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Desenvolvimento de um sistema terapêutico micro-/nanoestruturado contendo 5-fluorouracil para administração pulmonarZatta, Kelly Cristine January 2016 (has links)
A inexistência de um agente terapêutico único satisfatório para o tratamento do melanoma metastático e a potencialidade do quimioterápico 5FU (5-fluorouracil) motivou esta pesquisa, a qual teve por objetivo o desenvolvimento tecnológico de sistemas carreadores micro-/ e nanoestruturados contendo 5FU a fim de aumentar sua eficácia terapêutica e reduzir a toxicidade por meio da administração pulmonar. Duas formulações pulverulentas foram desenvolvidas com polímeros naturais, sulfato de condroitina e hidroxipropil-metil-celulose, denominadas 5FU-MS e 5FU-NS, utilizando as técnicas de aspersão e atomização vibracional piezoelétrica, respectivamente. Ambas as formulações foram avaliadas quanto às características físicas e químicas, perfil toxicológico in vivo (C. elegans e em ratos Wistar), e penetração e biodisponibilidade no tecido pulmonar pela quantificação da fração livre de fármaco por microdiálise pulmonar. A análise físico-química revelou a obtenção de partículas micrométricas para 5FU-MS e submicrométricas para 5FU-NS, com diâmetros médios de partícula de 2,546 ± 0,07 m e 0,652 ± 0,03 m, e fração respirável (FR%) de 55,12 ± 2,98 e 76,84 ± 0,07, respectivamente. Ambas demonstraram características e propriedades adequadas para administração pulmonar, com capacidade de deposição nas porções média e profunda. A toxicidade das formulações avaliada em C. elegans considerou o percentual de morte, desenvolvimento, DL50 e produção de ROS para os nematodos sob tratamento agudo e crônico. Os resultados evidenciaram redução significativa da toxicidade proporcionada pela redução da taxa de morte e maior desenvolvimento dos grupos tratados com as formulações 5FU-MS e 5FU-NS em comparação ao fármaco livre, sugerindo perfis de segurança satisfatórios para administração. Além disso, 5FU-MS revelou-se um agente pró-oxidante, representando um diferencial promissor deste sistema, podendo alcançar maior sensibilização das células tumorais com menores doses. A toxicidade pulmonar aguda foi avaliada pela análise de LDH e proteínas totais no fluido de lavagem bronco-alveolar (BALF) após a administração combinada das formulações 5FU-MS e 5FU-NS para administração como um sistema terapêutico único (5FU-MS/NS), e análise de dano tecidual pulmonar em ratos. Os resultados da análise bioquímica e histológica indicaram o baixo potencial de indução de lesão tecidual a partir da administração pulmonar combinada das formulações, em relação ao fármaco livre. A análise do perfil farmacocinético por microdiálise pulmonar evidenciou o êxito no desenvolvimento dos sistemas carreadores, tornando possível duplicar o t1/2 do 5FU e aumentar significativamente a biodisponibilidade no tecido pulmonar. Os resultados obtidos indicam a eficiência das formulações 5FU-MS e 5FU-NS em alcançar os benefícios terapêuticos do fármaco 5FU com menores doses e maiores intervalos de administração. Este trabalho de tese apresenta uma abordagem promissora na terapia de neoplasias com recorrência de metástase pulmonar. / The absence of a single therapeutic agent suitable for the treatment of metastatic melanoma and the potential of 5FU chemotherapy (5-fluorouracil) motivated this study, which aimed the development of carrier systems based on micro-/ and nanostructures containing 5FU to increase the therapeutic efficacy and reduce toxicity of this drug by pulmonary administration. Two different formulations of dry powders were developed with natural polymers, chondroitin sulfate and hydroxypropyl-methyl-cellulose, denomined 5FU-MS and 5FU-NS, using the spray-drying and vibrational piezoelectric atomization techniques, respectively. Both formulations were evaluated in terms of physico-chemical characteristics, in vivo toxicological behaviors (C. elegans and in Wistar rats), bioavailability and penetration in the lung tissue by quantifying of drug free fraction by lung microdialysis. The physicochemical analysis showed that were obtained as micrometric (5FU-MS) and