"Desenvolvimento de uma matriz polimérica para incorporação e liberação controlada de papaína" / "Development of a polymeric matrix for incorporation and controlled release of papain"

Gislaine Zulli

29 January 2007

A papaína é uma enzima proteolítica extraída do látex das folhas e frutos do mamão verde adulto. Tem sido amplamente utilizada como agente debridante de escaras e cicatrizante de feridas. No entanto, apresenta baixa estabilidade, o que limita seu uso a formulações de manipulação extemporânea ou de curto prazo de validade. O objetivo deste trabalho foi incorporar a papaína em uma matriz polimérica de modo a obter um sistema de liberação controlada do fármaco. Polímeros de aplicação médica foram selecionados e inicialmente avaliados quanto à sua citotoxicidade. Os polímeros não-citotóxicos foram submetidos ao ensaio de irritação cutânea primária in vivo em animais, para avaliar sua capacidade de causar irritação na pele humana. Diversas membranas foram preparadas com os polímeros considerados adequados para aplicação biomédica para incorporação da papaína. As membranas preparadas com 2% de papaína foram selecionadas para serem submetidas ao ensaio de liberação com células de difusão de Franz. Parte dessas membranas foi irradiada com raios γ na dose de 25 kGy para esterilização do material. As membranas irradiadas e não-irradiadas foram testadas simultaneamente a fim de verificar se a radiação γ interferiria no perfil de liberação do fármaco. Os resultados do ensaio de liberação indicaram que o fármaco é liberado de maneira constante durante as 12 horas iniciais do experimento. A análise, por Microscopia Eletrônica de Varredura, das membranas irradiadas revelou que as membranas formadas são bastante densas e que seus poros são pequenos. / Papain is a proteolytic enzyme extracted from the latex of green papaya leaves and fruits. It has been widely used as debridant for scars and wound healing agent. However, papain presents low stability, which limits its use to extemporaneous or short shelf life formulations. The purpose of this study was to entrap papain into a polymeric matrix in order to obtain a drug delivery system. Polymers of medical application were selected and firstly assessed for cytotoxicity. Non-cytotoxic polymers were evaluated for primary cutaneous irritation test in vivo in animals, in order to verify if they are able to cause irritation to human skin. Many membranes were prepared with the polymers considered suitable for biomedical application for papain entrapment. Membranes containing 2% papain were selected to be evaluated in the releasing test using Fanz diffusion cells. Some of these membranes were irradiated by γ rays with 25 kGy dose for material sterilization. Irradiated and non-irradiated membranes were simultaneously assessed in order to verify if γ radiation interferes on drug releasing profile. Results obtained from releasing test indicated the drug is released in a constant manner over 12 hours in the beginning of the experiment. Scanning Eletronic Microscopy analysis of the irradiated membranes revealed that membranes are very dense and its pores are small.

liberação controlada

matriz polimérica

papaína

controlled release

papain

polymeric matrix

Effect of pH on polyelectrolyte multilayer formation and growth factor release

SALVI, Claire

22 April 2015

Because of its high specific strength, durability, and biocompatibility, titanium is a widely used material for orthopedic implants. However, its insufficient binding with the surrounding bone tissue regularly leads to stress shielding, bone resorption and implant loosening. A promising solution to improve adhesion is to modify the implant surface chemistry and topography by coating it with a protein-eluting polyelectrolyte complex. Bone morphogenetic protein 2 (BMP-2), a potent osteoconductive growth factor, was adsorbed onto the surface of anodized titanium, and polyelectrolyte multilayer (PEM) coatings prepared from solutions of poly-L-histidine (PLH) and poly(methacrylic acid) (PMAA) were built on top of the BMP-2. The effect of solution pH during the deposition process was investigated. High levels of BMP-2 released over several months were achieved. Approximately 2 μg/cm² of BMP-2 were initially adsorbed on the anodized titanium and a pH-dependent release behavior was observed, with more stable coatings assembled at pH = 6-7. Three different diffusion regimes could be determined from the release profiles: an initial burst release, a sustained release regime and a depletion regime. Mass adsorption monitoring using quartz crystal microbalance with dissipation monitoring (QCM-D) showed that PLH was adsorbed in greater quantities than PMAA, and that more mass was adsorbed per bilayer as the number of bilayers grew. Moreover, the pH of the water used during the rinsing step significantly impacted the composition of the multilayer. Atomic force microscopy (AFM) and contact angle analysis (CAA) were used to determine the topography and surface energy of the PEMs. No visible change was observed in surface morphology as the assembly pH was varied, whereas the surface energy decreased for samples prepared at more basic pH. These variations indicate that the influence of the initial BMP-2 layer can be felt throughout the PEM and impact its surface structure.

