Inadequacy of manual measurements compared to automated CT volumetry in assessment of treatment response of pulmonary metastases using RECIST criteria.
about
A novel method for volumetric MRI response assessment of enhancing brain tumorsA novel, reproducible, and objective method for volumetric magnetic resonance imaging assessment of enhancing glioblastomaPrognostic value of tumor volumetry data of routine imaging data in a head and neck cancer registry.Quantitative imaging to assess tumor response to therapy: common themes of measurement, truth data, and error sourcesRECIST revised: implications for the radiologist. A review article on the modified RECIST guideline.Monitoring radiographic brain tumor progression.Tumor volume as an alternative response measurement for imatinib treated GIST patients.Volume assessment accuracy in computed tomography: a phantom study.A computer-aided diagnosis for evaluating lung nodules on chest CT: the current status and perspectiveGrowth pattern analysis of murine lung neoplasms by advanced semi-automated quantification of micro-CT images.Do Diametric Measurements Provide Sufficient and Reliable Tumor Assessment? An Evaluation of Diametric, Areametric, and Volumetric Variability of Lung Lesion Measurements on Computerized Tomography Scans.Imaging response assessment in oncologyComparison of 1-, 2-, and 3-Dimensional Tumor Response Assessment After Neoadjuvant GTX-RT in Borderline-Resectable Pancreatic Cancer.Clinicopathological characteristics of immunoglobulin G4-related sialadenitisA Comparison of Lung Nodule Segmentation Algorithms: Methods and Results from a Multi-institutional StudyThe use of tumour volumetrics to assess response to therapy in anticancer clinical trialsPrognostic value of different CT measurements in early therapy response evaluation in patients with metastatic colorectal cancerAssessment of Volumetric versus Manual Measurement in Disseminated Testicular Cancer; No Difference in Assessment between Non-Radiologists and Genitourinary RadiologistReduction in growth threshold for pulmonary metastases: an opportunity for volumetry and its impact on treatment decisionsThe Lung Image Database Consortium (LIDC): a comparison of different size metrics for pulmonary nodule measurementsLow-dose CT: technique, reading methods and image interpretation.Unidimensional Measurement May Evaluate Target Lymph Nodal Response After Induction Chemotherapy for Nasopharyngeal Carcinoma.Clinical Evaluation of a Fully-automatic Segmentation Method for Longitudinal Brain Tumor Volumetry.Noncalcified lung nodules: volumetric assessment with thoracic CTComparison of two-dimensional and three-dimensional iterative watershed segmentation methods in hepatic tumor volumetricsImaging assessment of tumor response: past, present and future.Effect of the high-pitch mode in dual-source computed tomography on the accuracy of three-dimensional volumetry of solid pulmonary nodules: a phantom study.Unidimensional measurement may be superior to assess primary tumor response after neoadjuvant chemotherapy for nasopharyngeal carcinoma.X-ray computed tomography: semiautomated volumetric analysis of late-stage lung tumors as a basis for response assessments.Solitary pulmonary nodule: detection and management.Detection of time-varying structures by large deformation diffeomorphic metric mapping to aid reading of high-resolution CT images of the lung.Performance of computer-aided detection of pulmonary nodules in low-dose CT: comparison with double reading by nodule volume.Comparison of radiological and pathohistological response to neoadjuvant chemotherapy combined with regional hyperthermia (RHT) and study of response dependence on the applied thermal parameters in patients with soft tissue sarcomas (STS).Comparison of flat-panel-detector-based CT and multidetector-row CT in automated volumetry of pulmonary nodules using an anthropomorphic chest phantom.Detection and quantification of the solid component in pulmonary subsolid nodules by semiautomatic segmentation.Development and Validation of Segmentation Method for Lung Cancer Volumetry on Chest CT.Volumetric analysis of lung nodules in computed tomography (CT): comparison of two different segmentation algorithm softwares and two different reconstruction filters on automated volume calculation.Liver tumors segmentation from CTA images using voxels classification and affinity constraint propagation.Interobserver and intraobserver variability in the response evaluation of cancer therapy according to RECIST and WHO-criteria.Comparison of semi-automated and manual methods to measure the volume of liver tumours on MDCT images.