submicron particles (5FU-NS), with average diameters of particle 2.546 ± 0.07 m and 0.652 ± 0.03 m, and respirable fraction (FR%) of 55.12 ± 2.98 and 76.84 ± 0.07, respectively. Both showed suitable characteristics and properties for pulmonary delivery, with deposition capacity in the middle and deep lung portions. The toxicity of the formulations evaluated in C. elegans considered the death rate, body development, DL50 and production of ROS to nematodes under acute and chronic treatment. The results showed significant reduction of toxicity, reducing the death rate and greater development of the groups treated with 5FU-MS and 5FU-NS formulations compared to the free drug, suggesting satisfactory safety profile for administration. In addition, 5FU-MS proved to be a pro-oxidant agent, representing a promising differential of this system which can achieve greater sensitization of tumoral cells with lower doses. Acute pulmonary toxicity was evaluated by analyzing LDH, and total protein in the bronchoalveolar lavage fluid (BALF) after combined administration of 5FU-MS formulations and 5FU-NS for administration as a single therapeutic system (5FU-MS/NS) and analysis of lung tissue damage in rats. The results of biochemical and histological analysis indicated the low potential to induce tissue damage from the pulmonary administration of combined formulations, compared to free drug. Analysis of the pharmacokinetic profile for pulmonary microdialysis showed the successful development of carrier systems, making it possible to double the t1/2 of 5FU and significantly increase bioavailability in lung tissue. The results indicate the effectiveness of the formulations 5FU-MS and 5FU-NS in achieving the therapeutic benefits of the drug 5FU at lower doses and higher dosing intervals. This thesis work presents a promising approach to cancer therapy with lung metastasis recurrence.
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Efeitos da formulação mucoadesiva com extrato de Curcuma longa L. em animais portadores de mucosite intestinal induzida por 5-fluorouracilSantos Filho, Edvande Xavier dos 20 March 2014 (has links)
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Previous issue date: 2014-03-20 / Introduction: Intestinal mucositis is a frequent limiting factor in antineoplastic therapy. There is no truly effective treatment targeted to cure this side effect. Curcuma longa L. has been reported to have antioxidant, antitumor and anti-inflammatory properties. Objective: This study aimed to evaluate the effects of a mucoadhesive formulation with Curcuma longa L. extract (MCL) in mice bearing intestinal mucositis induced by 5-FU. Methods: Swiss male adult mice (35-40g) were randomly allocated into three experimental groups of 5 animals each: control (mucoadhesive formulation 0.6mL/animal, via gavage, from day 1-6); exposed to 5-fluorouracil (5-FU 200mg/kg, i.p., in days 4-6); treated prophylactically and throughout mucositis with FMCL and exposed to 5-FU (MCL 15mg/kg, via gavage, from day 1-6, plus 5-FU 200mg/kg, i.p., in days 4-6). In the 7th day, animals were anesthetized by xylazine-ketamine followed by cervical dislocation. Duodenal samples, 10 cm after pyloric sphincter were removed to perform the essays. The parameters evaluated were: body weight assessment, morphometrics and histo-pathological analysis, apoptosis (p53/Bax, Bcl-2), cell proliferation (Ki-67), myelo-peroxidase (MPO) and malondialdehyde (MDA). Results: 5-FU induced intestinal mucositis characterized by villus shortening, crypt deepening, intense inflammatory infiltration, vacuolization and mucosal edema. Besides, 5-FU induced severe mice body mass reduction, apoptosis in cells of villus and crypts (p<0.001), increase in MPO activity and MDA formation (p<0.05), when compared to the control group. Treatment with MCL attenuated body mass loss, protected intestinal mucosa from villus shortening and crypt deepening, decrease MPO activity and MDA formation (p<0.05). In this group of animals was also observed high expression of the cell proliferation marker Ki-67 in epithelial cells lining of villus and crypts. Conclusion: Our data confirm the therapeutic potential