Monoolein-based nanodispersions for cutaneous co-delivery of methylene blue and metformin: Thermal and structural characterization and effects on the cutaneous barrier, skin penetration and cytotoxicity.

This study evaluated the potential of monoolein (MO)-based nanodispersions to promote the cutaneous co-delivery of metformin (MET) and methylene blue (MB) for the treatment of non-melanoma skin cancer. MO-based nanodispersions were obtained using Kolliphor® P407 (KP) and/or sodium cholate (CH), and characterized concerning the structure, thermal stability, ability to disrupt the skin barrier, cutaneous permeation and retention of MB and MET. Additionally, the cytotoxic effect of MO nanodispersions-mediated combination therapy using MET and MB in A431 cells was evaluated. The nanodispersions exhibited nanometric size (<200 nm) and thermal and physical stability. Small angle X-ray scattering studies revealed multiple structures depending on composition. They were able to interact with stratum corneum lipid structure, increasing its fluidity. The effect of MO-nanodispersions on topical/transdermal delivery of MB and MET was composition-dependent. Nanodispersions with low MO content (5 %) and stabilized with KP and CH (0.05-0.10 %) were the most promising, enhancing the cutaneous delivery of MB and MET by 1.9 to 2.2-fold and 1.4 to 1.7-fold, respectively, compared to control. Cytotoxic studies revealed that the most promising MO nanodispersion-mediated combination therapy using MET and MB (1:1) reduced the IC50 by 24-fold, compared to MB solution, and a further reduction (1.5-fold) was observed by MB photoactivation.

Topical application of a cream containing nanoparticles with vitamin E for radiodermatitis prevention in women with breast cancer: A randomized, triple-blind, controlled pilot trial.

PURPOSE: Most topical agents for radiodermatitis prevention are not based on its pathophysiology, mainly caused by the indirect effects of radiation from reactive oxygen species release. Therefore, this study aimed to evaluate the effect of vitamin E-containing nanoparticle cream as an antioxidant for radiodermatitis prevention. METHOD: A randomized, triple-blind, parallel pilot study conducted in an Oncology Hospital including 40 adult women with breast cancer, and healthy skin, submitted to radiotherapy, divided into three groups: Intervention (12; 30%) receiving cream with nanoparticles containing vitamin E; Control 1 (14; 35%) cream without nanoparticles or vitamin E; Control 2 (14; 35%) cream with nanoparticles without vitamin E. Incidence, grade and time to onset of radiodermatitis were primary outcomes; health-related quality of life, reported symptoms, and breast temperature were secondary outcomes. RESULTS: All patients were followed until the end of the study. All had radiodermatitis. There were no significant differences between the study groups regarding radiodermatitis grade, health-related quality of life, and breast temperatures. A protective effect of vitamin E-containing nanoparticle cream was identified regarding the onset time of radiodermatitis in patients who did not receive a boosted radiation dose (p = .03) and the occurrence of mild inframammary erythema (p = .04). Itching was reported by 90% of the women. The definitive calculated sample is 108 volunteers. There were no identified side effects. CONCLUSIONS: A potential protective effect of a cream containing vitamin E nanoparticles was observed. This pilot study presents initial evidence about the role of a nanoencapsulated antioxidant in preventing radiodermatitis. TRIAL REGISTRATION: No. RBR-784F3Y; UTN-U1111-1201-5923.

Rethinking Breast Cancer Chemoprevention: Technological Advantages and Enhanced Performance of a Nanoethosomal-Based Hydrogel for Topical Administration of Fenretinide.

