Publications | www.ineb.up.pt

Search

Show only items where

Author

Type

Term

Year

Keyword

Export 650 results:

A B C D E F G H I J K L M N O P Q R S T U V W X Y Z

A

Mendonça, A. M., Cardoso, F., Sousa, A. V., & Campilho, A. (2012). Automatic localization of the optic disc in retinal images based on the entropy of vascular directions. Lecture Notes in Computer Science (including subseries Lecture Notes in Artificial Intelligence and Lecture Notes in Bioinformatics)Lect. Notes Comput. Sci. (Vol. 7325 LNCS, pp. 424 - 431).

Esteves, T., Valente, M., Nascimento, D. S., Pinto-Do-Ó, P., & Quelhas, P. (2012). Automatic myocardial infarction size extraction in an experimental murine model using an anatomical model. In Proceedings - International Symposium on Biomedical ImagingIEEE Comput. Soc. Conf. Comput. Vis. Pattern Recogn. (pp. 310 - 313).

Esteves, T., Valente, M., Nascimento, D. S., Pinto-Do-Ó, P., & Quelhas, P. (2012). Automatic myocardial infarction size extraction in an experimental murine model using an anatomical model. In Proceedings - International Symposium on Biomedical Imaging (pp. 310 - 313).

Mendonça, A. M., Sousa, A. V., Sá-Miranda, M. C., & Campilho, A. C. (2011). Automatic segmentation of chromatographic images for region of interest delineation. In Progress in Biomedical Optics and Imaging - Proceedings of SPIEProgr. Biomed. Opt. Imaging Proc. SPIE (Vol. 7962).

Moura, D. C., Correia, M. V., Barbosa, J. G., Reis, A. M., Laranjeira, M., & Gomes, E. (2007). Automatic vertebra detection in x-ray images. In Proceedings of the International Symposium CompIMAGE 2006 - Computational Modelling of Objects Represented in Images: Fundamentals, Methods and ApplicationsProc. Int. Symp. CompIMAGE - Comput. Model. Objects Represent. Images: Fundam., Methods Appl. (pp. 307 - 312).

B

Gonçalves, I. C., Magalhães, A., Fernandes, M., Rodrigues, I. V., Reis, C. A., & Martins, M. C. L. (2013). Bacterial-binding chitosan microspheres for gastric infection treatment and prevention. Acta Biomaterialia.

Gonçalves, R., Martins, M. C. L., Oliveira, M. J., Almeida-Porada, G., & Barbosa, M. A. (2010). Bioactivity of immobilized EGF on self-assembled monolayers: Optimization of the immobilization process. Journal of Biomedical Materials Research - Part AJ. Biomed. Mater. Res. Part A, 94(2), 576 - 585.

Panseri, S., Russo, L., Montesi, M., Taraballi, F., Cunha, C., Marcacci, M., & Cipolla, L. (2014). Bioactivity of surface tethered Osteogenic Growth Peptide motifs. Medchemcomm, 5, 899-903.

Ferreira, L., Gil, M. H., Cabrita, A. M. S., & Dordick, J. S. (2005). Biocatalytic synthesis of highly ordered degradable dextran-based hydrogels. BiomaterialsBiomaterials, 26(23), 4707 - 4716.

Jorge-Herrero, E., Fonseca, C., Barge, A. P., Turnay, J., Olmo, N., Fernández, P., Lizarbe, M. A., & García Páez, J. M. (2010). Biocompatibility and calcification of bovine pericardium employed for the construction of cardiac bioprostheses treated with different chemical crosslink methods. Artificial OrgansArtif. Organs, 34(5), E168 - E176.

Salgueiredo, E., Vila, M., Silva, M. A., Lopes, M. A., Santos, J. D., Costa, F. M., Silva, R. F., Gomes, P. S., & Fernandes, M. H. (2008). Biocompatibility evaluation of DLC-coated Si 3N 4 substrates for biomedical applications . Diamond and Related MaterialsDiamond Relat. Mat., 17(4-5), 878 - 881.

Ferreira, L., Rafael, A., Lamghari, M., Barbosa, M. A., Gil, M. H., Cabrita, A. M. S., & Dordick, J. S. (2004). Biocompatibility of chemoenzymatically derived dextran-acrylate hydrogels. Journal of Biomedical Materials Research - Part AJ. Biomed. Mater. Res. Part A, 68(3), 584 - 596.