titanium implants

bone morphogenetic protein 2

pH

polyelectrolytes

controlled release

In vitro and in vivo testing of a gastric retention device : development and evaluation of a new colonic delivery system

Ahmed, Iman Saad

04 September 2002

This thesis describes evaluation of a gastric retention device (GRD) developed at Oregon State University. The device was originally fabricated from Xanthan gum and Locust bean gum. A modified gastric retention device containing other additives was developed and investigated in this work. The modified device was evaluated in vitro for swelling and dissolution properties using riboflavin as a model drug. Different shapes and sizes of GRDs were tested in dogs to study the gastric retention potential of these devices. The effect of the device on food emptying from the stomach in dogs was also investigated. Endoscopic studies in dogs also showed that the device swells rapidly and considerably in gastric fluid. The bioavailability of riboflavin from three different size GRDs was determined in six fasted human volunteers and compared to an immediate release formulation. The biostudy indicated that the bioavailability of riboflavin from a large size GRD was more than triple that measured after administration of the immediate release formulation. Deconvolution was used to determine gastric residence time of the different size GRDs. A new colonic delivery system made of acetaminophen loaded beads produced by extrusion and spheronization and coated with different ratios of pectin and ethylcellulose coating solutions in a spray coating apparatus was also developed in this work. Such beads release their drug content in the colon due to susceptibility of pectin in the outer coat to enzymatic action of colonic bacteria. The new delivery system was evaluated in vitro by conducting release studies in different dissolution media to mimic transit times, pH and enzyme conditions in the gastrointestinal tract. The gastrointestinal transit behavior of drug beads was also assessed by conducting gamma-scintigraphic studies in dogs. The bioavailability and pharmacokinetic parameters of acetaminophen from several colonic delivery system formulations were determined in human volunteers and compared to the immediate release commercial product Tylenol®. A selected pectin-ethylcellulose coat formulation in the ratio 1:3 was further evaluated in six volunteers under both fed and fasting conditions and was found to be effective and to provide sustained drug release in the colon over a period of 12 hours. / Graduation date: 2003

Oral medication

Drugs -- Controlled release

Drug delivery systems

Development and testing of a sustained release acetaminophen tablet for the treatment of chronic pain in osteoarthritis patients

Keller, Carol Ann

04 May 2000

Acetaminophen has been safely used for analgesia for many years. Literature suggests that a plasma acetaminophen level of 5��g/ml is necessary to maintain analgesic relief in humans. Current dosing regiments are inconvenient (every 4-6 hours) and do not maintain this minimum plasma level. Simulations were conducted to examine various doses and input rates for sustained release formulations of acetaminophen. Once parameters were selected from the simulations, sample formulations were prepared and tested using standard dissolution techniques. Investigations into dose/size relationships, hydroxypropylmethylcellulose (HPMC) percentage for erosion matrix tablets, compression force, tablet shape, tablet divisibility, and granulation methods were performed for non-disintegrating hydrophilic matrix tablets. Tablets containing 5% and 7.5% HPMC were selected for pharmacokinetic study in 10 healthy human subjects. Tylenol Extra Strength and Tylenol Extended Relief tablets were administered as control formulations. Pharmacokinetic fitting of the kinetic profiles of all four formulations were performed using Win Nonlin. The formulations were best described by a 1-compartment open model with first order input and first order elimination. The 5% HPMC sustained release acetaminophen formulation was selected for Phase II clinical trials. Patients with osteoarthritis of the knee were recruited for a double blind crossover study of 5% HPMC sustained release acetaminophen formulations and immediate release acetaminophen. Patients received two tablets of study medication, four times a day for 4 weeks. After a seven day wash-out period patients were then crossed over to the other treatment. Patients were evaluated using a twelve question questionnaire and the time to walk 50 feet was measured. Thirty patients were enrolled in the study and seventeen patients completed the study. The sustained release formulations were statistically superior to the baseline treatments in reducing pain level, decreasing disability, and improving the duration of pain relief. Additional, larger scale studies are needed to confirm these findings. / Graduation date: 2000