Herein, we developed an ethosomal hydrogel based on three types of ethosomes: simple, mixed (surfactant-based micelles and lipid vesicles) or binary (comprising two type of alcohols). Ethanol injection was employed for vesicles preparation, and sodium alginate, as gelling agent. We purposed the local-transdermal administration of the off-the-shelf retinoid fenretinide (FENR) for chemoprevention of breast cancer. Rheograms and flow index values for alginate dispersion (without ethosomes) and hydrogels containing simple, mixed or binary ethosomes suggested pseudoplastic behavior. An increase in the apparent viscosity was observed upon ethosome incorporation. The ethosomal hydrogel displayed increased bioadhesion compared to the alginate dispersion, suggesting that the lipid vesicles contribute to the gelling and bioadhesion processes. In the Hen's Egg Test-Chorioallantoic Membrane model, few spots of lysis and hemorrhage were observed for formulations containing simple (score of 2) and mixed vesicles (score 4), but not for the hydrogel based on the binary system, indicating its lower irritation potential. The binary ethosomal hydrogel provided a slower FENR in vitro release and delivered 2.6-fold less drug into viable skin layers compared to the ethosome dispersion, supporting the ability of the gel matrix to slow down drug release. The ethosomal hydrogel decreased by ~ five-fold the IC50 values of FENR in MCF-7 cells. In conclusion, binary ethosomal gels presented technological advantages, provided sustained drug release and skin penetration, and did not preclude drug cytotoxic effects, supporting their potential applicability as topical chemopreventive systems.

Rethinking breast cancer chemoprevention: technological advantages and enhanced performance of a nanoethosomal-based hydrogel for topical administration of fenretinide

Herein, we developed an ethosomal hydrogel based on three types of ethosomes: simple, mixed (surfactant-based micelles and lipid vesicles) or binary (comprising two type of alcohols). Ethanol injection was employed for vesicles preparation, and sodium alginate, as gelling agent. We purposed the local-transdermal administration of the off-the-shelf retinoid fenretinide (FENR) for chemoprevention of breast cancer. Rheograms and flow index values for alginate dispersion (without ethosomes) and hydrogels containing simple, mixed or binary ethosomes suggested pseudoplastic behavior. An increase in the apparent viscosity was observed upon ethosome incorporation. The ethosomal hydrogel displayed increased bioadhesion compared to the alginate dispersion, suggesting that the lipid vesicles contribute to the gelling and bioadhesion processes. In the Hen’s Egg Test–Chorioallantoic Membrane model, few spots of lysis and hemorrhage were observed for formulations containing simple (score of 2) and mixed vesicles (score 4), but not for the hydrogel based on the binary system, indicating its lower irritation potential. The binary ethosomal hydrogel provided a slower FENR in vitro release and delivered 2.6-fold less drug into viable skin layers compared to the ethosome dispersion, supporting the ability of the gel matrix to slow down drug release. The ethosomal hydrogel decreased by ~ five-fold the IC50 values of FENR in MCF-7 cells. In conclusion, binary ethosomal gels presented technological advantages, provided sustained drug release and skin penetration, and did not preclude drug cytotoxic effects, supporting their potential applicability as topical chemopreventive systems.

Topical transdermal chemoprevention of breast cancer: where will nanomedical approaches deliver us?

Despite the high incidence of breast cancer, there are few pharmacological prevention strategies for the high-risk population and those that are available have low adherence. Strategies that deliver drugs directly to the breasts may increase drug local concentrations, improving efficacy, safety and acceptance. The skin of the breast has been proposed as an administration route for local transdermal therapy, which may improve drug levels in the mammary tissue, due to both deep local penetration and percutaneous absorption. In this review, we discuss the application of nanotechnology-based strategies for the delivery of well established and new agents as well as drug repurposing using the topical transdermal route to improve the outcomes of preventive therapy for breast cancer.

Topical cream containing nanoparticles with vitamin E to prevent radiodermatitis in women with breast cancer: a clinical trial protocol.

