscopy evaluation of treatment response in women with locally advanced breast cancer receiving neoadjuvant chemotherapyQuantitative ultrasound visualization of cell death: emerging clinical applications for detection of cancer treatment response.Ultrasound Elastography of the Prostate Using an Unconstrained Modulus Reconstruction Technique: A Pilot Clinical Study.Low-frequency ultrasound radiosensitization and therapy response monitoring of tumors: an in vivo study.Predicting breast cancer response to neoadjuvant chemotherapy using pretreatment diffuse optical spectroscopic texture analysis.Assessment of tumor response to radiation and vascular targeting therapy in mice using quantitative ultrasound spectroscopy.Low-frequency quantitative ultrasound imaging of cell death in vivo.Towards clinical prostate ultrasound elastography using full inversion approach.Computer Aided Theragnosis Using Quantitative Ultrasound Spectroscopy and Maximum Mean Discrepancy in Locally Advanced Breast Cancer.Chemotherapy-Response Monitoring of Breast Cancer Patients Using Quantitative Ultrasound-Based Intra-Tumour HeterogeneitiesCorrection: Quantitative ultrasound assessment of breast tumor response to chemotherapy using a multi-parameter approach.Breast-Lesion Characterization using Textural Features of Quantitative Ultrasound Parametric Maps.Diffuse optical imaging for monitoring treatment response in breast cancer patients.Statistical finite element method for real-time tissue mechanics analysis.Toward in vivo lung's tissue incompressibility characterization for tumor motion modeling in radiation therapy.Response monitoring of breast cancer patients receiving neoadjuvant chemotherapy using quantitative ultrasound, texture, and molecular features.Early detection of chemotherapy-refractory patients by monitoring textural alterations in diffuse optical spectroscopic images.Categorizing extent of tumor cell death response to cancer therapy using quantitative ultrasound spectroscopy and maximum mean discrepancy.Estimation of lung's air volume and its variations throughout respiratory CT image sequences.Non-invasive evaluation of breast cancer response to chemotherapy using quantitative ultrasonic backscatter parameters.Measurement of lung hyperelastic properties using inverse finite element approachCT-enhanced ultrasound image of a totally deflated lung for image-guided minimally invasive tumor ablative proceduresTowards modeling tumor motion in the deflated lung for minimally invasive ablative proceduresQuantitative ultrasound spectral parametric maps: early surrogates of cancer treatment responseQuantitative ultrasound evaluation of tumor cell death response in locally advanced breast cancer patients receiving chemotherapyQuantitative ultrasound characterization of locally advanced breast cancer by estimation of its scatterer propertiesBreast Cancer Treatment Response Monitoring Using Quantitative Ultrasound and Texture Analysis: Comparative Analysis of Analytical ModelsQuantitative MRI Biomarkers of Stereotactic Radiotherapy Outcome in Brain Metastasis
P50
Q30358741-0ecc738b-4533-6243-382a-cbefd9a694a8Q30365727-59a75a5b-44c4-7c4e-9e76-77307f50541aQ30366364-c78208b2-42f7-71e4-2877-b96ccd174a4dQ30375438-570c2505-4c0c-6290-b2a7-ba4d2b0d9aa6Q30392082-307490b0-4f44-89ac-5045-1237e67e36f8Q30402219-c9ff80f1-4ec0-7ad1-8519-20ef3153a4b3Q30417067-BE372543-0CF9-4087-B259-738CB14310E5Q30418833-4603D04A-9889-49CE-A513-049266DB7C10Q30433481-01a704e3-4d8a-7d66-9c68-b83b072b34efQ30434411-E96DB545-0A65-4724-B4CA-CB4010B3D930Q30453647-8ae13edd-4217-fb86-ba6f-26a1bf338605Q30458231-541ae998-4431-03c8-705e-6cf3bea8e545Q36199832-d6ecf52e-4c89-f8ae-f174-c8063df09879Q38077967-11982545-1B5E-41DC-9753-72B2D670359FQ38666376-6bc3b6c1-4923-199f-620f-afa643c11f29Q38713299-bffc44ec-48e0-3cc6-db57-1c95457cd69fQ38832422-EB3B610F-2B25-4783-930F-5E71403890AAQ38847330-8ccdb7fa-4c01-3d37-60e4-c7747fd5d184Q39113527-CB69019C-5814-4B6C-B90D-10F06B78E840Q40175047-cdb9eed3-4a5e-17c3-6f17-c2235be08075Q40361008-7cdf8cf5-41b9-abca-be5b-e8e7d3448282Q41606810-53EF5B1D-56D4-4BBF-86BE-C888FD35B032Q42338686-53033bcd-4f1d-8f3c-08aa-4d5e7ba44b61Q42652763-0414E8C9-0E42-4C80-A842-BAE0AD35CB2FQ43512587-1A0C0356-A3E1-453B-B8B5-FEF072B9C3BEQ44551586-A2244E2A-75D4-465F-BC78-BB6E0AEDD687Q44623866-C0E346B7-3EEC-47B0-849A-16B297E76101Q47214255-053a3a0a-4053-a4d2-0294-6efe8b1f0303Q50782447-FD9EBA50-66B1-4C84-BEFA-D5791489F040Q51081664-D49C563A-CDE2-473D-97D7-32588F1F8ADEQ51646977-03E235AB-FB39-4F04-BC2B-C1FCAC118C17Q53655276-71653295-6662-41C0-94C3-5F4086AA9779Q84494201-1F9DD402-C001-48E7-852A-474065AEF7BBQ84576100-5E930993-D9DE-4FD8-B2E8-D66EF3DCD1CAQ84809491-15296D69-CDD8-4A2D-AAA9-41433BA71272Q86022235-BC457590-73E6-47B5-97F9-6D152F01F075Q86174433-DB3EEEE7-21C5-4443-B499-2284059C27D3Q87030972-C8DB94EE-7412-4C17-926F-E07A76A42C59Q92042380-1A53029C-5801-4631-9D3D-702A31AF2C35Q92287304-3E84E168-1A3C-4CF5-8529-43A26041B75E
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Ali Sadeghi-Naini
@ast
Ali Sadeghi-Naini
@en
Ali Sadeghi-Naini
@es
Ali Sadeghi-Naini
@nl
type
label
Ali Sadeghi-Naini
@ast
Ali Sadeghi-Naini
@en
Ali Sadeghi-Naini
@es
Ali Sadeghi-Naini
@nl
prefLabel
Ali Sadeghi-Naini
@ast
Ali Sadeghi-Naini
@en
Ali Sadeghi-Naini
@es
Ali Sadeghi-Naini
@nl
P1053
C-2818-2013
P106
P1153
16318916000
P21
P2456
P31
P3829
P496
0000-0001-5055-339X