| scholarly article | Q13442814 |
| P356 | DOI | 10.1016/S0141-8130(99)00022-7 |
| P698 | PubMed publication ID | 10416657 |
| P2093 | author name string | D P Martin | |
| S F Williams | |||
| O P Peoples | |||
| D M Horowitz | |||
| P2860 | cites work | Tissue engineering | Q29617288 |
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| A biodegradable patch used as a pericardial substitute after cardiac surgery: 6- and 24-month evaluation with CT. | Q38564006 | ||
| Tissue engineering heart valves: valve leaflet replacement study in a lamb model | Q38564073 | ||
| Fibroblast seeding and culture in biodegradable porous substrates | Q38573537 | ||
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| Wound tissue can utilize a polymeric template to synthesize a functional extension of skin | Q42467394 | ||
| Living tissue formed in vitro and accepted as skin-equivalent tissue of full thickness | Q67271396 | ||
| P433 | issue | 1-3 | |
| P921 | main subject | tissue engineering | Q1540285 |
| P1104 | number of pages | 11 | |
| P304 | page(s) | 111-121 | |
| P577 | publication date | 1999-06-01 | |
| P1433 | published in | International Journal of Biological Macromolecules | Q6051322 |
| P1476 | title | PHA applications: addressing the price performance issue: I. Tissue engineering | |
| P478 | volume | 25 |
| Q33754599 | Accumulation of polyhydroxyalkanoate from styrene and phenylacetic acid by Pseudomonas putida CA-3. |
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| Q35013029 | Cardiovascular tissue engineering |
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| Q28588012 | Current progress on bio-based polymers and their future trends |
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| Q57556420 | Enhanced mechanical properties of 1,3-trimethylene carbonate polymers and networks |
| Q41501763 | Evaluate the growth and adhesion of osteoblast cells on nanocomposite scaffold of hydroxyapatite/titania coated with poly hydroxybutyrate |
| Q43121684 | Expanding the recombinant protein quality in Lactococcus lactis |
| Q34949903 | Improvement of PHBV scaffolds with bioglass for cartilage tissue engineering |
| Q74256231 | In vivo toxicological evaluation of polyhydroxyalkanoates |
| Q39649711 | Involvement of glnB, glnZ, and glnD genes in the regulation of poly-3-hydroxybutyrate biosynthesis by ammonia in Azospirillum brasilense Sp7. |
| Q42138896 | Large-scale production of poly(3-hydroxyoctanoic acid) by Pseudomonas putida GPo1 and a simplified downstream process |
| Q44341869 | Macroporous poly(3-hydroxybutyrate-co-3-hydroxyvalerate) matrices for bone tissue engineering |
| Q34095170 | Nanofibrous nerve conduits for repair of 30-mm-long sciatic nerve defects |
| Q36782519 | Natural origin biodegradable systems in tissue engineering and regenerative medicine: present status and some moving trends |
| Q44426309 | Novel precursor substrates for polythioesters (PTE) and limits of PTE biosynthesis inRalstonia eutropha |
| Q34456724 | Occurrence, synthesis and medical application of bacterial polyhydroxyalkanoate |
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| Q26995415 | Peripheral nerve conduits: technology update |
| Q45044829 | Poly(3-hydroxybutyric acid-co-3-hydroxyvaleric acid) based tissue engineering matrices |
| Q27692597 | Poly(3-hydroxypropionate): a promising alternative to fossil fuel-based materials |
| Q92135710 | Poly(4-Hydroxybutyrate): Current State and Perspectives |
| Q44420297 | Poly(ethylene glycol)-grafted poly(3-hydroxyundecenoate) networks for enhanced blood compatibility. |
| Q37660403 | Poly(hydroxy alkanoate)s in Medical Applications |
| Q35211113 | Polyester synthases: natural catalysts for plastics |
| Q43930820 | Preparation and cell compatibility of acrylamide-grafted poly(3-hydroxyoctanoate). |
| Q43107618 | Preparation of a novel biodegradable nanocomposite scaffold based on poly (3-hydroxybutyrate)/bioglass nanoparticles for bone tissue engineering. |
| Q53722930 | Production kinetics of polyhydroxyalkanoates by using Pseudomonas aeruginosa gamma ray mutant strain EBN-8 cultured on soybean oil. |
| Q35599219 | Production of a particulate hepatitis C vaccine candidate by an engineered Lactococcus lactis strain. |
| Q33451608 | Production of functionalized biopolyester granules by recombinant Lactococcus lactis |
| Q37617042 | Rat sciatic nerve reconstruction across a 30 mm defect bridged by an oriented porous PHBV tube with Schwann cell as artificial nerve graft. |
| Q90332214 | Real-Time Observation of Enzymatic Polyhydroxyalkanoate Polymerization Using High-Speed Scanning Atomic Force Microscopy |
| Q40638652 | Reduced mouse fibroblast cell growth by increased hydrophilicity of microbial polyhydroxyalkanoates via hyaluronan coating |
| Q40638663 | Retinal pigment epithelium cell culture on surface modified poly(hydroxybutyrate-co-hydroxyvalerate) thin films |
| Q64902170 | Review of Bionanocomposite Coating Films and Their Applications. |
| Q27012628 | Scaffolds in vascular regeneration: current status |
| Q59319073 | Strategies for recovery and purification of poly[(R)-3-hydroxyalkanoates] (PHA) biopolyesters from surrounding biomass |
| Q44297553 | Synthesis of PHB by recombinant E. coli harboring an approximately 5 kb genomic DNA fragment from Streptomyces aureofaciens NRRL 2209. |
| Q42815984 | Synthesis of gelatin-containing PHBV nanofiber mats for biomedical application. |
| Q35661205 | Thioesterase II of Escherichia coli plays an important role in 3-hydroxydecanoic acid production |
| Q34342724 | Tissue engineering: a 21st century solution to surgical reconstruction |
| Q44399401 | Tissue morphogenesis under the conditions of implantation of polyhydroxybutyrate, a biodegradable polymer |
| Q73585443 | Tissue-engineered valved conduits in the pulmonary circulation |
| Q35666220 | Vaccines displaying mycobacterial proteins on biopolyester beads stimulate cellular immunity and induce protection against tuberculosis |
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