The described agglomeration of drug microparticles blended with excipient microparticles is a technique for the size enlargement of micronized products that could be damaged by granulation or compaction techniques. These agglomerates can be used as oral prompt or delayed-release dosage forms administered as they are or dispersed in a liquid. The composition and quantity of the excipient microparticles resulted to be the crucial factors for the agglomerate quality. Therefore, adjusting the content of surface-active agent between 8-20%, of the excipient microparticles it is possible to agglomerate microparticles of drugs that could not be agglomerated per se. Increasing the surfactant concentration in the spray-dried excipient microparticles ...
We formulated cetrorelix acetate, as an adhesive mixture for use in dry powder inhalation. To achiev...
Spray-dried and spray-embedded ethylcellulose microparticles were prepared using a spray-drying tech...
Purpose. Drying of nanosuspensions can cause destabilization of the particles, leading to irreversib...
The described agglomeration of drug microparticles blended with excipient microparticles is a techni...
The applications of the powder agglomeration technology for an extra vascular administration were st...
An interactive mixture comprising a model drug, a surfactant and a carrier was created with the aim ...
Soft agglomerates containing pantoprazole gastro-resistant microparticles were prepared for an oral ...
The possibility to obtain microcapsules or microspheres for controlled release by spray-drying is ev...
Soft agglomerates containing pantoprazole gastro-resistant microparticles were prepared for an oral ...
Im Rahmen dieser Arbeit wurde ein neues, innovatives Verfahren der Softpellet-Produktion entwickelt....
AbstractThe use of drug powders containing micronized drug particles has been increasing in several ...
Pantoprazole-loaded microparticles were prepared using a blend of Eudragit® S100 and Methocel® F4M....
Pantoprazole-loaded microparticles were prepared using a blend of Eudragit® S100 and Methocel® F4M. ...
© 2019, AMG Transcend Association. All rights reserved. Spray drying method enables to produce micro...
Purpose: Agglomeration in suspension is a size enlargement method that facilitates operation of soli...
We formulated cetrorelix acetate, as an adhesive mixture for use in dry powder inhalation. To achiev...
Spray-dried and spray-embedded ethylcellulose microparticles were prepared using a spray-drying tech...
Purpose. Drying of nanosuspensions can cause destabilization of the particles, leading to irreversib...
The described agglomeration of drug microparticles blended with excipient microparticles is a techni...
The applications of the powder agglomeration technology for an extra vascular administration were st...
An interactive mixture comprising a model drug, a surfactant and a carrier was created with the aim ...
Soft agglomerates containing pantoprazole gastro-resistant microparticles were prepared for an oral ...
The possibility to obtain microcapsules or microspheres for controlled release by spray-drying is ev...
Soft agglomerates containing pantoprazole gastro-resistant microparticles were prepared for an oral ...
Im Rahmen dieser Arbeit wurde ein neues, innovatives Verfahren der Softpellet-Produktion entwickelt....
AbstractThe use of drug powders containing micronized drug particles has been increasing in several ...
Pantoprazole-loaded microparticles were prepared using a blend of Eudragit® S100 and Methocel® F4M....
Pantoprazole-loaded microparticles were prepared using a blend of Eudragit® S100 and Methocel® F4M. ...
© 2019, AMG Transcend Association. All rights reserved. Spray drying method enables to produce micro...
Purpose: Agglomeration in suspension is a size enlargement method that facilitates operation of soli...
We formulated cetrorelix acetate, as an adhesive mixture for use in dry powder inhalation. To achiev...
Spray-dried and spray-embedded ethylcellulose microparticles were prepared using a spray-drying tech...
Purpose. Drying of nanosuspensions can cause destabilization of the particles, leading to irreversib...