Biomedical Engineering Reference
In-Depth Information
91. Chunmeng S., Ying Z., Xinze R., Meng W., Yongping S. and Tianmin C., Therapeutic potential of chi-
tosan and its derivatives in regenerative medicine,
Journal of Surgical Research
, 133, 185-192, 2006.
92. Kamath R. and Park K., Surface modifi cation of polymeric biomaterials by albumin grafting using h-
irradiation,
Journal of Applied Biomaterials
, 5, 162-173, 1994.
93. Hirsch R.J. and Cohen J.L., Soft tissue augmentation,
Cutis
, 78, 165-172, 2006.
94. Coons D.A. and Alan B.F., Tendon graft substitutes-rotator cuff patches,
Sports Medicine and Arthros-
copy Review
, 14, 185-190, 2006.
95. Geutjes P.J., Daamen W.F., Buma P., Feitz W.F., Faraj K.A., and van Kuppevelt T.H., From molecules
to matrix: Construction and evaluation of molecularly defi ned bioscaffolds,
Adamantiades-Behcet's
Disease
, 585, 279-295, 2006.
96. Annick L., The use of mucoadhesive polymers in ocular drug delivery,
Advanced Drug Delivery
Reviews
,
57, 1595-1639, 2005.
97. Fernandez L.J.C. and Ruano-Ravina A., Effi cacy and safety of intraarticular hyaluronic acid in the treat-
ment of hip osteoarthritis: A systematic review,
Osteoarthritis Cartilage
, 14, 1306-1311. E pub 2006.
98. Brockmeier S.F. and Shaffer B.S., Viscosupplementation therapy for osteoarthritis,
Sports Medicine
and Arthroscopy Review
, 14, 155-162, 2006.
99. Allison D.D. and Grande-Allen K.J., Review. Hyaluronan: A powerful tissue engineering tool,
Tissue
Engineering
, 12, 2131-2140, 2006.
100. Seal B.L., Otero T.C. and Panitch A., Polymeric biomaterials for tissue and organ regeneration review,
Materials Science and Engineering: R: Reports
, 34, 147-230, 2001.
101. Peter B., Maurus M.D. and Christopher C.K., Bioabsorbable implant material review,
Operative
Techniques in Sports Medicine
, 12, 158-160, 2004.
102. Steven M., Raikin M.D., Alexander C., Ching M.D., Bioabsorbable fi xation in foot and ankle,
Foot and
Ankle Clinics of North America
, 10, 667-684, 2005.
103. Justin G., Recent innovations and future directions in external fi xation of the foot and ankle,
Foot and
Ankle Clinics of North America
, 9, 637-647, 2004.
104. Rezwan K., Chen Q.Z., Blaker J.J. and Aldo R.B., Biodegradable and bioactive porous polymer/inorganic
composite scaffolds for bone tissue engineering,
Biomaterials
, 27, 3413-3431, 2006.
105. Warris E., Konttinen Y.T., Ashammakhi N., Suuronen R. and Santavirta S., Bioabsorbable fi xation
devices in trauma and bone surgery: Current clinical standing,
Expert Review of Medical Devices
, 1,
229-240, 2004.
106. Yannas I.V. and Hill B.J., Selection of biomaterials for peripheral nerve regeneration using data from the
nerve chamber model,
Biomaterials
, 25, 1593-1600, 2004.
107. Yang F., Murugan R., Ramakrishna S., Wang X., Ma Y.-X. and Wang S., Fabrication of nano-structured
porous PLLA scaffold intended for nerve tissue engineering,
Biomaterials
, 25, 1891-1900, 2004.
108. Sumona S., George Y.L., Joyce Y.W. and Tejal A.D., Development and characterization of a porous micro-
patterned scaffold for vascular tissue engineering applications,
Biomaterials
, 27, 4775-4782, 2006.
109. Merrel S.W. and Lawrence P.F., Initial evaluation of absorbable polydioxanone suture for peripheral
vascular surgery,
Journal of Vascular Surgery Oct
; 14452-7; 457-459, 1991.
110. Pêgo A.P., Siebum B., Van Luyn M.J.A., Gallego X.J., Van Seijen Y., Poot A.A., Grijpma D.W. and
Feijen J.,
Preparation of degradable porous structures based on 1,3-trimethylene carbonate and D,L-
lactide (co)polymers for heart tissue engineering,
Tissue Engineering
, 9, 981-994, 2003.
111. Xinhua Z., Harold B., Chiung-Yin C., Lihong Y., Dufei F., Benjamin S.H., Benjamin C. and Emilia E.,
Electrospun fi ne-textured scaffolds for heart tissue constructs,
Biomaterial
s, 26, 5330-5338, 2005.
112. Gopinath M., Marc D.F., Devang P. and Mauli A.C., Biomaterials in the fabrication of stents coronary
stents: A materials perspective review,
Biomaterials
, 28, 1689-1710, 2007.
113. Tan L.P., Venkatraman S.S., Sung P.F. and Wang X.T., Effect of plasticization on heparin release from
biodegradable matrices,
International Journal of Pharmaceutics
, 283, 89-96, 2004.
114. Venkatraman S., Tan L., Joso J., Boey Y. and Wang X., Biodegradable stents with elastic memory,
Biomaterials
, 27, 1573-1578, 2006.
115. Peppas N.A., Intelligent therapeutics: Biomimetic systems and nanotechnology in drug delivery,
Advanced Drug Delivery Reviews
, 56, 1529-1531, 2004.
116. Langer R., Drug delivery and targeting,
Nature
,
392, 5-10, 1998.
117. Zachary H.J. and Nicholas A., Peppas Microfabricated drug delivery devices,
International Journal of
Pharmaceutics
, 306, 15-23, 2005.
118. Chien-Chi L. and Andrew T.M., Hydrogels in controlled release formulations: Network design and
mathematical modeling: Review,
Advanced Drug Delivery Reviews
, 58, 1379-1408, 2006.
