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Pharmaceutical Research
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July 1, 1988
Estimation of the degree of crystallinity of cefazolin sodium by X-ray and infrared methods
M S Kamat, T Osawa, R J DeAngelis, et al.
Journal of Parenteral Science and Technology : a Publication of the Parenteral Drug Association
|
July 1, 1986
Interaction of microspheres with blood constituents II: Uptake of biodegradable particles by macrophages
M Kanke, E Morlier, R Geissler, et al.
Journal of Parenteral Science and Technology : a Publication of the Parenteral Drug Association
|
March 1, 1988
Effect of solvent addition and thermal treatment on freeze drying of cefazolin sodium
Y Koyama, M Kamat, R J De Angelis, et al.
Surgery
|
April 1, 1979
Final inline filtration: a means of decreasing the incidence of infusion phlebitis
B A Bivins, R P Rapp, P P DeLuca, et al.
Biomed Research International
|
November 14, 2013
Release of a wound-healing agent from PLGA microspheres in a thermosensitive gel
H A Machado, J J Abercrombie, T You, et al.
Journal of Pharmaceutical Sciences
|
July 1, 1980
Clearance of 141C3-labeled microspheres from blood and distribution in specific organs following intravenous and intraarterial administration in beagle dogs
M Kanke, G H Simmons, D L Weiss, et al.
American Journal of Hospital Pharmacy
|
October 1, 1975
Filtration and infusion phlebitis: a double-blind prospective clinical study
P P DeLuca, R P Rapp, B Bivins, et al.
Pharmaceutical Research
|
November 1, 1992
Degradation of synthetic salmon calcitonin in aqueous solution
K C Lee, Y J Lee, H M Song, et al.
AAPS Pharmscitech
|
January 20, 2004
Evaluation of Orntide microspheres in a rat animal model and correlation to in vitro release profiles
J W Kostanski, B A Dani, G A Reynolds, et al.
Pharmaceutical Research
|
December 1, 1995
Biodegradable indium-111 labeled microspheres for in vivo evaluation of distribution and elimination
B C Thanoo, W J Doll, R C Mehta, et al.
Page
of 13
Search research articles
Search
Showing results (91-100 of 122) with videos related to
Sort By:
Page
of 13
Pharmaceutical Research
|
July 1, 1988
Estimation of the degree of crystallinity of cefazolin sodium by X-ray and infrared methods
M S Kamat, T Osawa, R J DeAngelis, et al.
Journal of Parenteral Science and Technology : a Publication of the Parenteral Drug Association
|
July 1, 1986
Interaction of microspheres with blood constituents II: Uptake of biodegradable particles by macrophages
M Kanke, E Morlier, R Geissler, et al.
Journal of Parenteral Science and Technology : a Publication of the Parenteral Drug Association
|
March 1, 1988
Effect of solvent addition and thermal treatment on freeze drying of cefazolin sodium
Y Koyama, M Kamat, R J De Angelis, et al.
Surgery
|
April 1, 1979
Final inline filtration: a means of decreasing the incidence of infusion phlebitis
B A Bivins, R P Rapp, P P DeLuca, et al.
Biomed Research International
|
November 14, 2013
Release of a wound-healing agent from PLGA microspheres in a thermosensitive gel
H A Machado, J J Abercrombie, T You, et al.
Journal of Pharmaceutical Sciences
|
July 1, 1980
Clearance of 141C3-labeled microspheres from blood and distribution in specific organs following intravenous and intraarterial administration in beagle dogs
M Kanke, G H Simmons, D L Weiss, et al.
American Journal of Hospital Pharmacy
|
October 1, 1975
Filtration and infusion phlebitis: a double-blind prospective clinical study
P P DeLuca, R P Rapp, B Bivins, et al.
Pharmaceutical Research
|
November 1, 1992
Degradation of synthetic salmon calcitonin in aqueous solution
K C Lee, Y J Lee, H M Song, et al.
AAPS Pharmscitech
|
January 20, 2004
Evaluation of Orntide microspheres in a rat animal model and correlation to in vitro release profiles
J W Kostanski, B A Dani, G A Reynolds, et al.
Pharmaceutical Research
|
December 1, 1995
Biodegradable indium-111 labeled microspheres for in vivo evaluation of distribution and elimination
B C Thanoo, W J Doll, R C Mehta, et al.
Page
of 13