OBJECTIVE: Little is known about the efficacy of products aiming to prevent radiodermatitis, which affects between 90-95% of women with breast cancer. The use of antioxidants is promising, however, there is a lack of evidenceon their effectiveness. Here, the authors present a clinical trial protocol to evaluate the effects of applying a cream containing nanoparticles with vitamin E to prevent radiodermatitis in patients with breast cancer. METHOD: The protocol recommends that 108 women with breast cancer, receiving radiotherapy, are included in this triple-blinded, randomized, controlled study at an oncology hospital. Patients will be divided in three groups of 36 individuals each: group A will receive a cream with lipid nanoparticles and vitamin E, group B will receive a cream without nanoparticles nor vitamin E, and group C will receive a cream with nanoparticles without vitamin E. The primary endpoints will evaluate the incidence, degree, and time of onset of radiodermatitis. The secondary endpoints will focus on the quality of life, symptoms, and local temperature. Patients will be assessed three times a week, from the start of their radiotherapy treatment to two weeks after the last session. This protocol was approved by the research ethics committee of the institutions involved and registered on an international trials database.

Lipid nanovesicles for biomedical applications: 'What is in a name'?

Vesicles, generally defined as self-assembled structures formed by single or multiple concentric bilayers that surround an aqueous core, have been widely used for biomedical applications. They can either occur naturally (e.g. exosomes) or be produced artificially and range from the micrometric scale to the nanoscale. One the most well-known vesicle is the liposome, largely employed as a drug delivery nanocarrier. Liposomes have been modified along the years to improve physicochemical and biological features, resulting in long-circulating, ligand-targeted and stimuli-responsive liposomes, among others. In this process, new nomenclatures were reported in an extensive literature. In many instances, the new names suggest the emergence of a new nanocarrier, which have caused confusion as to whether the vesicles are indeed new entities or could simply be considered modified liposomes. Herein, we discussed the extensive nomenclature of vesicles based on the suffix "some" that are employed for drug delivery and composed of various types and proportions of lipids and others amphiphilic compounds. New names have most often been selected based on changes of vesicle lipid composition, but the payload, structural complexity (e.g. multicompartment) and new/improved proprieties (e.g. elasticity) have also inspired new vesicle names. Based on this discussion, we suggested a rational classification for vesicles.

Topical cream containing nanoparticles with vitamin E to prevent radiodermatitis in women with breast cancer: a clinical trial protocol.

OBJECTIVE: Little is known about the efficacy of products aiming to prevent radiodermatitis, which affects between 90-95% of women with breast cancer. The use of antioxidants is promising, however, there is a lack of evidenceon their effectiveness. Here, the authors present a clinical trial protocol to evaluate the effects of applying a cream containing nanoparticles with vitamin E to prevent radiodermatitis in patients with breast cancer. METHOD: The protocol recommends that 108 women with breast cancer, receiving radiotherapy, are included in this triple-blinded, randomized, controlled study at an oncology hospital. Patients will be divided in three groups of 36 individuals each: group A will receive a cream with lipid nanoparticles and vitamin E, group B will receive a cream without nanoparticles nor vitamin E, and group C will receive a cream with nanoparticles without vitamin E. The primary endpoints will evaluate the incidence, degree, and time of onset of radiodermatitis. The secondary endpoints will focus on the quality of life, symptoms, and local temperature. Patients will be assessed three times a week, from the start of their radiotherapy treatment to two weeks after the last session. This protocol was approved by the research ethics committee of the institutions involved and registered on an international trials database.

Miltefosine as an alternative strategy in the treatment of the emerging fungus Candida auris.

OBJECTIVES: Candida auris (C. auris) is an emerging fungal species that is able to develop multidrug resistance and outbreaks of invasive infections worldwide with high mortality rates. To increase the treatment options for C. auris infection this study assessed the efficacy of miltefosine (MFS), that has demonstrated a broad-spectrum antifungal action in vitro. This study aimed to: (i) evaluate the in vitro antifungal activity of MFS against C. auris clinical isolates in the planktonic and biofilm lifestyles; and (ii) compare the activity of MFS in its free form and encapsulated in alginate nanoparticles (MFS-AN) in Galleria mellonella larvae infected by C. auris. METHODS: The antifungal susceptibility test was performed using broth microdilution method and the in vivo treatment in Galleria mellonella larval infection model. RESULTS: MFS exhibited in vitro inhibitory effects at MICs ranging 1-4 µg/mL and fungicidal activity against planktonic cells of C. auris clinical isolates. MFS antibiofilm activity was observed during biofilm formation (0.25-4 µg/mL) and on pre-formed biofilms (16-32 µg/mL). Moreover, the dispersed cells from C. auris biofilms had a similar susceptibility to those obtained for planktonic cells. Treatment with free MFS or MFS-AN resulted in significant improvements in the survival and morbidity rates of Galleria mellonella larvae infected by C. auris. In addition, reduction of fungal burden (0.5-1 log CFU/g) and granuloma formation were observed when compared with the untreated group. CONCLUSIONS: The findings suggest that both the free MFS and MFS-AN have potential for the treatment of fungal infections caused by the emerging C. auris.

