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1.
Drug Deliv Transl Res ; 7(6): 805-816, 2017 Dec.
Article in English | MEDLINE | ID: mdl-28612340

ABSTRACT

Oral pre-exposure prophylaxis for the prevention of HIV-1 transmission (HIV PrEP) has been widely successful as demonstrated by a number of clinical trials. However, studies have also demonstrated the need for patients to tightly adhere to oral dosing regimens in order to maintain protective plasma and tissue concentrations. This is especially true for women, who experience less forgiveness from dose skipping than men in clinical trials of HIV PrEP. There is increasing interest in long-acting (LA), user-independent forms of HIV PrEP that could overcome this adherence challenge. These technologies have taken multiple forms including LA injectables and implantables. Phase III efficacy trials are ongoing for a LA injectable candidate for HIV PrEP. This review will focus on the design considerations for both LA injectable and implantable platforms for HIV PrEP. Additionally, we have summarized the existing LA technologies currently in clinical and pre-clinical studies for HIV PrEP as well as other technologies that have been applied to HIV PrEP and contraceptives. Our discussion will focus on the potential application of these technologies in low resource areas, and their use in global women's health.


Subject(s)
Anti-HIV Agents/administration & dosage , HIV Infections/prevention & control , Pre-Exposure Prophylaxis/methods , Administration, Oral , Anti-HIV Agents/therapeutic use , Clinical Trials as Topic , Female , Humans , Injections , Male , Patient Compliance
2.
Pharm Res ; 33(7): 1649-56, 2016 Jul.
Article in English | MEDLINE | ID: mdl-26975357

ABSTRACT

PURPOSE: The effectiveness of Tenofovir based HIV pre-exposure prophylaxis (PrEP) is proven, but hinges on correct and consistent use. User compliance and therapeutic effectiveness can be improved by long acting drug delivery systems. Here we describe a thin-film polymer device (TFPD) as a biodegradable subcutaneous implant for PrEP. METHODS: A thin-film polycaprolactone (PCL) membrane controls drug release from a reservoir. To achieve membrane controlled release, TAF requires a formulation excipient such as PEG300 to increase the dissolution rate and reservoir solubility. Short-term In vitro release studies are used to develop an empirical design model, which is applied to the production of in vitro prototype devices demonstrating up to 90-days of linear release and TAF chemical stability. RESULTS: The size and shape of the TFPD are tunable, achieving release rates ranging from 0.5 to 4.4 mg/day in devices no larger than a contraceptive implant. Based on published data for oral TAF, subcutaneous constant-rate release for HIV PrEP is estimated at <2.8 mg/day. Prototype devices demonstrated linear release at 1.2 mg/day for up to 90 days and at 2.2 mg/day for up to 60 days. CONCLUSIONS: We present a biodegradable TFPD for subcutaneous delivery of TAF for HIV PrEP. The size, shape and release rate of the device are tunable over a >8-fold range.


Subject(s)
Adenine/analogs & derivatives , Biodegradable Plastics/chemistry , Fumarates/chemistry , HIV-1/drug effects , Polymers/chemistry , Adenine/chemistry , Adenine/pharmacology , Alanine , Anti-HIV Agents/chemistry , Anti-HIV Agents/pharmacology , Chemistry, Pharmaceutical/methods , Delayed-Action Preparations/chemistry , Delayed-Action Preparations/pharmacology , Drug Delivery Systems/methods , Drug Liberation/physiology , Particle Size , Polyesters/chemistry , Pre-Exposure Prophylaxis/methods , Solubility , Tenofovir/analogs & derivatives
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