scholarly article | Q13442814 |
P356 | DOI | 10.1179/095066004225021927 |
P2093 | author name string | M.E. Gomes | |
R.L. Reis | |||
P2860 | cites work | Tissue engineering: generation of differentiated artificial tissues for biomedical applications | Q40871040 |
A biodegradable hybrid sponge nested with collagen microsponges | Q40877786 | ||
PEG-variant biomaterials as selectively adhesive protein templates: model surfaces for controlled cell adhesion and migration | Q40900136 | ||
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Leucocyte adhesion under flow conditions: principles important in tissue engineering | Q41068543 | ||
Enhancement of cell growth on a porous membrane co-immobilized with cell-growth and cell adhesion factors | Q41130922 | ||
Resorbable polyesters in cartilage engineering: affinity and biocompatibility of polymer fiber structures to chondrocytes | Q41251423 | ||
Polypeptide growth factors: targeted delivery systems | Q41595835 | ||
Dynamic creep behavior of acrylic bone cement | Q41677271 | ||
Selective differentiation of mammalian bone marrow stromal cells cultured on three-dimensional polymer foams | Q43545736 | ||
Cytocompatibility and response of osteoblastic-like cells to starch-based polymers: effect of several additives and processing conditions | Q43632917 | ||
Synthetic biodegradable polymers as orthopedic devices | Q43720685 | ||
A synthetic polymer matrix for the delayed or pulsatile release of water-soluble peptides | Q43842894 | ||
A biodegradable polymer scaffold for delivery of osteotropic factors | Q44049992 | ||
Preparation of macroporous biodegradable PLGA scaffolds for cell attachment with the use of mixed salts as porogen additives | Q44062742 | ||
Growth of continuous bonelike mineral within porous poly(lactide-co-glycolide) scaffolds in vitro | Q44196866 | ||
Scaffolds in tissue engineering bone and cartilage | Q44324110 | ||
Ultra-high-strength absorbable self-reinforced polyglycolide (SR-PGA) composite rods for internal fixation of bone fractures:In vitroandin vivostudy | Q44405040 | ||
A new biodegradable copolymer of glycolic acid and lactones with relatively low molecular weight prepared by direct copolycondensation in the absence of catalysts | Q44473923 | ||
Evaluation of Two Biodegradable Polymeric Systems as Substrates for Bone Tissue Engineering | Q44597572 | ||
Effect of flow perfusion on the osteogenic differentiation of bone marrow stromal cells cultured on starch‐based three‐dimensional scaffolds | Q44601486 | ||
A poly(ortho ester) designed for combined ocular delivery of dexamethasone sodium phosphate and 5-fluorouracil: subconjunctival tolerance and in vitro release | Q45130038 | ||
Guided tissue fabrication from periosteum using preformed biodegradable polymer scaffolds | Q45728522 | ||
Cartilage reconstruction in head and neck surgery: comparison of resorbable polymer scaffolds for tissue engineering of human septal cartilage | Q46291475 | ||
Retinoic acid induces rapid mineralization and expression of mineralization-related genes in chondrocytes | Q46296161 | ||
Effect of pore size and void fraction on cellular adhesion, proliferation, and matrix deposition | Q46317560 | ||
Hydrogels for site-specific oral drug delivery: synthesis and characterization | Q46974955 | ||
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Dynamic cell seeding of polymer scaffolds for cartilage tissue engineering. | Q52241755 | ||
Biodegradable polymers and composites in biomedical applications: from catgut to tissue engineering. Part 1 Available systems and their properties | Q57170594 | ||
Alternative tissue engineering scaffolds based on starch: processing methodologies, morphology, degradation and mechanical properties | Q57170599 | ||
A new approach based on injection moulding to produce biodegradable starch-based polymeric scaffolds: morphology, mechanical and degradation behaviour | Q57170603 | ||
Drug delivery therapies II | Q57171907 | ||
Fixation with bioabsorbable screws for the treatment of fractures of the ankle | Q28250484 | ||
Tissue engineering | Q29617288 | ||
Mechanical properties and cell cultural response of polycaprolactone scaffolds designed and fabricated via fused deposition modeling | Q30659222 | ||
Cartilage tissue engineering with novel nonwoven structured biomaterial based on hyaluronic acid benzyl ester | Q31998802 | ||
Thermal compression and characterization of three-dimensional nonwoven PET matrices as tissue engineering scaffolds | Q32060647 | ||
Clinical reviews: bioabsorbable implants for orthopaedic fracture fixation | Q33562496 | ||
Selected advances in drug delivery and tissue engineering | Q33750622 | ||
Culture of organized cell communities | Q33933269 | ||
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Tissue engineering: challenges and opportunities | Q34080670 | ||
Responsive polymeric delivery systems. | Q34190334 | ||
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Drug delivery: an odyssey of 100 years | Q34318085 | ||
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Tissue engineering: orthopedic applications | Q34432995 | ||
Molecular imprinting within hydrogels | Q34470016 | ||
The design of scaffolds for use in tissue engineering. Part II. Rapid prototyping techniques | Q34557168 | ||
Mini-review: Proactive biomaterials and bone tissue engineering | Q37216521 | ||
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Interactions of osteoblasts and macrophages with biodegradable and highly porous polyesterurethane foam and its degradation products | Q38561014 | ||
Novel approach to fabricate porous sponges of poly(D,L-lactic-co-glycolic acid) without the use of organic solvents | Q38561801 | ||
Articular cartilage repair using allogeneic perichondrocyte-seeded biodegradable porous polylactic acid (PLA): a tissue-engineering study | Q38564508 | ||
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Biodegradable polymers for controlled delivery of chemotherapy with and without radiation therapy in the monkey brain | Q38567539 | ||
Biodegradable polymer scaffolds for tissue engineering | Q38572926 | ||
Fibroblast seeding and culture in biodegradable porous substrates | Q38573537 | ||
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Present and future applications of biomaterials in controlled drug delivery systems | Q40323502 | ||
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Implantable drug delivery | Q40749677 | ||
P433 | issue | 5 | |
P921 | main subject | biodegradation | Q696715 |
tissue engineering | Q1540285 | ||
P304 | page(s) | 274-285 | |
P577 | publication date | 2004-10-01 | |
P1433 | published in | International Materials Reviews | Q15766649 |
P1476 | title | Biodegradable polymers and composites in biomedical applications: from catgut to tissue engineering. Part 2 Systems for temporary replacement and advanced tissue regeneration | |
P478 | volume | 49 |
Q57170594 | Biodegradable polymers and composites in biomedical applications: from catgut to tissue engineering. Part 1 Available systems and their properties |
Q38115348 | Composite polymer-bioceramic scaffolds with drug delivery capability for bone tissue engineering |
Q38520494 | Experimental approaches to vascularisation within tissue engineering constructs. |
Q46277166 | Mechanical properties, biological behaviour and drug release capability of nano TiO2-HAp-Alginate composite scaffolds for potential application as bone implant material |
Q51145696 | Morphologies of fibroblast cells cultured on surfaces of PHB films implanted by hydroxyl ions. |
Q36072499 | Polyetheretherketone/poly (glycolic acid) blend scaffolds with biodegradable properties |
Q37782101 | Potential applications of natural origin polymer-based systems in soft tissue regeneration |
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