New Approaches for Cryptococcosis Treatment.

Cryptococcosis is an important opportunistic infection and a leading cause of meningitis in patients with HIV infection. The antifungal pharmacological treatment is limited to amphotericin B, fluconazole and 5- flucytosine. In addition to the limited pharmacological options, the high toxicity, increased resistance rate and difficulty of the currently available antifungal molecules to cross the blood-brain barrier hamper the treatment. Thus, the search for new alternatives for the treatment of cryptococcal meningitis is extremely necessary. In this review, we describe the therapeutic strategies currently available, discuss new molecules with antifungal potential in different phases of clinical trials and in advanced pre-clinical phase, and examine drug nanocarriers to improve delivery to the central nervous system.

Clinical protocol for the topical use of a cream with nanoparticles and vitamin E to prevent radiodermatitis in patients with breast cancer]. / Aplicación tópica de crema con nanopartículas con vitamina E para prevenir radiodermatitis en cáncer de mama: protocolo de ensayo clínico.

Objetivo: Poco se conoce sobre la eficacia de productos para la prevención de radiodermatitis, que afecta al 90­95% de las mujeres con cáncer de mama. El uso de antioxidantes es promisorio, sin embargo, poco estudiado. Los autores desarrollaron un protocolo de ensayo clínico para evaluar el efecto potencial de la aplicación de crema con nanopartículas con vitamina E para prevenir radiodermatitis aguda en mujeres con cáncer de mama. Método: El protocolo sugiere que 108 mujeres adultas con cáncer de mama, que estén recibiendo radioterapia, sean incluidas en este ensayo clínico, controlado, aleatorizado y triple ciego, en un hospital oncológico. Se prevé la distribución de pacientes en tres grupos de 36 personas: el grupo A recibirá una crema con nanopartículas lipídicas con vitamina E, el grupo B obtendrá una crema sin nanopartículas ni vitamina E, y el grupo C usará una crema con nanopartículas sin vitamina E. Los resultados primarios evaluarán la incidencia, el grado y el tiempo de surgimiento de la radiodermatitis. Los resultados secundarios se centrarán en la calidad de vida, los síntomas y la temperatura local. Las pacientes serán evaluadas tres veces por semana, desde el inicio de la radioterapia hasta dos semanas después de la última sesión. El presente proyecto fue aprobado por el comité de ética en investigación de las instituciones involucradas.Objective: Little is known about the efficacy of products that aim to prevent radiodermatitis, which affects between 90­95% of women with breast cancer. The use of antioxidants is promising, however, there is a lack of evidence on their effectiveness. Here, the authors present a clinical trial protocol to evaluate the potential effects of applying a nanoparticle cream with vitamin E to prevent radiodermatitis in patients with breast cancer. Method: The protocol recommends that 108 women with breast cancer, who are receiving radiotherapy, be included in a triple-blinded, randomised, controlled study in an oncology hospital. Patients will be divided in three groups of 36 people each: group A will receive a cream with lipid nanoparticles and vitamin E, group B will obtain a cream without nanoparticles or vitamin E, and group C will receive a cream with nanoparticles without vitamin E. The primary endpoints will evaluate the incidence, degree and time of onset of radiodermatitis. The secondary endpoints will focus on quality of life, symptoms and local temperature. Patients will be assessed three times a week, from the start of their radiotherapy treatment to two weeks after the last session. This protocol was approved by the research ethics committee of the institutions involved.