Teixeira, S., Ferraz, M. P., & Monteiro, F. J. (2008). Biocompatibility of highly macroporous ceramic scaffolds: Cell adhesion and morphology studies. Journal of Materials Science: Materials in MedicineJ. Mater. Sci. Mater. Med., 19(2), 855 - 859.

Pinto, A. M., Moreira, S., Gonçalves, I. C., Gama, F. M., Mendes, A. M., & Magalhães, F. D. (2013). Biocompatibility of poly(lactic acid) with incorporated graphene-based materials. Colloids and Surfaces B: Biointerfaces, 104, 229 - 238.

Ribeiro, N., Sousa, S. R., van Blitterswijk, C. A., Moroni, L., & Monteiro, F. J. (2014). A biocomposite of collagen nanofibers and nanohydroxyapatite for bone regeneration. Biofabrication, 6.

Shirosaki, Y., Tsuru, K., Hayakawa, S., & Osaka, A. (2008). Biodegradable chitosan-silicate porous hybrids for drug delivery. Key Engineering MaterialsKey Eng Mat (Vol. 361-363 II, pp. 1219 - 1222).

Das Neves, J., Araújo, F., Andrade, F., Amiji, M., Bahia, M. F., & Sarmento, B. (2014). Biodistribution and pharmacokinetics of Dapivirine-loaded nanoparticles after vaginal delivery in mice. Pharmaceutical Research, 31(7), 1834 - 1845.

Parreira, P., Magalhães, A., Reis, C. A., Borén, T., Leckband, D., & Martins, M. C. L. (2013). Bioengineered surfaces promote specific protein-glycan mediated binding of the gastric pathogen Helicobacter pylori. Acta Biomaterialia, 9(11), 8885 - 8893.

Freitas, S. C., Cereija, T. B., Figueiredo, A. C., Osório, H., Pereira, P. J. B., Barbosa, M. A., & Martins, M. C. L. (2012). Bioengineered surfaces to improve the blood compatibility of biomaterials through direct thrombin inactivation. Acta BiomaterialiaActa Biomater.

Dias, A. G., Costa, M. A., Lopes, M. A., Santos, J. D., & Fernandas, M. H. (2004). Biological Activity of Two Glass Ceramics in the Meta- and Pyrophosphate Region: A Comparative Study. (B. M.A., F.J., M., R., C., & B., L., Eds.)Key Engineering MaterialsKey Eng Mat (Vol. 254-256, pp. 825 - 828).

Gutierres, M., Hussain, N. S., Afonso, A., Almeida, L., Cabral, T., Lopes, M. A., & Santos, J. D. (2005). Biological behaviour of Bonelike® graft implanted in the tibia of humans. Key Engineering MaterialsKey Eng Mat (Vol. 284-286, pp. 1041 - 1044).

Barrias, C. C., Lamghari, M., Granja, P. L., Sá Miranda, M. C., & Barbosa, M. A. (2005). Biological evaluation of calcium alginate microspheres as a vehicle for the localized delivery of a therapeutic enzyme. Journal of Biomedical Materials Research - Part AJ. Biomed. Mater. Res. Part A, 74(4), 545 - 552.

Pereira, C. L., Antunes, J. C., Gonçalves, R. M., Ferreira-da-Silva, F., & Barbosa, M. A. (2012). Biosynthesis of highly pure poly-γ-glutamic acid for biomedical applications. Journal of Materials Science: Materials in MedicineJ. Mater. Sci. Mater. Med., 23(7), 1583 - 1591.

Gutierres, M., Lopes, M. A., Sooraj Hussain, N., Lemos, A. F., Ferreira, J. M. F., Afonso, A., Cabral, A. T., Almeida, L., & Santos, J. D. (2008). Bone ingrowth in macroporous Bonelike ® for orthopaedic applications . Acta BiomaterialiaActa Biomater., 4(2), 370 - 377.

Real, C., Remédio, L., Caiado, F., Igreja, C., Borges, C., Trindade, A., Pinto-Do-Ó, P., Yagita, H., Duarte, A., & Dias, S. (2011). Bone marrow-derived endothelial progenitors expressing delta-like 4 (Dll4) regulate tumor angiogenesis. PLoS ONEPLoS ONE, 6(4).

Pages