Osteoarthritis -- Treatment

Acetaminophen -- Therapeutic use

Acetaminophen -- Controlled release

1) Development and in vivo testing of a gastric retention device (GRD) in dogs : 2) product formulations and in vitro-in vivo evaluation of a) immediate release formulation of itraconazole, b) controlled-release formulation of ketoprofen in adults

Kapsi, Shivakumar G.

24 November 1998

This thesis describes 1) development of a gastric retention device (GRD) to increase gastric retention time of certain drugs, 2) product formulations of an immediate release itraconazole and controlled-release ketoprofen. GRD was fabricated from crosslinked carbohydrate polymers. Rate and extent of hydration of the film in water and in simulated gastric fluid, compressibility of film, shape of the film, and in vivo gastric transit time in the stomach of dog were used as tools to evaluate gastric retention properties. Hydration studies were carried out at 37��C. Evaluation of the device containing radio-opaque agents, in dogs for gastric retention was carried out with the help of X-rays. The device was found to stay in the stomach of dogs for at least 10 hours. GRD containing amoxicillin trihydrate caplets were evaluated in a human. The area under the excretion rate curve was found to increase by 30% when compared to without the device. A successful development of a formulation of water insoluble itraconazole, without the use of organic solvents, was achieved with modifications from eutectic mixture techniques. Solubilization of the drug was achieved in polyethylene glycol of higher molecular weight. A series of formulations made by varying the amounts ingredients therein, were evaluated for dissolution profile in comparison with the reference, Sporanox��. Effect of molecular weights of PEG and types of PEG were evaluated for desired drug dissolution. Preliminary study from 6 subjects under the conditions of fasting and fed indicated that bioavailability from the new formulation was increased slightly when compared to the reference. This may be correlated to difference in the rate of in vitro dissolution, where the new formulation has initial faster dissolution. A controlled-release formulation of ketoprofen was also developed using a diffusion-controlled polymer, which was coated onto the drug beads. Release of drugs from such beads is controlled by the thickness of the coat. Thickness of the coat was evaluated by SEM and was correlated to the desired in vitro drug release in comparison to the reference Oruvail��. A three-way cross over study involving the new formulation and two marketed products in 12 subjects under fasting conditions indicated that there was a significant difference between the new product and marketed products, so as to be considered non-bioequivalent. Use of In Vitro-In Vivo Correlations and Convolution- Deconvolution relations predicted desired in vitro drug dissolution in a subsequent modification of the formulation. / Graduation date: 1999

Drugs -- Controlled release

Drug delivery systems

Oral medication

Product formulations and in vitro-in vivo evaluation of a novel "Tablet-in-a-Bottle" suspension formulation of amoxicillin and clavulanic acid

