<b>EVALUATION OF BIODEGRADABLE IN SITU FORMING IMPLANT COMPONENTS TO ADVANCE EXTENDED-RELEASE ISFI TREATMENT FOR OPIOID USE DISORDER</b>

Natalie Elizabeth Romick (19138714)

15 July 2024

<p dir="ltr">Opioid use disorder (OUD) presents a challenging and nuanced condition with potential for debilitating social and physical consequences. Patients with OUD have access to treatment options, but they may encounter issues such as diversion, invasiveness, or poor adherence. With over 2.5 million adults in the US experiencing OUD as of 2021, the need for an OUD treatment that overcomes these challenges is clear. One available treatment method is Sublocade®, a PLGA-based in situ forming implant (ISFI) that releases buprenorphine. This treatment shows promise due to its physician administered extended release design, which addresses many current issues in OUD treatment. However, the practicality of this treatment remains a challenge due to its monthly injection requirement. To address this, we investigated how altering ISFI components impacts the timeframe of buprenorphine release from a PLGA-based ISFI. Our focus was on evaluating factors that lead to extended buprenorphine release while maintaining zero-order release. We varied polymer-to-solvent ratios, drug percentage, and solvent composition, assessing their effects through drug release studies. We also conducted SEM imaging and swelling/erosion studies to evaluate polymer behavior and implant microstructure, gaining further insights into drug release mechanisms. Our drug release studies revealed that higher buprenorphine content in the implant significantly reduced total drug release and linearized drug release patterns. Decreasing the polymer-to-solvent ratio similarly linearized drug release and reduced drug burst, although the overall amount of drug released over time remained similar. Introducing Triacetin (TA) as a solvent helped reduce drug burst and maintain release linearity in lower drug content implants. In higher drug content implants, TA appeared to increase drug release over time, likely due to degradation processes indicated by high swelling and increased degradation observed in SEM imaging. Erosion studies showed less implant erosion with higher drug loading, aligning with release study observations. In conclusion, solvent type and drug content significantly influence buprenorphine release in ISFI systems and should be carefully considered when designing extended release systems similar to Sublocade®.</p>

Pharmaceutical delivery technologies

Biomaterials

in situ forming implants

controlled release

opioid use disorder

Sublocade

Buprenorphine

Extended drug release