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Showing results (21-30 of 59) with videos related to

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Journal of Microencapsulation|February 12, 2000
The use of additives to modulate the release of a sparingly water soluble drug entrapped in PLA50 microparticles: in vivo investigationC Mallard, J Coudane, I Rault, et al.
Journal of Controlled Release : Official Journal of the Controlled Release Society|September 19, 1998
Something new in the field of PLA/GA bioresorbable polymers?M Vert, G Schwach, R Engel, et al.
Biomaterials|March 1, 1995
Hydrolytic degradation of devices based on poly(DL-lactic acid) size-dependenceI Grizzi, H Garreau, S Li, et al.
The International Journal of Oral Implantology : Implantologist|January 1, 1987
Further clinical applications of bioresorbable PLA 37.5 GA 25 and PLA 50 polymers for limited bone augmentation and bone replacementM Chanavaz, F Chabot, M Donazzan, et al.
Biomacromolecules|July 13, 2007
Novel amphiphilic poly(epsilon-caprolactone)-g-poly(L-lysine) degradable copolymersB Nottelet, A El Ghzaoui, J Coudane, et al.
Applied and Environmental Microbiology|July 1, 1996
Screening of microorganisms for biodegradation of poly(lactic-acid) and lactic acid-containing polymersA Torres, S M Li, S Roussos, et al.
Biomaterials|April 1, 1993
Biocompatibility and resorbability of a polylactic acid membrane for periodontal guided tissue regenerationP Robert, J Mauduit, R M Frank, et al.
Biomacromolecules|January 5, 2002
Novel degradable polymers combining D-gluconic acid, a sugar of vegetal origin, with lactic and glycolic acidsK Marcincinova-Benabdillah, M Boustta, J Coudane, et al.
Journal of Controlled Release : Official Journal of the Controlled Release Society|February 22, 2005
Injectable amphiphilic hydrogels based on degradable PLA-PEO-PLA triblock copolymers: the need to revisit PEG-protein interactionsD Domurado, M Domurado, J-C Gris, et al.
Biomaterials|February 24, 2001
Protein release from physically crosslinked hydrogels of the PLA/PEO/PLA triblock copolymer-typeI Molina, S Li, M B Martinez, et al.
Pageof 6

Showing results (21-30 of 59) with videos related to

Sort By:
Pageof 6
Journal of Microencapsulation|February 12, 2000
The use of additives to modulate the release of a sparingly water soluble drug entrapped in PLA50 microparticles: in vivo investigationC Mallard, J Coudane, I Rault, et al.
Journal of Controlled Release : Official Journal of the Controlled Release Society|September 19, 1998
Something new in the field of PLA/GA bioresorbable polymers?M Vert, G Schwach, R Engel, et al.
Biomaterials|March 1, 1995
Hydrolytic degradation of devices based on poly(DL-lactic acid) size-dependenceI Grizzi, H Garreau, S Li, et al.
The International Journal of Oral Implantology : Implantologist|January 1, 1987
Further clinical applications of bioresorbable PLA 37.5 GA 25 and PLA 50 polymers for limited bone augmentation and bone replacementM Chanavaz, F Chabot, M Donazzan, et al.
Biomacromolecules|July 13, 2007
Novel amphiphilic poly(epsilon-caprolactone)-g-poly(L-lysine) degradable copolymersB Nottelet, A El Ghzaoui, J Coudane, et al.
Applied and Environmental Microbiology|July 1, 1996
Screening of microorganisms for biodegradation of poly(lactic-acid) and lactic acid-containing polymersA Torres, S M Li, S Roussos, et al.
Biomaterials|April 1, 1993
Biocompatibility and resorbability of a polylactic acid membrane for periodontal guided tissue regenerationP Robert, J Mauduit, R M Frank, et al.
Biomacromolecules|January 5, 2002
Novel degradable polymers combining D-gluconic acid, a sugar of vegetal origin, with lactic and glycolic acidsK Marcincinova-Benabdillah, M Boustta, J Coudane, et al.
Journal of Controlled Release : Official Journal of the Controlled Release Society|February 22, 2005
Injectable amphiphilic hydrogels based on degradable PLA-PEO-PLA triblock copolymers: the need to revisit PEG-protein interactionsD Domurado, M Domurado, J-C Gris, et al.
Biomaterials|February 24, 2001
Protein release from physically crosslinked hydrogels of the PLA/PEO/PLA triblock copolymer-typeI Molina, S Li, M B Martinez, et al.
Pageof 6