of MCL for the treatment of intestinal mucositis in mice. Further studies are needed to assess this formulation potential for human use. / Introdução: A mucosite intestinal é um dos efeitos adversos limitantes das terapias antineoplásicas. Não existe tratamento realmente efetivo direcionado a cura deste efeito colateral grave. A Curcuma longa L. tem sido proposta como candidata ao tratamento de várias doenças por possuir propriedades antioxidante, antitumoral e anti-inflamatória. Objetivo: Este estudo objetivou avaliar os efeitos da formulação mucoadesiva com extrato de Curcuma longa L. (FMCL) em animais portadores de mucosite intestinal induzida por 5-FU. Métodos: Camundongos Swiss adultos, machos (35-40g) foram aleatoriamente alocados em três grupos experimentais de 5 animais cada: [1] controle (formulação mucoadesiva 0.6mL/animal, via gavagem, do dia 1-6); [2] exposto ao 5-fluorouracil (5-FU 200mg/kg, i.p., dos dias 4-6), [3] tratado profilaticamente e ao curso da mucosite com FMCL e exposto ao 5-FU (FMCL 15mg/kg, via gavagem dos dias 1-6, mais 5-FU 200mg/kg, i.p., dos dias 4-6). No sétimo dia, os animais foram anestesiados por xilazina-ketamina seguido por deslocamento cervical. Amostras de duodeno, 10 cm após o esfíncter pilórico, foram coletadas para realização dos ensaios. Os parâmetros avaliados foram: avaliação de massa corporal, análise morfométrica e histopatológica, apoptose (p53/Bax; Bcl-2), proliferação celular (Ki-67), mieloperoxidase (MPO) e malondialdeído (MDA) Resultados: A administração de 5-FU induziu mucosite intestinal caracterizada por encurtamento das vilosidades, aprofundamento das criptas, intenso infiltrado infla-matório, vacuolização e edema na mucosa. Além disso, o 5-FU induziu grave redução de massa corporal nos camundongos e apoptose nas células das vilosida-des e criptas, quando comparado ao grupo controle (p<0,001). Foi observado ainda aumento na atividade de MPO e formação de MDA, quando comparado ao grupo controle (p<0,05). Por outro lado, o tratamento com a FMCL atenuou a perda de massa corporal dos animais com mucosite. Ademais, protegeu a mucosa intestinal da redução no tamanho das vilosidades e criptas induzidas pelo 5-FU. Neste grupo de animais foi observado ainda aumento na expressão do marcador de proliferação celular Ki-67 nas células epiteliais de revestimento das vilosidades e criptas intestinais. O tratamento também diminuiu significantemente a atividade de MPO e formação de MDA (p<0,05). Conclusão: Os dados confirmam o potencial terapêutico da FMCL no tratamento da mucosite intestinal em camundongos. Estudos adicionais são necessários para que esta formulação possa se tornar uma alternativa segura para uso em seres humanos.
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Fabrication and characterization of 5-Fu loaded poly(lactide-Co-Glycolide) millirods: assessment of their suitability for local tumor treatmentLeelakanok, Nattawut 01 August 2017 (has links)
The synthetic chemotherapeutic agent, 5-FU, has been used for the treatment of a variety cancers, with colorectal cancer being among the most susceptible. Administration of 5-FU by continuous intravenous infusion has proven to yield greater antitumor efficacy and lower hematotoxicity compared to administration of 5-FU by intravenous bolus injections. Nevertheless, systemic application of 5-FU is often limited by its narrow therapeutic threshold, and therefore in certain situations, such as tumor resection, it may be more appropriate to provide local rather than systemic delivery of 5-FU. It was therefore proposed that 5-FU loaded PLGA millirods may be capable of providing sustained release of 5-FU at a local level which may have equivalent or greater antitumor activity and less cytotoxicity than the systemic or local delivery of soluble 5-FU.
PLGA millirods loaded with 5-FU were successfully fabricated by a hot-melt extrusion technique and characterized for in vitro and in vivo release rates. It was demonstrated that percentage loading by weight of 5-FU could be adjusted to modify its release kinetics. It was also shown that millirods could be stably stored under a variety of conditions for at least 2 months.