Yang, Ning-Ning

11 June 1997

This thesis describes a novel "Tablet-in-a-Bottle" oral suspension formulation. Ingredients with unstable physical or chemical characteristics can be placed in a core tablet, and then dry compression coated with an outer layer which provides separation from other components. The new suspension formulation comprises fast disintegrating clavulanic acid (KCA) tablets with a powder mixture containing amoxicillin. Hardness, friability, flow properties and weight uniformity of tablets for three different formulations were investigated and were all improved in a third formulation. Stability tests under different humidities were conducted. Amoxicillin and clavulanic acid in the new formulations showed the same stabilities when compared with the marketed product Augmentin��. Preliminary pharmacokinetics and bioavailability of one new formulation were evaluated by comparing in vitro release rates and in vivo urinary excretion rates. In vitro dissolution studies were carried out according to the USP XXIII paddle method. The new formulation showed faster release rates during the first hour when stirring speed was 25 rpm. However, when 75 rpm stirring speed was applied, the dissolution profiles for the new formulation and the reference marketed product were identical. A randomized two-way crossover bioequivalence study was designed to evaluate the bioavailabilities. Cmax, Tmax and AUC[subscript o--->t] of amoxicillin were within ��20% of the reference pharmacokinetic values. However, Cmax and Tmax of clavulanate were not within ��20%. Bioeqivalence between this new suspension formulation and the marketed product (Augmentin��) were evaluated using a two one-sided t-test. There is not sufficient statistical support with this test to conclude that the two products are bioequivalent. However, this is most likely due to small sample size and high intersubject variation and statistical support for bioequivalence is expected in a larger study group. / Graduation date: 1998

Amoxicillin -- Controlled release

Amoxicillin -- Administration

Drugs -- Dosage forms

Synthesis, characterization and pharmaceutical application of selected copolymer nanoparticles / D.P. Otto

Otto, Daniël Petrus

January 2007

A multidisciplinary literature survey revealed that copolymeric nanoparticles could be applied in various technologies such as the production of paint, adhesives, packaging material and lately especially drug delivery systems. The specialized application and investigation of copolymers in drug delivery resulted in the synthesis of two series of copolymeric materials, i.e. poly(styrene-co-methyl methacrylate) (P(St-co-MMA)) and poly(styrene-co-ethyl methacrylate) (P(St-co-EMA)) were synthesized via the technique of o/w microemulsion copolymerization. These copolymers have not as yet been utilized to their full potential in the development of new drug delivery systems. However the corresponding hydrophobic homopolymer poly(styrene) (PS) and the hydrophilic homopolymer poly(methyl methacrylate) (PMMA) are known to be biocompatible. Blending of homopolymers could result in novel applications, however is virtually impossible due to their unfavorable mixing entropies. The immiscibility challenge was overcome by the synthesis of copolymers that combined the properties of the immiscible homopolymers. The synthesized particles were analyzed by gel permeation chromatography combined with multi-angle laser light scattering (GPC-MALLS) and attenuated total reflectance Fourier infrared spectroscopy (ATR-FTIR). These characterizations revealed crucial information to better understand the synthesis process and particle properties i.e. molecular weight, nanoparticle size and chemical composition of the materials. Additionally, GPC-MALLS revealed the copolymer chain conformation. These characterizations ultimately guided the selection of appropriate copolymer nanoparticles to develop a controlled-release drug delivery system. The selected copolymers were dissolved in a pharmaceutically acceptable solvent, tetrahydrofuran (THF) together with a drug, rifampin. Solvent casting of this dispersion resulted in the evaporation of the solvent and assembly of numerous microscale copolymer capsules. The rifampin molecules were captured in these microcapsules through a process of phase separation and coacervation. These microcapsules finally sintered to produce a multi-layer film with an unusual honeycomb structure, bridging yet another size scale hierarchy. Characterization of these delivery systems revealed that both series of copolymer materials produced films capable of controlling drug release and that could also potentially prevent biofilm adhesion. / Thesis (Ph.D. (Pharmaceutics))--North-West University, Potchefstroom Campus, 2008.