Alginate nanoparticles as non-toxic delivery system for miltefosine in the treatment of candidiasis and cryptococcosis.

INTRODUCTION AND OBJECTIVE: Previous studies indicate that miltefosine (MFS) may be an alternative as an antifungal agent; however, it presents several adverse effects. Thus, the aim of this study was to produce miltefosine-loaded alginate nanoparticles (MFS.Alg) for toxicity reduction to be used as an alternative for the treatment of cryptococcosis and candidiasis. METHODS: Alginate nanoparticles were produced using the external emulsification/gelation method, and their physicochemical and morphological characteristics were analyzed. MFS encapsulation efficiency, release assay and toxicity on red blood cells and on Galleria mellonella larvae were assessed. The antifungal activity was evaluated using in vitro and in vivo larval models of G. mellonella infected with Candida albicans (SC5314 and IAL-40), Cryptococcus neoformans H99 and Cryptococcus gattii ATCC 56990. The treatment efficacy was evaluated by survival curve, colony forming unit (CFU) counting and histopathological analysis. RESULTS: MFS.Alg nanoparticles presented a mean size of 279.1±56.7 nm, a polydispersity index of 0.42±0.15 and a zeta potential of -39.7±5.2 mV. The encapsulation efficiency of MFS was 81.70±6.64%, and its release from the nanoparticles occurred in a sustained manner. MFS in alginate nanoparticles presented no hemolytic effect and no toxicity in G. mellonella larvae. Treatment with MFS.Alg extended the survival time of larvae infected with C. albicans and C. gattii. In addition, the fungal burden reduction was confirmed by CFU and histopathological data for all groups treated with 200 mg/Kg of MFS.Alg. CONCLUSION: These results support the use of alginate-based drug delivery systems as carriers for MFS for drug toxicity reduction and control of the fungal infection in the in vivo model of G. mellonella.

Nanocarriers Provide Sustained Antifungal Activity for Amphotericin B and Miltefosine in the Topical Treatment of Murine Vaginal Candidiasis.

Topical drug administration is frequently used for the treatment of vaginal candidiasis; however, most formulations using this route do not provide prolonged drug release. Our aim was to evaluate the antifungal efficacy of amphotericin B (AMB) and miltefosine (MFS) incorporated in nanocarriers for sustained drug release, in a murine model of vaginal candidiasis. AMB and MFS were incorporated in different topical formulations, namely: conventional vaginal cream (daily dose for 6 days; MFS-CR and AMB-CR groups), microemulsion that transforms into a liquid crystalline gel in situ (single dose, or in three doses, every 48 h; AMB-ME and MFS-ME groups) and alginate nanoparticles (single dose; MFS-AN group). Formulations were administered intravaginally in BALB/c female mice 24 h post-infection by Candida albicans yeasts. On the 7th day post-infection the animals were euthanized for mycological and histological analyses. Formulation persistence in the vaginal canal was assessed for 7 days by in vivo imaging, using nanocarriers labeled with Alexa-Fluor 647. AMB-ME(3×), MFS-ME(3×), and MFS-AN(1×) formulations were able to control fungal infection at comparable levels to those vaginal cream formulations. Notably, a single dose of MFS-AN was sufficient to reduce the fungal burden as effectively as MFS-ME(3×) and MFS-CR(6×). In vivo imaging showed that nanocarriers allowed prolonged antifungal activity by intravaginal administration reducing drug administration frequency. Therefore, AMB and MFS incorporated into a microemulsion and MFS encapsulated in alginate nanoparticles could be effective therapeutic alternatives for vaginal candidiasis, likely due to the sustained antifungal activity provided by these nanocarriers.

RNAi mediated IL-6 in vitro knockdown in psoriasis skin model with topical siRNA delivery system based on liquid crystalline phase.

