about
FOCUSR: feature oriented correspondence using spectral regularization--a method for precise surface matchingPatient-specific anisotropic model of human trunk based on MR data.Articulated spine models for 3-D reconstruction from partial radiographic data.Multimodal image registration of the scoliotic torso for surgical planning.Time series spinal radiographs as prognostic factors for scoliosis and progression of spinal deformities.Quantitative assessment of myocardial fibrosis in an age-related rat model by ex vivo late gadolinium enhancement magnetic resonance imaging with histopathological correlationReliability of trunk shape measurements based on 3-D surface reconstructions.A three-dimensional retrospective analysis of the evolution of spinal instrumentation for the correction of adolescent idiopathic scoliosis.Clinical methods for quantifying body segment posture: a literature review.Simulations for mechanical ventilation in children: review and future prospects.Imaging of early modification in cardiomyopathy: the doxorubicin-induced model.A multi-scale tensor voting approach for small retinal vessel segmentation in high resolution fundus images.Assessment of Breast Asymmetry in Adolescent Idiopathic Scoliosis Using an Automated 3D Body Surface Measurement Technique.Changes in Trunk Appearance After Scoliosis Spinal Surgery and Their Relation to Changes in Spinal Measurements.Preliminary evaluation of a computer-assisted tool for the design and adjustment of braces in idiopathic scoliosis: a prospective and randomized study.Non invasive clinical assessment of trunk deformities associated with scoliosis.Prediction of scoliosis progression with serial three-dimensional spinal curves and the artificial progression surface technique.Validity of a quantitative clinical measurement tool of trunk posture in idiopathic scoliosis.Reliability of a quantitative clinical posture assessment tool among persons with idiopathic scoliosis.Differences in standing and sitting postures of youth with idiopathic scoliosis from quantitative analysis of digital photographs.Prediction of scoliosis progression in time series using a hybrid learning technique.Scoliotic progression patterns in prognostic factors and future prediction of spinal deformity progression.Three-dimensional reconstruction of a vascular network by dynamic tracking of magnetite nanoparticles.Automatic Screening and Grading of Age-Related Macular Degeneration from Texture Analysis of Fundus Images.Deep feature learning for automatic tissue classification of coronary artery using optical coherence tomography.Fast brain matching with spectral correspondence.Evaluation of reducibility of trunk asymmetry in lateral bending.Non invasive classification system of scoliosis curve types using least-squares support vector machines.Self-calibration of biplanar radiographic images through geometric spine shape descriptors.Scoliosis follow-up using noninvasive trunk surface acquisition.Three-dimensional subclassification of Lenke type 1 scoliotic curves.Application of an RGBD augmented C-arm for minimally invasive scoliosis surgery assistance.Textural analysis of late gadolinium enhanced magnetic resonance images can discriminate acute from chronic myocardial infarction.To distinguish flexible and rigid lumbar curve from MRI texture analysis in adolescent idiopathic scoliosis: A feasibility study.Optimal 3D reconstruction of coronary arteries for 3D clinical assessment.A novel fully automatic measurement of apparent breast volume from trunk surface mesh.Multilevel analysis of trunk surface measurements for noninvasive assessment of scoliosis deformities.Robust universal nonrigid motion correction framework for first-pass cardiac MR perfusion imaging.Human atlas of the cardiac fiber architecture: study on a healthy population.Spectral shape analysis of human torsos: Application to the evaluation of scoliosis surgery outcome.
P50
Q28679181-2D1BF6BB-14F6-48A1-903A-D039A8443407Q30952887-0DE2908A-BFCF-43E9-AC4B-1D0D0A63A8AFQ33383310-CC03CF7D-5E5B-4ADA-B9DA-D4655A7DB172Q34536664-E1B8C796-0BC2-4F30-9870-A210836BBF32Q34562433-76376E37-AF3B-4A86-A3F9-34B606CB86B9Q36113656-6C954CDE-9BC3-4516-9D83-A08534CB06EAQ36421194-B1F3002E-2156-4619-83C3-E1836FB4BC2FQ37040493-5FFB3F07-524F-4D22-A1C3-460198FD2253Q37766873-00E4EFF6-EDB9-4DF2-A42E-C8487CB96050Q38093586-5F2BB917-7300-47FB-AC39-60DBBBFA0CF9Q38112616-A394B7F5-D3FF-4D70-8ED7-B560F742A94BQ38407097-B9ABC719-009B-4FBF-9E6D-15DE37C820AEQ38816262-F21935E8-8C4B-4BEF-9675-BD40C41E0678Q39122184-3F0F56C9-6FA3-45AB-A8F4-EAD0ABA73D08Q39336972-FEA82FA9-2971-45BE-8513-68284F2279CCQ39539755-BE8A8B5A-21C8-4856-A8BC-A77C3E76BD82Q39858978-82726EE7-5E09-46D5-BD10-BC06B5E344E4Q39945339-87B7F0A4-4D17-47D5-A0D5-00E1ACBF4B61Q40017213-9B95F440-4489-4A6D-B9F7-CA086349AA62Q40084560-9D22E3C6-8435-43ED-A1CF-73E5B85E2D5BQ40244772-CA76A38C-E13C-4BE4-AD27-47E501F34680Q40269477-AB12AB4B-7428-4682-970D-C512E5909296Q40475351-D7FC650A-97D7-4F3F-A760-9947975B8DDCQ40734890-614B0121-AAEB-43AF-B7EF-FD871540F4D1Q42031240-308B1006-5006-463A-938E-B0E5F4A0C1D0Q42609257-6D9C17A9-9EFA-40F5-A753-B592DAF8BEC5Q43027387-C9F3BB60-E8BF-4756-A84F-E5BEC4B496E8Q44040496-B7124A96-89AE-46B8-AE11-670CC9A54A15Q44074440-D36F844D-0C06-4B1F-BEAB-17F358A01DB1Q45355591-1F76CC40-96F2-4137-B766-EA08676C4AC9Q46434508-51337F0D-C5A9-44FF-9554-4077FF904455Q47171814-ACEFBCC5-313D-42D7-BE73-EC779C3909ACQ47199340-CD55C26C-1AD5-4CDB-A039-DD80E8A752D0Q47216111-F690D47D-A423-43C5-B501-4BF5ABF97AE5Q47596203-61565A75-0699-41DB-B1FB-43FF64B23CC4Q47878483-AEADC4F6-4D3E-44C7-958A-E6E0ED60634EQ47947391-FD89BE26-5B55-4B2C-AD5A-3A622E7F5360Q47973256-36C32265-24C8-49EB-97F3-726BE2D9E160Q48458142-8337A487-0AF4-4C7C-B7D5-EB1CBF2BD6A9Q48557216-A1EBB868-CBEF-48F7-946A-9050E3A0F926
P50
name
Farida Cheriet
@ast
Farida Cheriet
@en
Farida Cheriet
@nl
type
label
Farida Cheriet
@ast
Farida Cheriet
@en
Farida Cheriet
@nl
prefLabel
Farida Cheriet
@ast
Farida Cheriet
@en
Farida Cheriet
@nl