Microemulsion copolymerization

Nanoparticle

GPC-MALLS

Microcapsule film

Controlled release

Potential Applications of Silk Fibroin as a Biomaterial

Bailey, Kevin

07 June 2013

Fibroin is a biopolymer obtained from the cocoons of the Bombyx mori silkworm that offers many unique advantages. In this thesis work, fibroin was processed into a regenerated film and examined for potential biomaterial applications. The adsorption of bovine serum albumin onto the fibroin film was investigated to examine the biocompatibility of the film, and it was found that BSA adsorption capacity increased with an increase in BSA concentration. At 10 mg/mL of BSA, the BSA sorption reached 0.045 mg/cm2. This level of BSA is indicative of good blood compatibility and biocompatibility of the fibroin. The gas permeabilities of oxygen, nitrogen, and carbon dioxide were tested for potential applications in contact lenses and wound dressings. Over a pressure range of 70 – 350 psig, the permeability of oxygen and nitrogen was 5 Barrer, while that of carbon dioxide ranged from 26 to 37 Barrer. The oxygen transmissibility of the fibroin films prepared in this study was on the low end required for use in daily wear contact lenses, but sufficient to aid the healing process for use in wound dressings. The permeability and diffusivity of four model drugs in the fibroin film was investigated for potential applications in controlled drug release. The permeability at higher source concentrations leveled out to 0.8 – 4.3 x 10-7 cm2/s depending on the drug tested. The diffusion coefficient determined from sorption experiments was approximately 1.8 x 10-9 cm2/s, while the diffusion coefficients from desorption experiments were determined to be 0.8 – 2.7 x 10-9 cm2/s. The magnitude of the drug permeability and diffusivity are consistent with many other controlled release materials, and the fibroin film showed good potential for use in controlled release.