Gene therapy by RNA interference (RNAi) is a post-transcriptional silencing process that can suppress the expression of a particular gene and it is a promising therapeutic approach for the treatment of many severe diseases, including cutaneous disorders. However, difficulties related to administration and body distribution limit the clinical use of small interfering RNA (siRNA) molecules. In this study, we proposed to use nanocarriers to enable siRNA application in the topical treatment of skin disorders. A siRNA nanodispersion based on liquid crystalline phase and composed of monoolein (MO), oleic acid (OA) and polyethylenimine (PEI) was developed and its physicochemical properties, efficiency of complexation and carrier/siRNA stability were assessed. Subsequently, cell viability, cellular uptake, in vitro skin irritation test using reconstructed human epidermis (RHE) and in vitro IL-6 knockdown in psoriasis skin model were evaluated. The results showed that the liquid crystalline nanodispersion is a promising topical delivery system for administration of siRNA, being able to overcome the limitations of the route of administration, as well those resulting from the characteristics of siRNA molecules. The formulation was effective at complexing the siRNA, presented high rate of cell uptake (∼90%), increased the skin penetration of siRNA in vitro, and did not cause skin irritation compared with Triton-X (a moderate irritant), resulting in a 4-fold higher viability of reconstructed human epidermis and a 15.6-fold lower release of IL-1α. A single treatment with the liquid crystalline nanodispersion carrying IL-6 siRNA for 6h was able to reduce the extracellular IL-6 levels by 3.3-fold compared with control treatment in psoriasis skin model. Therefore, liquid crystalline nanodispersion is a suitable nanocarrier for siRNA with therapeutic potential to suppress skin disease-specific genes. This study also highlights the applicability of reconstructed skin models in pharmaceutical field to evaluate the performance of delivery systems without the use of animal models.

A delivery system to avoid self-aggregation and to improve in vitro and in vivo skin delivery of a phthalocyanine derivative used in the photodynamic therapy.

The hydrophilic character and aggregation phenomena exhibited by the photosensitizer zinc phthalocyanine tetrasulfonate (ZnPcSO(4)) make it difficult for this compound to penetrate the skin, and reduce the compound's photodynamic efficacy. A microemulsion (ME) was developed to increase the skin penetration of ZnPcSO(4) while avoiding its aggregation. Ternary phase diagrams composed of surfactants (Span® 80/Tween® 80), canola oil and a propylene glycol (PG)/water mixture (3:1) were constructed as a basis for choosing an adequate ME preparation. Rheological, electrical conductivity, dynamic light scattering and zeta potential studies were carried out to characterize the ME formulations. Monomerization of ZnPcSO(4) in the ME was determined photometrically and fluorometrically. In vitro skin penetration and retention of the compound in the skin were measured using porcine ear skin mounted on a diffusion cell apparatus. The in vivo accumulation 6h after ZnPcSO(4) application was determined fluorometrically in hairless mice skin. Confocal laser scanning microscopy was used to visualize ZnPcSO(4) distribution in the skin. A ME composed of canola oil:surfactant:PG-water at 38:47:15 (w/w/w) was chosen for ZnPcSO(4.) This was oil-in-water with internal phase diameter of 15.7±0.15nm. Spectroscopic techniques confirmed that the ME was able to keep ZnPcSO(4) in its monomeric form. In the in vitro penetration of ZnPcSO(4) in the stratum corneum (SC) and in epidermis (without stratum corneum) with dermis ([E+D]) was 33.0- and 28.0-fold higher, respectively compared to the control solution of the drug. In vivo studies, confirmed that when the ME was used as carrier, ZnPcSO(4) concentrations in the SC and [E+D] were about 1.6- and 5.6-fold higher, respectively, than controls. Visualization of ZnPcSO(4) skin penetration by confocal laser scanning microscopy confirmed that the ME increased both penetration and biodistribution of this photosensitizer in the skin.