An optimal millirod formulation (PLGA 50:50 loaded with 5-FU (50% w/w)) was tested for antitumor activity and general toxicity in vivo. At the dose of 120 mg/kg 5-FU, millirods (delivered peritumorally) were efficacious (with 100% survival rates) against solid thymomas in tumor-challenged mice (causing complete regression). Whilst the soluble form of 5-FU (delivered intraperitoneally (IP) at 120 mg/kg) was also highly efficacious (90% survival rates) against thymomas it was also more hematotoxic. In addition, the millirod form provided significantly greater antitumor activity against colorectal tumors in mice compared to the soluble form of 5-FU. In terms of in vivo toxicity, surprisingly, the type of formulation did not have a significant effect on mouse weight despite both IP and subcutaneous (SC) delivery causing death of some mice. Importantly, it was found that 5-FU loaded PLGA millirods were significantly less hematotoxic than soluble 5-FU delivered by either IP or SC injection at the equivalent dose. Thus, locally implanted 5-FU loaded PLGA millirods appeared to be less toxic and possessed overall greater antitumor potency than soluble 5-FU delivered by IP or SC injection.
This study further investigated whether the combination of 5-FU loaded PLGA millirods with eniluracil (in both thymoma and colorectal tumor models) or immune checkpoint inhibitors (in the colorectal tumor model) could enhance the antitumor efficacy of 5-FU millirods in mice challenged with colorectal tumors. It was found that the combination of 5-FU loaded PLGA millirods and eniluracil (millirod or solution forms) did not significantly enhance the antitumor efficacy of 5-FU millirods in either tumor models. It was also found that immune checkpoint inhibitors did not enhance the antitumor efficacy of 5-FU loaded PLGA millirods in the colorectal tumor model.
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Intraperitoneal 5-Fluorouracil treatment of cancer - clinical and experimental studiesÖman, Mikael January 2004 (has links)
<p>Background:Pancreas cancer is a most aggressive malignancy. More than 80% of patients diagnosed with pancreas cancer, exhibit such advanced disease, that curative surgery is impossible. Systemic chemotherapy prolongs survival to 5-9 months. High concentrations of chemotherapeutic agents in the abdominal cavity and in the lymphatics draining the area is achieved by intraperitoneal administration. Vasopressin decreases splanchnic blood flow, reducing the intraperitoneal uptake of drugs, thus raising the local and lymphatic dose intensity.</p><p>Aim: The aim of the study was to investigate the feasibility and tumour response of intraperitoneal 5-Fluorouracil (5-FU) treatment in non-resectable pancreas cancer, using vasopressin to improve the pharmacokinetic profile. Further, to study the effect of vasopressin on peritoneal blood flow, altered by intraperitoneal 5-FU or the presence of peritoneal carcinomatosis.</p><p>Methods: In the animal experiments, the 133Xe-clearance technique and as a comparison Laser doppler flow, were used to identify changes of peritoneal blood flow caused by vasopressin in unmanipulated animals and in animals with peritoneal carcinomatosis or animals given intraperitoneal 5-FU. In the clinical studies, 68 (39 women/29 men) patients, with a non-resectable ductal pancreas cancer and a Karnovsky Index ≥70 were included. Patients were treated with 750-1500 mg/m2 5-FU intraperitoneally through a Port-a-cath and Leucovorin 100 mg/m2 intravenously on two consecutive days every 21 days until progression. Seventeen patients, receiving 750 mg/m2 5-FU, were given concomitant vasopressin 0.1 IU/min during 180 minutes, alternatively day 1 or 2.</p><p>Results: In the animal experiments, vasopressin 0.07 IU/kg/min significantly reduced the 133Xe-clearance. Intraperitoneal 5-FU decreased the basal peritoneal blood flow and abrogated the vasopressin effect for 1-2 days. The presence of peritoneal carcinomatosis did not influence the basal peritoneal blood flow, nor the reduction of peritoneal blood flow caused by vasopressin. In the clinical studies, the treatment with intraperitoneal 5-FU was well tolerated, with no WHO Grade 3 or 4 toxicity with doses up to 1250 mg/m2. Thirty patients achieved at least stable disease at three months. The median survival time was 8.0 (range 0.8-54.1) months. There was a significant reduction of 5-FU Cmax on day 2, but no significant reduction of AUC, when vasopressin was given.</p><p>Conclusion: Peritoneal blood flow changes caused by vasopressin can be estimated with the 133Xe-clearance technique. Intraperitoneal 5-FU but not peritoneal carcinomatosis decreases the vasopressin induced 133Xe-clearance reduction, 1-2 days after administration. In patients with non-resectable pancreas cancer, intraperitoneal 5-FU up to 1250 mg/m2 for two days every third week can be given without WHO grade 3 and 4 toxicity. The treatment is well tolerated with few and minor side effects. Tumour responses were observed. Addition of vasopressin does not significantly enhance the pharmacokinetics of intraperitoneal 5-Flurorouracil, but adds toxicity.</p>
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Transdermal delivery of 5-Fluorouracil with PheroidTM technology / C.P. van DykVan Dyk, Christina Petronella January 2008 (has links)
Thesis (M.Sc. (Pharmaceutics))--North-West University, Potchefstroom Campus, 2008.