Silk

Fibroin

Biomaterial

permeability

biocompatibility

controlled release

Chemical Engineering

Drug Eluting Hydrogels : Design, Synthesis and Evaluation

Ahrenstedt, Lage

January 2012

Hydrogels have successfully proved themselves useful for drug delivery applications and several delivery routes have been developed over the years. The particular interest in this work was to design, synthesise and evaluate in situ forming drug eluting hydrogels, which have the potential to ameliorate the healing of cardiovascular diseases. With this aim the anti-inflammatory and immunosuppressant drugs rapamycin (Ra) and dexamethasone (Dex) were made water soluble by conjugation with polyethylene glycol (PEG). Ra was attached pendant from the terminal of PEGs while Dex was incorporated into dendritic structures grown from PEGs. These conjugates were further crosslinked into hydrogels by either conjugate or thiol-ene addition. The gel degradation was tuned to take between 5 and 27 days by using gel building block combinations that induced either 2 or 4 hydrolytically labile bonds per crosslink or by varying the number of crosslinking sites of the building blocks. The use of thiol-ene addition prolonged the degradation time nearly seven folded compared to conjugate addition as a more stable crosslink was formed. Two different formulations for gelling via conjugate addition were used (acrylate-thiol or vinyl sulphone-thiol) to deliver Ra, which was carried by either a 4- or 2-armed PEG. The elution kinetic for the respective gel formulation was of zero order during 15 and 19 days of gel degradation. In addition, Ra was PEGylated via esters, with a distance of either one or two carbons to a nearby thio-ether functionality. The difference in ester conjugation resulted in a slight but significant change in drug-PEG conjugate stability, which was mirrored by the increased time to reach the half amount of total drug elution; from 9.3 to 10.2 days and from 5.1 to 9.7 days for the two gel formulations, respectively. Dexamethasone was incorporated via an ester into dendrons of first and second generation pending from 2- and 4-armed PEGs at loadings of 2, 4 or 6 Dex molecules per carrier molecule. The resulting elution kinetic was of zero order during degradation periods of 5-27 days. Released Dex still possessed biological activity as determined by an in vitro cell assay. The novelties in this thesis are: (A) slow release of rapamycin obtained by covalent incorporation into hydrogels, (B) the use of unique PEG-based dendrimers to incorporate dexamethasone into a hydrogel and (C) zero order sustained release of dexamethasone at physiological pH. / Hydrogeler har framgångsrikt visat sig användbara för att leverera läkemedel och ett flertal metoder har utvecklats de senaste 20 åren. Fokuset i den här avhandlingen ligger på att designa, framställa och utvärdera läkemedelsutsöndrande hydrogeler som spontanhärdar in situ, vilka har potential att förbättra läkningen efter kardiovaskulär sjukdom. Med det syftet gjordes de anti-inflammatoriska och immunsänkande läkemedlen rapamycin (Ra) och dexametason (Dex) vattenlösliga genom att konjugeras med polyetylenglygol (PEG). Ra fästes kovalent längst ut på PEGar medans Dex inkluderades i dendritiska strukturer vilka byggdes från ändpunkten av PEGar. De här konjugaten tvärbands till hydrogeler via antingen konjugerad addition eller radikal polymerisation. Nedbrytningen av gelerna trimmades till att ta mellan 5 och 27 dagar genom att använda kombinationer av gelbyggstenar som bildar antingen 2 eller 4 hydrolyserbara estrar per tvärbindning eller genom att variera antalet tvärbindningspunkter hos byggstenarna. Användandet av radikal polymerisation i sig ledde till att nedbrytningen av geler tog nära sju gånger längre tid jämfört med geler gjorda via konjugerad addition eftersom stabilare tvärbindningar då formas. Två olika kombinationer för härdning via konjugerad addition (akryl-tiol eller vinylsulfon-tiol) användes för att leverera Ra som bars av antingen en 4- eller 2-armad PEG. Utsöndringskinetiken av Ra för de två kombinationerna var av nollte ordningen under de 15 och 19 dagar som gelerna degraderade. Dessutom, Ra PEGylerades via estrar med ett avstånd på antingen ett eller två kol till en närliggande tioeter. Skillnaden i avstånd ledde till en liten men signifikant skillnad i stabiliteten hos Ra-PEG konjugaten, vilket speglades i den förlängda tiden att nå halva mängden av den totala läkemedelsutsöndringen; från 9.3 till 10.2 dagar och från 5.1 till 9.7 dagar för de två respektive gelkombinationerna. Dex kopplades in via en esterbindning till dendroner av första och andra generationen byggda från PEGar med 2 eller 4 armar, vilket resulterade i att 2, 4 eller 6 Dex levererades per bärarmolekyl. Dex eluerade med nollte ordningens kinetik under degraderingsperioder på mellan 5 och 27 dagar. Vidbehålllen biologisk aktivitet av eluerad Dex bekräftades genom cellexperiment in vitro. Nyheterna i den här avhandlingen består av: (A) kontrollerad utsöndring av rapamycin uppnådd genom kovalent inbindning till hydrogeler, (B) användandet av unika PEGbaserade dendrimerer för kovalent inbindning av dexametason till hydrogeler och (C) nollte ordningens utsöndring av dexametason vid fysiologiskt pH. / <p>QC 20130204</p>

Drug delivery

PEGylation

Rapamycin

Dexamethasone

Controlled release

Hydrogels

Slow release

Microsphere Kinetics in Chronic Total Occlusions

Fraser, Ashley

31 December 2010

Chronic total occlusions are a common problem in patients with coronary artery disease. The primary barrier to successful percutaneous coronary intervention is inability to cross the lesion with a guidewire. We seek to characterize polymer microspheres as a controlled delivery mechanism for collagenase and VEGF, novel intralesional therapies being investigated to alter CTO structural properties. Release profiles for protein-loaded PLGA [poly(lactic-co-glycolic acid)] microspheres showed sustained BSA and VEGF release over eight and 48 hours respectively. Polymer degradation products had no impact on endothelial cell growth and protein bioactivity was maintained post-release. In vivo localization of microsphere-released collagenase was not possible due to low concentrations remaining at the site. Histology confirmed microspheres remained in the collagen-dense, proximal 15 mm of the lesion, likely altering the structural integrity of the plaque.

Chronic Total Occlusion

Polymer microsphere

Controlled Release

0541