Interaction of sodium diclofenac with freeze-dried soya phosphatidylcholine and unilamellar liposomes

Phospholipids are widely used as structural amphiphilic compounds in liposome formulations. In this study, we have analyzed the interaction the sodium diclofenac (SD) with soya phosphaditylcholine (PC) and soya phosphatidylcholine from lyophilized small unilamellar liposomes (SUV). The changes in the properties of the co-lyophilized drug/PC from SUV liposomes, lyophilized PC from SUV liposomes, and lyophilized soya phosphatidylcholine, were studied by Differential Scanning Calorimetry (DSC). The DSC data showed that the previous organization of phospholipids molecules to form liposome affects intensely the thermal behavior of PC when compared to non-lipossomal PC. SD modified the thermal properties of PC from liposomes. It was verified that SD affects intensely the located group peaks in the regions of 120-140 °C and in the higher temperature region of 240-260 °C. The results of this work demonstrated that the presence of the drug modified the DSC behavior for both liposomal and non-liposomal PC and that these modifications can be easily monitored by DSC analysis.

Fosfolipídios são freqüentemente usados como compostos anfifílicos estruturais em formulações de lipossomas. Neste estudo foi analisada a interação do diclofenaco sódico (SD) com a fosfatidilcolina de soja liofilizada e a fosfatidilcolina de soja (PC) obtida de lipossomas unilamelares pequenos liofilizados (SUV). As modificações nas propriedades da mistura fármaco/PC co-liofilizados a partir de SUV pré-formados, lipossomas de PC vazios e PC liofilizada foram estudadas por Calorimetria Diferencial de Varredura (DSC). Os resultados de DSC mostraram que a organização prévia das moléculas PC para formar lipossomas interfere significativamente no perfil de DSC da PC, quando comparada ao perfil de DSC da PC não-lipossômica. Verificou-se que o SD afeta intensamente o grupo de picos situados nas regiões de 120-140°C e na região de mais alta temperatura (240-260°C). Os resultados deste trabalho demonstraram que em todos os casos a presença do fármaco modificou o perfil de DSC da PC e que essas modificações podem ser facilmanete monitoradas através da análise de DSC.

Encapsulation of diclofenac sodium in small unilamellar liposomes and evaluation of the in vitro release profile

O uso terapêutico de lipossomas como transportador de fármacos tem um papel importante no processo de liberaçäo em razäo da capacidade dessas estruturas de encapsular compostos hidrofílicos e hidrofóbicos. Lipossomas têm sido empregados como transportadores de inúmeros compostos terapêuticos, incluindo antiinflamatórios näo esteróides (AINEs). Neste trabalho, foi estudada a encapsulaçäo do diclofenaco sódico (DS) em lipossomas unilamelares pequenos contendo fosfatidilcolina, colesterol e alfa-tocoferol(40:10:0,04mM). Diferentes concentraçöes de DS foram usadas, adicionadas à mistura dos lipídios estruturais ou na fase aquosa dos lipossomas. Os lipossomas foram obtidos por sonicaçäo. O fármaco näo encapsulado foi removido por cromatografia de exclusäo usando-se coluna de Sephadex G-25. A eficiência de encapsulaçäo foi calculada a partir da determinaçäo quantitativa da DS por HPLC. O diâmetro médio dos lipossomas foi analisado por espalhamento dinâmico de luz laser. Os resultados mostraram que, quando o DS foi adicionado na fase aquosa, ele interagiu com a bicamada lipídica reduzindo significativamente o diâmetro dos lipossomas. A encapsulaçäo máxima de DS foi obtida com 0,025mg/ml de fosfolipídio. O estudo de liberaçäo in vitro mostrou que o DS livre foi totalmente liberado para o meio de dissoluçäo em cerca de 5 horas. A liberaçäo do fármaco encapsulado nos lipossomas foi mais lenta nos tempos iniciais, sendo cerca de 50 por cento do fármaco liberado nas primeiras 6 horas do experimento. O perfil de liberaçäo do fármaco dos lipossomas pode ser explicado por um modelo de liberaçäo em duas etapas, a primeira relacionada com a liberaçäo do diclofenaco encapsulado na fase aquosa interna do lipossoma e a segunda envolvendo a liberaçäo de diclofenaco associado à bicamada para o meio aquoso externo.