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Intraperitoneal 5-Fluorouracil treatment of cancer - clinical and experimental studiesÖman, Mikael January 2004 (has links)
Background:Pancreas cancer is a most aggressive malignancy. More than 80% of patients diagnosed with pancreas cancer, exhibit such advanced disease, that curative surgery is impossible. Systemic chemotherapy prolongs survival to 5-9 months. High concentrations of chemotherapeutic agents in the abdominal cavity and in the lymphatics draining the area is achieved by intraperitoneal administration. Vasopressin decreases splanchnic blood flow, reducing the intraperitoneal uptake of drugs, thus raising the local and lymphatic dose intensity. Aim: The aim of the study was to investigate the feasibility and tumour response of intraperitoneal 5-Fluorouracil (5-FU) treatment in non-resectable pancreas cancer, using vasopressin to improve the pharmacokinetic profile. Further, to study the effect of vasopressin on peritoneal blood flow, altered by intraperitoneal 5-FU or the presence of peritoneal carcinomatosis. Methods: In the animal experiments, the 133Xe-clearance technique and as a comparison Laser doppler flow, were used to identify changes of peritoneal blood flow caused by vasopressin in unmanipulated animals and in animals with peritoneal carcinomatosis or animals given intraperitoneal 5-FU. In the clinical studies, 68 (39 women/29 men) patients, with a non-resectable ductal pancreas cancer and a Karnovsky Index ≥70 were included. Patients were treated with 750-1500 mg/m2 5-FU intraperitoneally through a Port-a-cath and Leucovorin 100 mg/m2 intravenously on two consecutive days every 21 days until progression. Seventeen patients, receiving 750 mg/m2 5-FU, were given concomitant vasopressin 0.1 IU/min during 180 minutes, alternatively day 1 or 2. Results: In the animal experiments, vasopressin 0.07 IU/kg/min significantly reduced the 133Xe-clearance. Intraperitoneal 5-FU decreased the basal peritoneal blood flow and abrogated the vasopressin effect for 1-2 days. The presence of peritoneal carcinomatosis did not influence the basal peritoneal blood flow, nor the reduction of peritoneal blood flow caused by vasopressin. In the clinical studies, the treatment with intraperitoneal 5-FU was well tolerated, with no WHO Grade 3 or 4 toxicity with doses up to 1250 mg/m2. Thirty patients achieved at least stable disease at three months. The median survival time was 8.0 (range 0.8-54.1) months. There was a significant reduction of 5-FU Cmax on day 2, but no significant reduction of AUC, when vasopressin was given. Conclusion: Peritoneal blood flow changes caused by vasopressin can be estimated with the 133Xe-clearance technique. Intraperitoneal 5-FU but not peritoneal carcinomatosis decreases the vasopressin induced 133Xe-clearance reduction, 1-2 days after administration. In patients with non-resectable pancreas cancer, intraperitoneal 5-FU up to 1250 mg/m2 for two days every third week can be given without WHO grade 3 and 4 toxicity. The treatment is well tolerated with few and minor side effects. Tumour responses were observed. Addition of vasopressin does not significantly enhance the pharmacokinetics of intraperitoneal 5-Flurorouracil, but adds toxicity.
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Elevated Fatty Acid Content in Muscle is Prevented by EPA and DHA in an Animal Model of Colorectal Cancer Receiving CPT-11 / 5-FUAlmasud, Alaa A Unknown Date
No description available.
