21.7.4.5 Medical Applications, Wrist Joints

Chapter Contents (Back)
Wrist Joints. Skeletal.

Manos, G., Cairns, A.Y., Ricketts, I.W.[Ian W.], Sinclair, D.,
Automatic segmentation of hand-wrist radiographs,
IVC(11), No. 2, March 1993, pp. 100-111.
Elsevier DOI 0401
BibRef

Snel, J.G., Venema, H.W., Grimbergen, C.A.,
Deformable triangular surfaces using fast 1-D radial Lagrangian dynamics-segmentation of 3-D MR and CT images of the wrist,
MedImg(21), No. 8, August 2002, pp. 888-903.
IEEE Top Reference. 0301
BibRef

Lin, P.[Pan], Zheng, F.[Feng], Yang, Y.[Yong], Zheng, C.X.[Chong-Xun],
X-Ray Carpal-Bone Image Feature Analysis In Skeletal Age Estimation Application Using Region Feature Based Level Set Method,
GVIP(05), No. V3, 2005, pp. xx-yy
HTML Version. BibRef 0500

Ogiela, M.R.[Marek R.], Tadeusiewicz, R.[Ryszard], Ogiela, L.[Lidia],
Image languages in intelligent radiological palm diagnostics,
PR(39), No. 11, November 2006, pp. 2157-2165.
Elsevier DOI 0608
Pattern recognition; Medical image analysis; Computer-aided diagnosis; Wrist disease diagnostics BibRef

Martin-Fernandez, M.A.[Miguel A.], Cardenes, R.[Ruben], Munoz-Moreno, E.[Emma], de Luis-Garcia, R.[Rodrigo], Martin-Fernandez, M.[Marcos], Alberola-Lopez, C.[Carlos],
Automatic articulated registration of hand radiographs,
IVC(27), No. 8, 2 July 2009, pp. 1207-1222.
Elsevier DOI 0906
Elastic registration; Bone age assessment; Landmarks detection; Segmentation; Deformable geometry; Anatomical structures BibRef

van de Giessen, M., Streekstra, G.J., Strackee, S.D., Maas, M., Grimbergen, K.A., van Vliet, L.J., Vos, F.M.,
Constrained Registration of the Wrist Joint,
MedImg(28), No. 12, December 2009, pp. 1861-1869.
IEEE DOI 0912
BibRef

van de Giessen, M., Foumani, M., Vos, F.M., Strackee, S.D., Maas, M., van Vliet, L.J., Grimbergen, C.A., Streekstra, G.J.,
A 4D Statistical Model of Wrist Bone Motion Patterns,
MedImg(31), No. 3, March 2012, pp. 613-625.
IEEE DOI 1203
BibRef

Chen, X., Graham, J., Hutchinson, C., Muir, L.,
Automatic Inference and Measurement of 3D Carpal Bone Kinematics From Single View Fluoroscopic Sequences,
MedImg(32), No. 2, February 2013, pp. 317-328.
IEEE DOI 1301
BibRef

Joshi, A.A., Leahy, R.M., Badawi, R.D., Chaudhari, A.J.,
Registration-Based Morphometry for Shape Analysis of the Bones of the Human Wrist,
MedImg(35), No. 2, February 2016, pp. 416-426.
IEEE DOI 1602
Bones BibRef

Anas, E.M.A., Rasoulian, A., Seitel, A., Darras, K., Wilson, D., John, P.S., Pichora, D., Mousavi, P., Rohling, R., Abolmaesumi, P.,
Automatic Segmentation of Wrist Bones in CT Using a Statistical Wrist Shape+Pose Model,
MedImg(35), No. 8, August 2016, pp. 1789-1801.
IEEE DOI 1608
Bones BibRef

Ardakani, A.A.[Ali Abbasian], Afshar, A.[Ahmadreza], Bhatt, S.[Shweta], Bureau, N.J.[Nathalie J.], Tahmasebi, A.[Aylin], Acharya, U.R.[U Rajendra], Mohammadi, A.[Afshin],
Diagnosis of carpal tunnel syndrome: A comparative study of shear wave elastography, morphometry and artificial intelligence techniques,
PRL(133), 2020, pp. 77-85.
Elsevier DOI 2005
Carpal tunnel syndrome, Ultrasonography, Elasticity imaging techniques, Deep learning, Machine learning (According to MESH) BibRef


Li, X.X.[Xiao-Xu], Peng, Y.[Yu], Xu, M.[Min],
Edge-enhanced Instance Segmentation of Wrist CT via a Semi-Automatic Annotation Database Construction Method,
DICTA21(01-08)
IEEE DOI 2201
Wrist, Training, Annotations, Databases, Computed tomography, Computational modeling, Manuals, Instance Segmentation, Wrist CT, Medical Image BibRef

Banerjee, I.[Imon], Laga, H.[Hamid], Patanè, G.[Giuseppe], Kurtek, S.[Sebastian], Srivastava, A.[Anuj], Spagnuolo, M.[Michela],
Generation of 3D Canonical Anatomical Models: An Experience on Carpal Bones,
RHEUMA15(167-174).
Springer DOI 1511
BibRef

Tomatis, V.[Veronica], Cimmino, M.A.[Marco A.], Barbieri, F.[Francesca], Troglio, G.[Giulia], Parascandolo, P.[Patrizia], Cesario, L.[Lorenzo], Viano, G.[Gianni], Vosilla, L.[Loris], Pitikakis, M.[Marios], Schiappacasse, A.[Andrea], Moraldo, M.[Michela], Santoro, M.[Matteo],
A Database of Segmented MRI Images of the Wrist and the Hand in Patients with Rheumatic Diseases,
RHEUMA15(143-150).
Springer DOI 1511
BibRef

Nardotto, S.[Sonia], Ferretti, R.[Roberta], Gemme, L.[Laura], Dellepiane, S.[Silvana],
Optimizing and Evaluating a Graph-Based Segmentation of MRI Wrist Bones,
RHEUMA15(159-166).
Springer DOI 1511
BibRef

Nysjö, J.[Johan], Christersson, A.[Albert],
Precise 3D Angle Measurements in CT Wrist Images,
CIAP13(II:479-488).
Springer DOI 1309
BibRef

Nysjö, J.[Johan], Christersson, A.[Albert], Malmberg, F.[Filip], Sintorn, I.M.[Ida-Maria], Nyström, I.[Ingela],
Towards User-Guided Quantitative Evaluation of Wrist Fractures in CT Images,
ICCVG12(204-211).
Springer DOI 1210
BibRef

Chen, X.[Xin], Graham, J.[Jim], Hutchinson, C.[Charles],
Integrated framework for simultaneous segmentation and registration of carpal bones,
ICIP11(433-436).
IEEE DOI 1201
BibRef

Krishna, S., Vinay, K.C., Raja, K.B.,
Efficient MEG signal decoding of direction in wrist movement using curve fitting (EMDC),
ICIIP11(1-6).
IEEE DOI 1112
BibRef

Hillman, G.R., Tagare, H.D., Elder, K.W., Stoner, D.M., Patterson, R.M., Nicademus, C.L., Viegas, S.F., Dong, Y.,
Location and geometric description of carpal bones in CT images,
ICIP94(I: 397-401).
IEEE DOI 9411
BibRef

Chapter on Medical Applications, CAT, MRI, Ultrasound, Heart Models, Brain Models continues in
Medical Applications, Knee Joints .


Last update:Mar 16, 2024 at 20:36:19