Multiparametric MRI of prostate cancer: an update on state-of-the-art techniques and their performance in detecting and localizing prostate cancer.
about
Prostate Radiotherapy in the Era of Advanced Imaging and Precision MedicineClinical and research applications of simultaneous positron emission tomography and MRICurrent status of magnetic resonance imaging (MRI) and ultrasonography fusion software platforms for guidance of prostate biopsiesMultiparametric MRI in biopsy guidance for prostate cancer: fusion-guidedMagnetic resonance elastography (MRE) in cancer: Technique, analysis, and applicationsBolus arrival time and its effect on tissue characterization with dynamic contrast-enhanced magnetic resonance imaging.B-mode and acoustic radiation force impulse (ARFI) imaging of prostate zonal anatomy: comparison with 3T T2-weighted MR imaging.Prostate cancer detection and diagnosis: the role of MR and its comparison with other diagnostic modalities--a radiologist's perspective.Multiparametric Magnetic Resonance Imaging of the Prostate: Repeatability of Volume and Apparent Diffusion Coefficient Quantification.A data-driven approach to prostate cancer detection from dynamic contrast enhanced MRI.Multimodal imaging for improved diagnosis and treatment of cancers.The Impact of Arterial Input Function Determination Variations on Prostate Dynamic Contrast-Enhanced Magnetic Resonance Imaging Pharmacokinetic Modeling: A Multicenter Data Analysis ChallengeRestriction spectrum imaging: An evolving imaging biomarker in prostate MRI.MRI-targeted biopsies versus systematic transrectal ultrasound guided biopsies for the diagnosis of localized prostate cancer in biopsy naïve men.Treatment planning for prostate focal laser ablation in the face of needle placement uncertainty.Transperineal in-bore 3-T MR imaging-guided prostate biopsy: a prospective clinical observational study.3T MR-guided in-bore transperineal prostate biopsy: A comparison of robotic and manual needle-guidance templatesMechatronic system for in-bore MRI-guided insertion of needles to the prostate: An in vivo needle guidance accuracy study.The role of pathology correlation approach in prostate cancer index lesion detection and quantitative analysis with multiparametric MRI.Open-source image registration for MRI-TRUS fusion-guided prostate interventions.Quantitative pharmacokinetic analysis of prostate cancer DCE-MRI at 3T: comparison of two arterial input functions on cancer detection with digitized whole mount histopathological validationFalse positive and false negative diagnoses of prostate cancer at multi-parametric prostate MRI in active surveillanceEndorectal multiparametric MRI of the prostate: incremental effect of perfusion imaging on biopsy target identification.Characterization of gradient echo signal decays in healthy and cancerous prostate at 3T improves with a Gaussian augmentation of the mono-exponential (GAME) modelBiparametric versus multiparametric MRI in the diagnosis of prostate cancerTissue-scale, personalized modeling and simulation of prostate cancer growth.Effect of color visualization and display hardware on the visual assessment of pseudocolor medical images.Association of multiparametric MRI quantitative imaging features with prostate cancer gene expression in MRI-targeted prostate biopsies.A comparison of two methods for estimating DCE-MRI parameters via individual and cohort based AIFs in prostate cancer: a step towards practical implementation.Dynamic contrast-enhanced magnetic resonance imaging in prostate cancer clinical trials: potential roles and possible pitfalls.Does a cleansing enema improve image quality of 3T surface coil multiparametric prostate MRI?Brachytherapy in pelvic malignancies: a review for radiologists.Optimizing Patient Population for MP-MRI and Fusion Biopsy for Prostate Cancer Detection.Novel methods for mapping the cavernous nerves during radical prostatectomy.Comparison of quantitative apparent diffusion coefficient parameters with prostate imaging reporting and data system V2 assessment for detection of clinically significant peripheral zone prostate cancer.Interreader Agreement of Prostate Imaging Reporting and Data System Version 2 Using an In-Bore MRI-Guided Prostate Biopsy Cohort: A Single Institution's Initial Experience.Percutaneous image-guided cryoablation: current applications and results in the oncologic field.Quantitative diffusion-weighted imaging and dynamic contrast-enhanced characterization of the index lesion with multiparametric MRI in prostate cancer patients.In-bore magnetic resonance-guided transrectal biopsy for the detection of clinically significant prostate cancer.Pathologic correlation of transperineal in-bore 3-Tesla magnetic resonance imaging-guided prostate biopsy samples with radical prostatectomy specimen.