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Transdermal delivery of 5-Fluorouracil with PheroidTM technology / C.P. van DykVan Dyk, Christina Petronella January 2008 (has links)
5-Fluorouracil (5FU) is a pyrimidine analogue, indicated for the therapy of proliferative skin diseases such as actinic keratosis (AK), superficial basal cell carcinoma and psoriasis. It has also been used for the treatment of solid tumours like colorectal, breast and liver carcinomas for nearly 40 years.
Although 5FU has always been administered parenterally and orally, metabolism is rapid and absorption is erratic. Several severe side-effects are also commonly associated with 5FU therapy, including myelosuppression, hand-foot syndrome and gastrointestinal effects. Seeing that 5FU is an important part of the treatment of several malignant and pre-malignant disorders, it would be advantageous to find a delivery route and delivery system that negate absorption and metabolic variation and decrease side-effects.
The transdermal route provides a promising alternative to the above-mentioned conventional delivery routes, solving most of the problems associated with parenteral and oral administration. That being said, the formidable barrier situated in the skin is not easily breached. The stratum corneum, the outermost skin layer, is mostly lipophilic in nature, preventing hydrophilic molecules such as 5FU from entering.
5FU-containing creams and lotions are currently commercially available, but absorption is still very limited. The transdermal absorption from these formulations has been compared to that obtained with the use of new transdermal delivery vehicles, with the newer formulations proving to be promising.
It was decided to entrap 5FU in a novel therapeutic system, in the form of the Pheroid™ system, to increase its transdermal penetration.
Pheroid™ vesicles are stable spherical structures in a unique, emulsion-like formulation, and fall in the submicron range. The main components of the Pheroid™ system are the ethyl esters of the essential fatty acids linoleic acid and linolenic acid, as well as the cys-form of oleic acid, and water. The formulation is saturated with nitrous oxide (N20).
Although Pheroid™ vesicles may resemble other lipid-based vehicles, such as liposomes and micro-emulsions, they are unique in the sense that they have inherent therapeutic qualities as well. The Pheroid™ formulation can be specifically manipulated to yield different types of vesicles, ensuring a fast transport rate, high entrapment efficiency, rapid delivery and stability of the delivery system for a specific drug.
In this study, 5FU was entrapped in the Pheroid™ formulation. Transdermal permeation studies were then performed to evaluate the influence of this delivery system on the transdermal flux of 5FU.
Vertical Franz diffusion cells were utilised to determine the transdermal penetration of 5FU. Only Caucasian female abdominal skin was used to minimise physiological variables. Diffusion studies were done over 12 hour periods, with the entire receptor phase being withdrawn at predetermined intervals. Samples were analysed using high performance liquid chromatography (HPLC), after which the cumulative concentration of active was plotted against time. The linear portion of this graph represents the flux of 5FU through the skin.
It was found that there were differences in the results between formulations containing 5FU in a phosphate buffer solution (PBS)-based Pheroid™ and water-based Pheroid™, though the difference was not statistically significant. The 0.5 % 5FU in water-based Pheroid™ resulted in a significantly bigger yield than the control (1 % 5FU in water) as well as a significant difference to the 1 % 5FU in PBS-based Pheroid™ formulation. In general the water-based Pheroid™ formulations had greater average cumulative concentrations, yields and fluxes than the other formulations.
The fluxes obtained with the water-based Pheroid™ formulations also correlated well with a previous study done by Kilian (2004).
Thus it can be concluded that the Pheroid™ therapeutic delivery system enhances the transdermal penetration of 5FU. Water-based Pheroid™ formulations proved to be more effective than PBS-based Pheroid™ formulations. It can also be concluded that a 0.5 % 5FU in water-based Pheroid™ formulation can be used instead of a 1 % formulation, because there were no statistically significant differences between the two formulations. This would be advantageous - patient compliance can be enhanced because of a more tolerable formulation with fewer side effects, while manufacturing cost is lowered by using a lower concentration of active.
