BACKGROUND: Enteric microencapsulation of the potential immunosuppressant TRAM-34 was investigated as a means of enhancing oral drug delivery and minimizing or eliminating hydrolysis of pyrazole-substituted triarylmethane to the respective alcohol. METHOD: TRAM-34 was successfully enteric microencapsulated by a coacervation method using the pH-sensitive Eudragit L 100 polymer. In this study, we utilized water-miscible organic solvents such as acetone and ethanol, which are considered safe class 3 solvents according to the ICH guideline. We deemed such an approach suitable for safe scale up and for enteric coating application to other compounds of a similar lipophilicity. RESULTS: The resulting microparticles were spherical and uniform with an average particle size of 460 microm at 15% theoretical loading. The encapsulation efficiency was 90 +/- 1.9% and the percentage yield was found to be 91.5 +/- 0.3%. The oral administration in rhesus macaques of TRAM-34-loaded enteric-coated microparticles illustrated six times enhancement in its oral bioavailability. However, the TRAM-34 plasma concentration was less than the therapeutic effective level. CONCLUSION: The low oral bioavailability, even after enteric coating, could be attributed to the compound's inherent absorption characteristics and high lipophilicity.
RCT Entities:
BACKGROUND: Enteric microencapsulation of the potential immunosuppressant TRAM-34 was investigated as a means of enhancing oral drug delivery and minimizing or eliminating hydrolysis of pyrazole-substituted triarylmethane to the respective alcohol. METHOD:TRAM-34 was successfully enteric microencapsulated by a coacervation method using the pH-sensitive Eudragit L 100polymer. In this study, we utilized water-miscible organic solvents such as acetone and ethanol, which are considered safe class 3 solvents according to the ICH guideline. We deemed such an approach suitable for safe scale up and for enteric coating application to other compounds of a similar lipophilicity. RESULTS: The resulting microparticles were spherical and uniform with an average particle size of 460 microm at 15% theoretical loading. The encapsulation efficiency was 90 +/- 1.9% and the percentage yield was found to be 91.5 +/- 0.3%. The oral administration in rhesus macaques of TRAM-34-loaded enteric-coated microparticles illustrated six times enhancement in its oral bioavailability. However, the TRAM-34 plasma concentration was less than the therapeutic effective level. CONCLUSION: The low oral bioavailability, even after enteric coating, could be attributed to the compound's inherent absorption characteristics and high lipophilicity.
Authors: S Ghanshani; H Wulff; M J Miller; H Rohm; A Neben; G A Gutman; M D Cahalan; K G Chandy Journal: J Biol Chem Date: 2000-11-24 Impact factor: 5.157
Authors: Yu-Kang Mao; Dennis L Kasper; Bingxian Wang; Paul Forsythe; John Bienenstock; Wolfgang A Kunze Journal: Nat Commun Date: 2013 Impact factor: 14.919