P2860
Q26749961-8468EF4B-C615-4F10-8517-A979525288E9Q26998774-613921ED-8D8C-434B-897E-A6111B0059BEQ27001055-3F360423-EC35-421D-ACCF-297E72B2BBAAQ27010554-9EE385A2-6B09-4DAD-AFDE-6A558E856273Q28081554-336AA033-3E3A-4A44-A38C-910CB73EBC38Q30353922-A262D0FC-4941-4285-9959-45FCA634E829Q30395077-2E019560-6DC9-46D3-8421-D8470860F59FQ30422070-849A0398-059A-4345-A525-E09D3CD772E0Q30491569-00ED88B7-7662-4952-9E1C-FF8477B8FB99Q30838603-2DCE5041-5B8D-4FDC-92F8-4AA6254EDE6AQ30849413-4BEDF81D-A6AE-4B72-8CFD-D0372041A143Q31097630-D4635390-C603-485E-A8C3-9FE738E2779CQ31121795-82286239-1133-48A7-B979-16B5A384C741Q35068260-C0178FCB-9902-4687-B53F-EDA6A1D63460Q35081606-6B8FBFBD-B64C-47BC-AC06-19809A54D107Q35100748-D6FE13AF-6E36-490E-B211-3D8DE3FC930EQ35224636-DD99F655-16CB-49A1-8B74-833E32044B4DQ35241221-C5ADBFE9-B373-43B4-88D3-D6E86166CA35Q35600604-026AF8E7-39D9-4883-AAF0-62518B7541CAQ35671948-6C336B21-C5C6-4807-BF08-610828CFADD9Q35738413-1BD7F917-C2E6-42C1-9913-F9BDD4A7111BQ35902253-66826113-43E1-4357-8A63-D7D0F81C4BB6Q36860624-B46FA188-BB2F-4D72-8350-2B5223027C4CQ37118580-66831066-57F6-4C9D-ABF7-0F2038C86881Q37188694-BBEF87FC-9F84-431C-9C58-136B2F733CC4Q37473679-AE64DE0C-E62D-43CF-B787-2F0DE63096BDQ37490121-9241299E-56E1-4620-9960-55F17E408901Q37619763-3701144C-50AD-4D6E-995B-A23D5DE37550Q37662706-E4FD9667-7C82-4FE4-894E-AB344B7A5447Q37721529-AF51AECB-AE2C-4FDA-9FF6-C6C02FA9781EQ38306633-F1F79815-B92F-4045-AB11-E834E0555013Q38395279-03550EE2-7336-4A50-9927-C1DB7418B42EQ38524498-2B83EAE6-607A-4630-BC79-310752544816Q38563494-90244C43-A272-46CF-9E19-ACB091285A68Q38608810-5FF52FB8-3692-446F-A402-E1007F85404BQ38704982-510B194E-F592-43D4-8E09-53E5FAD46996Q38796145-FCFE39AF-5B47-42E2-A307-BB711F210017Q38904161-11E6BF6A-6DF8-4D29-A34A-24C63F12CB0EQ39001746-0E7B618A-73D1-4CEA-82E2-0AE890B5D7E5Q39178750-E646F767-7CF9-4EB1-BE7E-66AA3D275574
P2860
Multiparametric MRI of prostate cancer: an update on state-of-the-art techniques and their performance in detecting and localizing prostate cancer.
description
article científic
@ca
article scientifique
@fr
articol științific
@ro
articolo scientifico
@it
artigo científico
@gl
artigo científico
@pt
artigo científico
@pt-br
artikel ilmiah
@id
artikull shkencor
@sq
artículo científico
@es
name
Multiparametric MRI of prostat ...... nd localizing prostate cancer.
@en
type
label
Multiparametric MRI of prostat ...... nd localizing prostate cancer.
@en
prefLabel
Multiparametric MRI of prostat ...... nd localizing prostate cancer.
@en
P2093
P2860
P356
P1476
Multiparametric MRI of prostat ...... and localizing prostate cancer
@en
P2093
Clare M C Tempany
Fiona M Fennessy
John V Hegde
Lawrence P Panych
Robert V Mulkern
Stephan E Maier
P2860
P304
P356
10.1002/JMRI.23860
P577
2013-05-01T00:00:00Z