It is recommended that some aspects of the study be investigated further to optimise the transdermal delivery of 5FU using the Pheroid™ therapeutic system. These aspects
include optimising the composition of the Pheroid formulation, investigating the entrapment process of 5FU within Pheroid™ spheres, the influence of PBS and water as basis of the Pheroid™ formulation and the amount of 5FU remaining in the epidermis after the 12 hour period of the diffusion study.
Keywords: 5-Fluorouracil, Franz diffusion cell, Heat separated epidermis, Skin penetration, Transdermal, Drug delivery system, Pheroid™ / Thesis (M.Sc. (Pharmaceutics))--North-West University, Potchefstroom Campus, 2008.
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Formulation of 5–Fluorouracil for transdermal delivery / Vermaas M.Vermaas, Monique January 2010 (has links)
Non–melanoma skin cancer (NMSC) is the most common human malignancy and it is estimated
that over 1.3 million cases are diagnosed each year in the United States (Neville et al.,
2007:462). There are three main types of NMSC, which include basal–cell carcinoma (BCC),
squamous–cell carcinoma (SCC) and cutaneous malignant melanoma (CMM). Exposure to
ultra–violet (UV) radiation plays a major role in the aetiology of these three skin cancer types
(Franceschi et al., 1996:24).
5–Fluorouracil is an antineoplastic pyrimidine analogue that functions as an anti–metabolite. It
interferes with DNA (deoxyribonucleic acid), and to a lesser extent, with RNA (ribonucleic acid)
synthesis by blocking the methylation of deoxyuridylic acid into thymidylic acid. It is used in
topical preparations for the treatment of actinic keratosis (AK) and NMSC. The cure rate with
topical 5–fluorouracil is partly reflected by the degree of erythema, erosions, and eventual
crusting which develop at the sites of treatment. This reaction often attains the best clinical
response, but in turn, frustrates patients, which may lead to patient incompliance (McGillis &
Fein, 2004:175). Due to the hydrophilic nature of 5–fluorouracil, the transdermal permeation
through the lipophilic stratum corneum is very low and trivial (Singh et al., 2005:99).
Transdermal drug delivery is the delivery of a chemical substance across the skin to reach the
systemic circulation (Prausnitz et al., 2004:115). This unique drug transport mechanism
suggests many advantages that include safety, patient compliance, user–friendliness, efficiency
and non–invasiveness (Fang et al., 2004:241). The stratum corneum is a specialised structure
that forms part of several anatomically distinct layers of the skin. Seeing that it is the outermost
layer, it provides protection to the skin. It is known as the main barrier to percutaneous
absorption of compounds, as well as water loss, through the skin (Bouwstra et al., 2003:4).
This study focussed on the formulation of six different types of semisolid formulations,
containing 0.5% 5–fluorouracil. The formulations included: a cream, Pheroid cream, emulgel,
Pheroid emulgel, lotion and Pheroid lotion. Pheroid refers to a delivery system which
was incorporated in the formulations in an attempt to enhance the penetration of 5–fluorouracil
into the skin. This drug delivery system consists of unique and stable lipid–based submicronand
micron–sized structures, formulated in an emulsion. The dispersed Pheroid structures
largely comprise of natural essential fatty acids, which have an affinity for the cell membranes of
the human body (Grobler et al., 2008:284–285).
These formulations were manufactured in large quantities and stored at three different temperatures, each with their respective relative humidity (RH): 25 °C/60% RH, 30 °C/60% RH
and 40 °C/70% RH, for a period of six months. Stability tests were conducted on each of these
formulations on the day of manufacture (month 0), and then after 1, 2, 3 and 6 months. The
tests included: determination of concentration of the analytes (assay) by means of high
performance liquid chromatography (HPLC); determination of zeta–potential and droplet size; pH
measurement; viscosity; mass loss determination; physical appearance; and particle size
distribution.
Franz cell skin diffusion tests were performed with these six 5–fluorouracil containing semisolid
formulations (0.5%), as well as with a 0.5% Pheroid solution, 0.5% non–Pheroid solution. A
5.0% Pheroid solution and a 5.0% non–Pheroid solution were also prepared in order to
compare the skin diffusion test results to a 5.0% commercially available ointment. The data of
the 0.5% formulations and solutions, as well as the 5.0% solutions and commercial ointment,
were statistically compared and those formulations (and solutions) that yielded the best results,
with regard to % diffused, epidermis and dermis concentrations, were identified. / Thesis (M.Sc. (Pharmaceutics))--North-West University, Potchefstroom Campus, 2011.
