Your search keyword '"Cespi, M."' showing total 109 results

101. Characterization of micellar systems by the use of acoustic spectroscopy.

Author

Bonacucina G, Misici-Falzi M, Cespi M, and Palmieri GF

Subjects

2-Hydroxypropyl-beta-cyclodextrin, Gels, Models, Chemical, Particle Size, Rheology, Temperature, Acoustics, Micelles, Poloxamer chemistry, Spectrum Analysis, Technology, Pharmaceutical methods, beta-Cyclodextrins chemistry

Abstract

Acoustic spectroscopy affords a new and unique way to characterize concentrated suspension and emulsion while avoiding the limitations imposed by dilution, an undesirable step, particularly with highly structured samples. This study sought to illustrate the potentialities of this technique by using it to characterize the self-assembling behaviour of Poloxamer 407 systems (3-25%, w/v), both alone or after the addition of various amounts of hydroxypropyl beta-cyclodextrin (5-20%, w/v). Particle size and the microrheological extensional moduli (G' and G'') of the systems were determined from acoustic parameters such as sound attenuation and speed. By monitoring the variation of the particle size and the rheological extensional moduli at increasing temperatures, it was possible to define and outline the Poloxamer 407 transitions and the effect of the HP beta-CD on them. Poloxamer 407 micelle formation due to progressive dehydration occurred within a temperature interval of 15 degrees C (including gelation) and was dependent on poloxamer concentration. Particularly, particle size of the aggregates changed within this interval. Mean diameters were 600 nm at the onset of micelle formation and decreased after the thermogel formation to more or less 75 nm. The presence of HP beta-CD changed the basic self-assembling mechanism of Poloxamer 407 by increasing micelle formation and particularly thermogelation temperatures. The results confirm that acoustic spectroscopy offers a powerful method for characterizing heterogeneous systems, thus indicating its potential for applications in the pharmaceutical field.

Published

2008

102. The effect of punch tilting in evaluating powder densification in a rotary tablet machine.

Author

Cespi M, Misici-Falzi M, Bonacucina G, Ronchi S, and Palmieri GF

Subjects

Powders chemistry, Tablets chemistry

Abstract

The effect of punch tilting on the mechanism of punch penetration in the die of a rotary tablet machine during the compression cycle was evaluated by installing four displacement transducers on one station of a rotary machine. Two transducers were symmetrically positioned beside the upper punch in the upper turret, and the other two transducers were similarly placed beside the lower punch in the lower turret. Microcrystalline cellulose and dicalcium phosphate dihydrate were compressed at 5, 10, 15 and 20 kN using two different machine speeds, in order to quantify the effect of punch tilting in the evaluation of punch penetration. These compression data served to construct the powder bed reduction curves, from which it was possible to establish that punch tilting is directly proportional to the compression force used. Tilting is maximal at the beginning of the dwell time, disappears at half dwell time, and reaches a new maximum at the end of the dwell time. In latter case, tilting occurred in the direction opposite that of the first maximum. The impact of tilting in powder densification behaviour, evaluated through the construction of Heckel plots, depends on the compression force used in the analysis. Heckel plots are as distorted as the compression force is elevated. Consequently, the calculated Heckel parameters differ from the real values. Unless a very low compression force is used, a proper Heckel analysis can be performed in a rotary machine only if it is fitted with a device that includes the effect of punch tilting in the evaluation of punch penetration., ((Copyright) 2008 Wiley-Liss, Inc.)

Published

2008

103. Rheological evaluation of silicon/carbopol hydrophilic gel systems as a vehicle for delivery of water insoluble drugs.

Author

Bonacucina G, Cespi M, Misici-Falzi M, and Palmieri GF

Subjects

Acrylic Resins, Drug Evaluation, Preclinical methods, Gels, Polyvinyls administration & dosage, Rheology, Silicon administration & dosage, Solubility, Water administration & dosage, Drug Delivery Systems methods, Polyvinyls chemistry, Silicon chemistry, Water chemistry

