LAYERED, FLEXIBLE DRUG DELIVERY FILMS FOR THE PREVENTION OF FIBROTIC SCAR TISSUE FORMATION

Open wounds account for about 50% of military injuries and 10% of non‐fatal traffic injuries. Scar tissue formation in these wounds may be reduced or prevented if treated with a combination of molecules whose release is tuned to the healing phases. The goal of this research was to develop flexible, layered drug delivery films for sequential, localized release of anti‐inflammatory, anti‐oxidant, and anti‐fibrotic molecules to soft tissue. Films were composed of cellulose acetate phthalate (CAP) and Pluronic F‐127 (Pluronic). To impart flexibility, plasticizers, triethyl citrate (TEC) or tributyl citrate (TBC), were added. Mechanical analysis was performed on films as prepared and following phosphate‐buffered saline incubation to determine property changes after implantation. Tensile tests revealed higher plasticizer content increased film elongation but decreased elastic modulus and ultimate tensile strength. TEC films elongated twice as much as those with TBC. After incubation, properties increased because plasticizer leached from films. Micro computerized tomography and scanning electron microscopy determined how erosion and plasticizer leaching affected the film’s structures before and after incubation. Porosity increased as plasticizer content increased; however, plasticizer content did not significantly affect erosion rates. Next, effects of drugs with plasticizers on film erosion, release, and mechanical properties were investigated. Films were loaded with quercetin, an anti‐oxidant, or pirfenidone, an anti‐fibrotic, and plasticized with TEC or TBC. TEC‐plasticized films containing quercetin released drug at a slower rate than TBC films. Pirfenidone‐loaded films released drug at a faster rate than erosion occurred for both plasticizers. Increased pirfenidone loading resulted in significantly higher modulus and decreased elongation, an anti‐plasticizer effect. Increasing quercetin loading significantly increased elongation. Size, solubility, and structure differences between quercetin and pirfenidone affected drug interaction with the films and the consequent mechanical and release properties. Cell studies found TBC to be toxic even in low concentrations. Consequently, only TEC was further analyzed. Layered devices containing two drugs demonstrated sequential release regardless of drug order. Plasticizer concentration did not significantly affect the release profiles. Lastly, in vitro and in vivo 9‐layered device studies sequentially released drugs confirming the research objective: sequential, local release of anti‐inflammatory, anti‐oxidant, and anti‐fibrotic molecules from CAPPluronic films

Thermophysical properties of lysozyme (protein) solutions

Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/76692/1/AIAA-392-587.pd

African herbal medicines in the treatment of HIV: Hypoxis and Sutherlandia. An overview of evidence and pharmacology

In Africa, herbal medicines are often used as primary treatment for HIV/AIDS and for HIV-related problems. In general, traditional medicines are not well researched, and are poorly regulated. We review the evidence and safety concerns related to the use of two specific African herbals, which are currently recommended by the Ministry of Health in South Africa and member states for use in HIV: African Potato and Sutherlandia. We review the pharmacology, toxicology and pharmacokinetics of these herbal medicines. Despite the popularity of their use and the support of Ministries of Health and NGOs in some African countries, no clinical trials of efficacy exist, and low-level evidence of harm identifies the potential for drug interactions with antiretroviral drugs. Efforts should be made by mainstream health professionals to provide validated information to traditional healers and patients on the judicious use of herbal remedies. This may reduce harm through failed expectations, pharmacologic adverse events including possible drug/herb interactions and unnecessary added therapeutic costs. Efforts should also be directed at evaluating the possible benefits of natural products in HIV/AIDS treatment

Photodegradation of polystyrene/montmorillonite clay: the effect of the type of clay and presence of salt

Compósitos de poliestireno/montmorilonita (PS/MMT) contendo 2,5% em peso de argila foram preparados com dois tipos de argila modificada com sais quaternários de amônio. Também foram preparadas amostras do PS + sal quaternário de amônio, utilizando-se proporção de sal semelhante à usada na modificação da argila. Todas as amostras foram expostas à radiação UV por períodos de até 12 semanas, e em seguida foram realizados testes para avaliar as modificações em massa molar, propriedades mecânicas (tração e impacto), estrutura química (FTIR) e superfície de fratura (MEV) dessas amostras. Os resultados mostraram que compostos metálicos existentes na argila catalisam o processo fotodegradativo do PS e a presença isolada do sal não altera significativamente o comportamento do PS frente à radiação UV