Mireia Mallandrich

Release profile and transscleral permeation of triamcinolone acetonide loaded nanostructured lipid carriers (TA-NLC): in vitro and ex vivo studies

Nanostructured lipid carriers (NLC) have been developed for sustained release of triamcinolone acetonide (TA), a corticosteroid commonly indicated for macular edema, neovascularization, and other ocular inflammatory disorders. TA-NLC were prepared by high-pressure homogenization and characterized for in vitro release by dialysis bag. Ex vivo permeation profile was assessed using rabbit sclera isolated and mounted in Franz diffusion cells. TA-NLC were placed in episcleral donor compartment and choroidal side was perfused with HEPES buffer. Tissue sections underwent drug wash-out, following analysis by validated RP-HPLC of drug content and perfused fractions collected over 24 hours. Drug release followed one-order kinetics and permeability studies confirmed that TA is able to diffuse across rabbit sclera in sustained profile, following zero-order kinetics. Strong tissue binding was observed, providing a drug depot. These findings are of potential use when designing future TA therapy strategies for ocular diseases of posterior segment.

Development of alginate microspheres as nystatin carriers for oral mucosa drug delivery

To develop more effective antifungal mucoadhesive systems for the treatment of oral candidiasis, three types of microspheres, alginate (AM1), chitosan coated (CCM) and hydrogel (AM2) containing nystatin (Nys) were successfully elaborated by emulsification/internal gelation method. Physicochemical properties of microspheres resulted in 85-135 μm mean sizes, spherical shaped with narrow distribution. Optimal encapsulation efficiency and negative zeta potentials were observed. AM2 showed a consistent decrease in viscosity with increasing shear rate (Herschel-Bulkley). Optimal mucoadhesive properties and swelling behaviour where evidenced. Nys release from AM1 and CCM followed a concentration gradient pattern, contrary AM2 followed a complex release mechanism. All systems exhibited a marked fungicidal activity against Candida albicans strains. In vivo studies demonstrated that Nys was not found in systemic circulation assuring the safety of the treatment. Nys amounts retained in the mucosa were more than enough to ensure an effective fungicidal action without tissue damage. Based on the obtained results, AM2 could be proposed as the vehicle with the best properties for the buccal vehiculization of Nys.

Design and elaboration of freeze-dried PLGA nanoparticles for the transcorneal permeation of carprofen: Ocular anti-inflammatory applications

This work aimed the design and development of poly(lactic-co-glycolic) acid (PLGA) nanoparticles (NPs) for the ocular delivery of Carprofen (CP) by a central rotatable composite design 2(3)+ star. NPs showed adequate size for ocular administration (189.50 ± 1.67 nm), low polydispersity (0.01 ± 0.01), negative charge surface (-22.80 ± 0.66 mV) and optimal entrapment efficiency (74.70 ± 0.95%). Physicochemical analysis confirmed that CP was dispersed inside the NPs. The drug release followed a first order kinetic model providing greater sustained CP release after lyophilization. Ex vivo permeation analysis through isolated rabbit cornea revealed that a sufficient amount of CP was retained in the tissue avoiding excessive permeation and thus, potential systemic levels. Ex vivo ocular tolerance results showed no signs of ocular irritancy, which was also confirmed by in vivo Draize test. In vivo ocular anti-inflammatory efficacy test confirmed an optimal efficacy of NPs and its potential application in eye surgery.

Design and physicochemical stability studies of paediatric oral formulations of sildenafil

Personalized medicine is a challenging research area in paediatric treatments. Elaborating new paediatric formulations when no commercial forms are available is a common practice in pharmacy laboratories; among these, oral liquid formulations are the most common. But due to the lack of specialized equipment, frequently studies to assure the efficiency and safety of the final medicine cannot be carried out. Thus the purpose of this work was the development, characterization and stability evaluation of two oral formulations of sildenafil for the treatment of neonatal persistent pulmonary hypertension. After the establishment of a standard operating procedure (SOP) and elaboration, the physicochemical stability parameters appearance, pH, particle size, rheological behaviour and drug content of formulations were evaluated at three different temperatures for 90 days. Equally, prediction of long term stability, as well as, microbiological stability was performed. Formulations resulted in a suspension and a solution slightly coloured exhibiting fruity odour. Formulation I (suspension) exhibited the best physicochemical properties including Newtonian behaviour and uniformity of API content above 90% to assure an exact dosification process.

Transbuccal delivery of doxepin: studies on permeation and histological investigation.

According to previous studies reporting the anesthetic/analgesic action of oral topical doxepin administration, this study evaluated a model of buccal permeation to determine the depth of delivery of doxepin into excised porcine buccal mucosa following topical application of a saturated aqueous doxepin solution. Buccal mucosa permeation studies were performed using Franz diffusion cells. Cumulative amounts of doxepin permeated were plotted as a function of time. Kinetic permeation parameters as flux (Js), lag time (Tl) and permeability coefficient (Kp) were calculated. Theoretical human plasmatic steady-state doxepin concentration and drug retained in the tissue were also determined in order to evaluate its potential therapeutic use, central or peripheral. Finally, a histological evaluation of the buccal mucosa was performed to test potential damage due to the permeation phenomenon. Obtained results showed a poor aqueous doxepin permeation through buccal mucosa membrane (median parameters Js=34.79 μg/h, Kp=0.49×10(-3)cm/h and Tl=2.8h). Predicted doxepin plasma concentrations would reach 46 ng/mL, far from the required to have central nervous system activity as tricyclic agent. However, median doxepin amount remaining in the mucosa membrane was 0.24 μg/cm(2)/μg tissue, which evidenced a reservoir function of the buccal mucosa. Histologically, no structural damage was observed in the tissues. This study lays the foundation for further research within this area with a view to potentially adopting alternative strategies for enhanced buccal absorption of doxepin in clinical practice.