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Formulation of 5–Fluorouracil for transdermal delivery / Vermaas M.Vermaas, Monique January 2010 (has links)
Non–melanoma skin cancer (NMSC) is the most common human malignancy and it is estimated
that over 1.3 million cases are diagnosed each year in the United States (Neville et al.,
2007:462). There are three main types of NMSC, which include basal–cell carcinoma (BCC),
squamous–cell carcinoma (SCC) and cutaneous malignant melanoma (CMM). Exposure to
ultra–violet (UV) radiation plays a major role in the aetiology of these three skin cancer types
(Franceschi et al., 1996:24).
5–Fluorouracil is an antineoplastic pyrimidine analogue that functions as an anti–metabolite. It
interferes with DNA (deoxyribonucleic acid), and to a lesser extent, with RNA (ribonucleic acid)
synthesis by blocking the methylation of deoxyuridylic acid into thymidylic acid. It is used in
topical preparations for the treatment of actinic keratosis (AK) and NMSC. The cure rate with
topical 5–fluorouracil is partly reflected by the degree of erythema, erosions, and eventual
crusting which develop at the sites of treatment. This reaction often attains the best clinical
response, but in turn, frustrates patients, which may lead to patient incompliance (McGillis &
Fein, 2004:175). Due to the hydrophilic nature of 5–fluorouracil, the transdermal permeation
through the lipophilic stratum corneum is very low and trivial (Singh et al., 2005:99).
Transdermal drug delivery is the delivery of a chemical substance across the skin to reach the
systemic circulation (Prausnitz et al., 2004:115). This unique drug transport mechanism
suggests many advantages that include safety, patient compliance, user–friendliness, efficiency
and non–invasiveness (Fang et al., 2004:241). The stratum corneum is a specialised structure
that forms part of several anatomically distinct layers of the skin. Seeing that it is the outermost
layer, it provides protection to the skin. It is known as the main barrier to percutaneous
absorption of compounds, as well as water loss, through the skin (Bouwstra et al., 2003:4).
This study focussed on the formulation of six different types of semisolid formulations,
containing 0.5% 5–fluorouracil. The formulations included: a cream, Pheroid cream, emulgel,
Pheroid emulgel, lotion and Pheroid lotion. Pheroid refers to a delivery system which
was incorporated in the formulations in an attempt to enhance the penetration of 5–fluorouracil
into the skin. This drug delivery system consists of unique and stable lipid–based submicronand
micron–sized structures, formulated in an emulsion. The dispersed Pheroid structures
largely comprise of natural essential fatty acids, which have an affinity for the cell membranes of
the human body (Grobler et al., 2008:284–285).
These formulations were manufactured in large quantities and stored at three different temperatures, each with their respective relative humidity (RH): 25 °C/60% RH, 30 °C/60% RH
and 40 °C/70% RH, for a period of six months. Stability tests were conducted on each of these
formulations on the day of manufacture (month 0), and then after 1, 2, 3 and 6 months. The
tests included: determination of concentration of the analytes (assay) by means of high
performance liquid chromatography (HPLC); determination of zeta–potential and droplet size; pH
measurement; viscosity; mass loss determination; physical appearance; and particle size
distribution.
Franz cell skin diffusion tests were performed with these six 5–fluorouracil containing semisolid
formulations (0.5%), as well as with a 0.5% Pheroid solution, 0.5% non–Pheroid solution. A
5.0% Pheroid solution and a 5.0% non–Pheroid solution were also prepared in order to
compare the skin diffusion test results to a 5.0% commercially available ointment. The data of
the 0.5% formulations and solutions, as well as the 5.0% solutions and commercial ointment,
were statistically compared and those formulations (and solutions) that yielded the best results,
with regard to % diffused, epidermis and dermis concentrations, were identified. / Thesis (M.Sc. (Pharmaceutics))--North-West University, Potchefstroom Campus, 2011.
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