Recombinant human growth hormone poly(lactic-co-glycolic acid) (PLGA) microspheres provide a long lasting effect

The treatment of growth hormone deficiency requires the daily administration of recombinant human growth hormone (rhGH). Long lasting formulations of rhGH have the potential to increase patient compliance, improve quality of life, and increase the efficacy of rhGH (lower total dose). One approach to these formulations is the use of biodegradable, injectable microspheres consisting of poly(lactic-co-glycolic acid) (PLGA). rhGH PLGA microspheres (12% w/w rhGH) were produced using a conventional double emulsion process. Initial in vitro studies of these microspheres indicated an initial release of 35% (1 day) and a continuous release for 21 days. A single administration of these microspheres (200 mg) in rhesus monkeys resulted in an initial elevation of serum hGH levels followed by a lag phase (return to baseline) until day 12 and then a sustained level of hGH greater than 5 ng/ml for 30 days. Development of improved in vitro release methods yielded release profiles comparable to those observed in vivo as determined from a detailed pharmacokinetic analysis of the hGH serum data. Serum hGH concentrations at or above 5 ng/ml provided a maximal response in two primary indicators of hGH biological activity, insulin-like growth factor-I (IGF-I) and IGF-binding protein 3. Further assessment of serum samples in an in vitro cell-based assay indicated that the rhGH released in vivo from the microspheres was bioactive. The rhGH PLGA formulations were well tolerated with mild to moderate inflammation and fibrosis. One of four animals developed a low titer anti-hGH antibody response, but transgenic mice expressing hGH did not develop an immune response to rhGH released from the PLGA microspheres. Therefore, this formulation had a low immunogenicity similar to the commercial rhGH formulation (Nutropin®). Overall, these studies demonstrated that a single administration of rhGH PLGA microspheres provide a prolonged release of bioactive rhGH that is well tolerated. With the improved in vitro release methods, future rhGH PLGA formulations may be designed without a lag phase to yield a one month continuous release of bioactive rhGH.