Biomedical Engineering Reference
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Moroni, L., Hamann, D., Paoluzzi, L., Pieper, J., De Wijn, J.R., Van Blitterswijk, C.A., 2008. Regenerating
articular tissue by converging technologies. PLoS One 3 (8), e3032 .
Moroni, L., Schotel, R., Sohier, J., De Wijn, J.R., Van Blitterswijk, C.A., 2006. Polymer hollow iber three-
dimensional matrices with controllable cavity and shell thickness. Biomaterials 27 (35), 5918-5926 .
Mow, V.C., Proctor, C.S., Kelly, M.A., 2012. Biomechanics of articular cartilage. In: Basic biomechanics of the
musculoskeletal system, Nordin, M., Frankel, V.H., (eds.). 4th ed. Philadelphia: Lippincott Williams & Wilkins.
Muir, H., Bullough, P., Maroudas, A., 1970. The distribution of collagen in human articular cartilage with some of
its physiological implications. J Bone Joint Surg Br 52 (3), 554-563 .
Murray, R.C., Smith, R.K., Henson, F.M., Goodship, A., 2001. The distribution of cartilage oligomeric matrix
protein (COMP) in equine carpal articular cartilage and its variation with exercise and cartilage deterioration.
Vet J 162 (2), 121-128 .
Noble, P.C., Gordon, M.J., Weiss, J.M., Reddix, R.N., Conditt, M.A., Mathis, K.B., 2005. Does total knee
replacement restore normal knee function? Clin Orthop Relat Res 431, 157-165 .
Norotte, C., Marga, F.S., Niklason, L.E., Forgacs, G., 2009. Scaffold-free vascular tissue engineering using
bioprinting. Biomaterials 30 (30), 5910-5917 .
O'driscoll, S.W., 1998. The healing and regeneration of articular cartilage. J Bone Joint Surg Am 80 (12),
1795-1812 .
Olee, T., Grogan, S.P., Lotz, M.K., Colwell, Jr., C.W., D'Lima, D.D., Snyder, E.Y., 2014. Repair of cartilage
defects in arthritic tissue with differentiated human embryonic stem cells. Tissue Eng Part A 20 (3-4), 683-692 .
Orth, P., Cucchiarini, M., Kohn, D., Madry, H., 2013. Alterations of the subchondral bone in osteochondral
repair—translational data and clinical evidence. Eur Cell Mater 25, 296-314, 299-316; discussion .
Pabbruwe, M.B., Esfandiari, E., Kaienah, W., Tarlton, J.F., Hollander, A.P., 2009. Induction of cartilage integration
by a chondrocyte/collagen-scaffold implant. Biomaterials 30 (26), 4277-4286 .
Pelletier, J.P., Jovanovic, D.V., Lascau-Coman, V., Fernandes, J.C., Manning, P.T., Connor, J.R., Currie, M.G.,
Martel-Pelletier, J., 2000. Selective inhibition of inducible nitric oxide synthase reduces progression of
experimental osteoarthritis in vivo: possible link with the reduction in chondrocyte apoptosis and caspase 3
level. Arthritis Rheum 43 (6), 1290-1299 .
Pister, B.E., Aydelotte, M.B., Burkhart, W., Kuettner, K.E., Schmid, T.M., 2001. Del1: a new
protein in the supericial layer of articular cartilage. Biochem Biophys Res Commun 286 (2),
268-273 .
Poole, A.R., Rosenberg, L.C., Reiner, A., Ionescu, M., Bogoch, E., Roughley, P.J., 1996. Contents and distributions
of the proteoglycans decorin and biglycan in normal and osteoarthritic human articular cartilage. J Orthop Res
14 (5), 681-689 .
Pullig, O., Weseloh, G., Ronneberger, D., Kakonen, S., Swoboda, B., 2000. Chondrocyte differentiation in human
osteoarthritis: expression of osteocalcin in normal and osteoarthritic cartilage and bone. Calcif Tissue Int
67 (3), 230-240 .
Rasanen, P., Paavolainen, P., Sintonen, H., Koivisto, A.M., Blom, M., Ryynanen, O.P., Roine, R.P., 2007.
Effectiveness of hip or knee replacement surgery in terms of quality-adjusted life years and costs. Acta Orthop
78 (1), 108-115 .
Ratcliffe, A., Fryer, P.R., Hardingham, T.E., 1984. The distribution of aggregating proteoglycans in articular
cartilage: comparison of quantitative immunoelectron microscopy with radioimmunoassay and biochemical
analysis. J Histochem Cytochem 32 (2), 193-201 .
Ringeisen, B.R., Othon, C.M., Barron, J.A., Young, D., Spargo, B.J., 2006. Jet-based methods to print living cells.
Biotechnol J 1 (9), 930-948 .
Roelofs, A.J., Rocke, J.P., De Bari, C., 2013. Cell-based approaches to joint surface repair: a research perspective.
Osteoarthritis Cartilage 21 (7), 892-900 .
Rosenthal, A., Macdonald, A., Voldman, J., 2007. Cell patterning chip for controlling the stem cell microenvironment.
Biomaterials 28 (21), 3208-3216 .
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