Stability studies of binary and ternary mixtures containing morphine, midazolam, levomepromazine and hyoscine butylbromide for parenteral administration.

Parenteral (intravenous or subcutaneous) administration is routinely used in palliative medicine because patients are not able to take drugs orally. To avoid excessive injections, several drugs are usually given in the same dose, but the stability of these drugs when mixed is not always known. The aim of this study was to evaluate the stability of several mixtures of drugs (morphine, midazolam, levomepromazine and hyoscine butylbromide) kept under different storage conditions.

Development of a mucoadhesive delivery system for control release of doxepin with application in vaginal pain relief associated with gynecological surgery

The main purpose of this study was to develop a semisolid mucoadhesive formulation for the non-invasive vaginal administration of doxepin (DOX) for relief of pain derived from the scarring process after surgery. An orafix® platform loading DOX was tested for adequate stability, rheology and vaginal mucoadhesion capacity. The formulation exhibited appropriate pH and was microbiologically stable. The rheological studies confirmed its pseudoplastic and thixotropic nature with prevalence of the elastic behavior component over the viscous one. Appropriate syringeability and spreadability results were also confirmed. Different experiments showed adequate mucoadhesion capacity even in the presence of simulated vaginal fluid. Finally, DOX release, permeation and retention in vaginal mucosa studies were also accomplished with promising results. DOX release kinetics followed the modified Higuchi model and the permeation studies did not render such high values as to suggest potential systemic absorption which could lead to undesirable systemic side effects. Therefore, we can hypostatize that the proposed formulation may assist to fill in the therapeutic gap regarding pure pain relief at local level in vagina.

Cytotoxic Evaluation of (2S)-5,7-Dihydroxy-6-prenylflavanone Derivatives Loaded PLGA Nanoparticles against MiaPaCa-2 Cells

The search for new alternatives for the prevention and treatment of cancer is extremely important to minimize human mortality. Natural products are an alternative to chemical drugs, since they are a source of many potential compounds with anticancer properties. In the present study, the (2S)-5,7-dihydroxy-6-prenylflavanone (semi-systematic name), also called (2S)-5,7-dihydroxy-6-(3-methyl-2-buten-1-yl)-2-phenyl-2,3-dihydro-4H-1-Benzopyran-4-one (CAS Name registered) (1) was isolated from Eysenhardtia platycarpa leaves. This flavanone 1 was considered as the lead compound to generate new cytotoxic derivatives 1a, 1b, 1c and 1d. These compounds 1, 1a, 1b, 1c, and 1d were then loaded in nanosized drug delivery systems such as polymeric nanoparticles (NPs). Small homogeneous spherical shaped NPs were obtained. Cytotoxic activity of free compounds 1, 1a, 1b, 1c, and 1d and encapsulated in polymeric NPs (NPs1, NPs1a, NPs1b, NPs1c and NPs1d) were evaluated against the pancreatic cancer cell line MiaPaCa-2. The obtained results demonstrated that NPs1a and NPs1b exhibited optimal cytotoxicity, and an even higher improvement of the cytotoxic efficacy was exhibited with the encapsulation of 1a. Based on these results, NPs1a were proposed as promising anticancer agent candidates.

Development of biomedical 5-fluorouracil nanoplatforms for colon cancer chemotherapy: Influence of process and formulation parameters

In the present investigation solvent displacement or nanoprecipitation, and emulsion/solvent evaporation methods were utilized to optimize poly(D,L-lactide-co-glycolide) nanoparticles for the vehiculization of the 5-fluorouracil. Formulation components from both the aqueous and organic phases, as well as, operating conditions were varied. Particles were characterized in terms of particle size and morphology, electrical properties, rheology, drug loading, stability, and drug release. Furthermore, in vitro cytotoxicity on human colon cells and different colon carcinoma cells was evaluated. Four types of nanoparticles were selected for drug loading, revealing differences between variables. Low viscosity values and their Newtonian behavior could assure the suitability of the nanoformulation for the intravenous route of administration. The greatest drug entrapment efficiency and best stability was achieved when the chemotherapeutic agent was incorporated into the internal aqueous phase of particles prepared by double emulsion/solvent evaporation. However, a more sustained drug release at pH 7.4 was possible when 5-fluorouracil was added to the external aqueous phase. These were the nanoformulations reporting the greatest antiproliferative efficacy compared with the free drug. The nanocarrier can optimize the antitumor activity of 5-fluorouracil, thus being a potential nanotool against colon cancer.

Effect of Different Skin Penetration Promoters in Halobetasol Propionate Permeation and Retention in Human Skin

Halobetasol propionate (HB) is a potent synthetic corticosteroid used against inflammatory skin diseases, such as dermatitis, eczema, and psoriasis, among others. The aim of this study is to define how the presence of different skin penetration enhancers (nonane, menthone, limonene, azone, carene, decanol, linoleic acid and cetiol) affects the penetration and retention in skin of HB. To determine drug penetration through skin, 5% of each promoter was used in an ex vivo system with human skin on Franz cells. The results showed that the highest permeation occurs in the presence of menthone, followed by nonane. Permeation parameters were determined. The in vivo test was assessed, and the formulation containing HB-menthone presented better anti-inflammatory efficacy. These results are useful to generate a specific treatment according to each patient’s needs, and the inflammatory characteristics of the disease.