P2860
Q28743259-AD0C9B16-3052-4459-B25F-57E634335F45Q30408669-FA23D2D0-9DA8-4AB9-8F6B-AE9D25A1D6A0Q30689250-AB9BEDFE-13B6-4279-885B-64A04A85FE65Q33517098-FAD1BD6D-C005-49B7-81EF-8B97832771DDQ33857343-FAF97DD0-FE5E-4DE5-A5AE-EB2F1BD8F289Q34070645-899EFB3B-413F-48BC-8555-F4D7B8F27AE0Q34469701-AD930497-2509-47CB-BB4C-1410535277C4Q34636058-04570EFB-7C45-4A6D-9E51-61C5A0BB64E7Q34641954-49EB1335-5E0C-4081-98CF-DDCB2E5F0948Q35078219-66B13564-A54C-4731-A84B-7407C567119AQ35639476-B4D8F415-5EBF-4FFF-A681-31F595EF12CBQ35650697-57C92E6D-BD32-44D4-8A2A-A0F9C039296FQ35768026-C1C0A700-D22E-4A4D-930C-5B88F4573F2AQ35869679-ABF035BC-EDF0-4E0E-AD8B-1935C68DC761Q35915001-C8025A04-754B-4545-AF84-766CF0945F66Q36081423-10F87335-A544-4C90-8DD0-559FEC908D7BQ36084851-D18C981F-DBD7-4F05-8013-CE6E34C91DC1Q36247638-AA86AE7E-2D1E-44B7-8F74-D8C5F155EB9DQ36325952-1385B112-98BB-4AA1-AA83-CB31C8E51E20Q36419693-B0DFE114-DB30-4FFB-90D2-AB8A67CEB8DCQ36602229-C6F1AADF-3631-41E7-BC5F-0D6D8E082E6AQ36663825-E11862DD-B023-4447-B4F2-E13AFDCB67BCQ36713514-5F9CD7B5-036F-4B29-BFC1-C5DBF7C33EB6Q37145964-B03B109F-81C0-44EC-8116-89E57FC82F24Q37170295-48CEA56B-01BD-4D98-A803-AE76778DDA13Q37875082-3E233361-AD1A-4591-BEE9-03EF9AF3FAC0Q40797918-8F866A3D-C04E-4520-8B24-1A1D4E254CF2Q41470825-6FE5F26E-CED8-4037-8764-66C4FE7B330CQ41816122-BF18400E-0D73-40DE-8245-46A46BD65107Q41866735-34508076-BD8B-4AAD-BF44-61C46FEDF564Q41869080-A4337F09-DEFC-4BCA-B985-FE5AA344DACBQ42321963-C878FCFE-ADB5-4F8F-B208-EA185E6DE652Q43294327-7053CDC9-3B1B-42E7-9D0E-432E5F84D3D0Q43633054-63F70F0C-0341-4886-B525-136F82759827Q46779424-944F1C2B-A15D-40A8-A81A-105771E9ACE9Q49588242-25549181-2EFC-4494-B3EE-5A3D42D2E79DQ51185051-443E36B9-D11C-46A9-9112-83632EF797B3Q51686495-2A065F55-AC75-41F1-991B-A3DFC1B6C970Q53066813-83F6562A-6DFA-4BD7-8E0B-A77DEFE72C44Q53077502-CE449A64-5ECD-47A6-A886-C481FA7FC84C
P2860
Inadequacy of manual measurements compared to automated CT volumetry in assessment of treatment response of pulmonary metastases using RECIST criteria.
description
2005 nî lūn-bûn
@nan
2005年の論文
@ja
2005年学术文章
@wuu
2005年学术文章
@zh
2005年学术文章
@zh-cn
2005年学术文章
@zh-hans
2005年学术文章
@zh-my
2005年学术文章
@zh-sg
2005年學術文章
@yue
2005年學術文章
@zh-hant
name
Inadequacy of manual measureme ...... astases using RECIST criteria.
@en
Inadequacy of manual measureme ...... astases using RECIST criteria.
@nl
type
label
Inadequacy of manual measureme ...... astases using RECIST criteria.
@en
Inadequacy of manual measureme ...... astases using RECIST criteria.
@nl
prefLabel
Inadequacy of manual measureme ...... astases using RECIST criteria.
@en
Inadequacy of manual measureme ...... astases using RECIST criteria.
@nl
P2093
P1433
P1476
Inadequacy of manual measureme ...... astases using RECIST criteria.
@en
P2093
Christoph Engelke
Ernst J Rummeny
Florian Auer
Gerhard Kohl
Katharina Marten
Stefan Schmidt
P2860
P2888
P304
P356
10.1007/S00330-005-0036-X
P407
P577
2005-12-06T00:00:00Z