Abstract

The present study analyzed the thickening properties of Carbopol 974 and 971 in a 50:50 mixture of water/Silsense A-21, a new cationic silicon miscible in any proportion with water. Samples were prepared by simply dispersing different Carbopol amounts (0.5-4%) at room temperature or at 70 degrees C without neutralizing. Temperature sweep and time sweep analysis did not reveal significant structural changes at increasing temperature in the samples prepared following the first procedure. On the other hand systems obtained at 70 degrees C possessed higher elastic character particularly at polymer concentration higher than 2% (w/v). Analysis of the G' and G'' vs frequency curves by using different fitting equations (linear fitting, power law) gave information about the viscoelastic properties of the systems. The fitting of the frequency spectra and the calculation of the relaxation times from the master curves outlined the structural differences within the samples prepared with the two different procedures, confirming stronger gel-like behaviour for the samples prepared by the heating procedure. High preparation temperature promoted the polymer-solvent interactions, aiding the solvation of Carbopol. Heating facilitated polymer-solvent and polymer-polymer interaction, giving rise to a better organised structure typical of gel-like systems. Furthermore this preparation method provided good stability properties as shown by the stress sweeps tests performed during the three months of storage. The interpretation of the rheological results was supported by statistical analysis. A design methodology (screening and optimisation) was also applied in order evaluate the influence on dynamic rheological moduli of several parameters (polymer type and concentration, preparation method, temperature of the tests). This last method showed the relevance of the interaction of two main factors: polymer concentration and preparation procedure. Thus, statistical analysis confirmed that temperature increased the polymer-solvent interaction and improved the viscoelastic properties of the systems, particularly when Carbopols were present in considerable amounts.

Published

2008

104. Effect of hydroxypropyl beta-cyclodextrin on the self-assembling and thermogelation properties of Poloxamer 407.

Author

Bonacucina G, Spina M, Misici-Falzi M, Cespi M, Pucciarelli S, Angeletti M, and Palmieri GF

Subjects

2-Hydroxypropyl-beta-cyclodextrin, Calorimetry, Differential Scanning, Chemistry, Pharmaceutical, Gels chemistry, Micelles, Rheology, Temperature, Excipients chemistry, Poloxamer chemistry, beta-Cyclodextrins chemistry

Abstract

This paper deals with the rheological and thermal characterisation of the self-assembling behaviour of different Poloxamer 407 systems (15-30%, w/v), both alone or after the addition of various amounts of hydroxypropyl beta-cyclodextrin (5-20%, w/v). The knowledge of the interactions existing between the two kinds of molecules could allow the development of systems for parenteral administration containing also proteins or peptides drugs. A rheology (temperature sweep and frequency sweep test) study has been performed to characterise the thermogelation process while thermal analysis (nanoDSC) allowed the determination of both micellization and sol/gelation transition processes. These two techniques were also utilised to outline the variation in the critical micelle temperature (cmT) or in the sol/gel temperature (sgT,) of the systems containing also hydroxypropyl beta-cyclodextrin (HP beta-CD). Both the rheology and thermal analysis showed the presence of interesting interactions between the HP beta-CD and the Poloxamer 407, which cause a shift of both cmT and sgT. The presence of HP beta-CD modified also Poloxamer samples elastic characters and microrheological structure as demonstrated by the G'-G'' mechanical spectra. Rheological and thermal results outlined how these new systems could open the possibility to join the thermogelling behaviour offered by Poloxamer 407 with the well-known stabilization and protection ability of HP beta-CD, which could make possible the formulation of systems for the parenteral delivery of peptides and proteins.

Published

2007

105. Stress relaxation test for the characterization of the viscoelasticity of pellets.

Author

Cespi M, Bonacucina G, Misici-Falzi M, Golzi R, Boltri L, and Palmieri GF

Subjects

Cellulose chemistry, Crystallization, Lactose chemistry, Microscopy, Particle Size, Porosity, Rheology, Stress, Mechanical, Tablets chemistry, Time Factors, Chemistry, Pharmaceutical methods, Technology, Pharmaceutical methods, Viscosity

Abstract

The characterization of the mechanical properties of single uncoated pellets was performed in order to verify if these parameters could be used to predict the pellets aptitude to be compressed or utilized differently. Different ratios of microcrystalline cellulose and lactose monohydrate were used for the preparation of four batches of pellets by an extrusion/spheronization process. The 0.6-0.71 mm pellet fraction was used for the tests. Crushing strength and stress relaxation tests were carried out on the single pellets. The first test provided information of both the mechanical strength and the fragmentation aptitude. The second test provided information about their deformation ability (viscous flow) and residual elasticity (stress relaxation modulus). The results obtained from these tests were then compared with those obtained from the Heckel analysis. An excellent consistency was discovered between the parameters obtained from both the stress relaxation and crushing strength tests on one side and the Heckel parameters on the other side. Tests performed on single pellets are very useful tools to predict their deformation and fragmentation aptitude under compression and can be used for early insight of the pellet aptitude to be compressed.

Published

2007

106. Mechanical characterization of pharmaceutical solids: a comparison between rheological tests performed under static and dynamic porosity conditions.

Author

Bonacucina G, Cespi M, Misici-Falzi M, and Palmieri GF

Subjects

Algorithms, Drug Compounding, Elasticity, Excipients, Humidity, Porosity, Pressure, Starch, Stress, Mechanical, Tablets, Viscosity, Rheology methods

Abstract

The aim of this work was to verify how and to what extent rheological tests, carried out under dynamic (Heckel) and static (creep, stress/strain) porosity conditions, may serve as a valuable complement to the classic Heckel tests in the characterization of viscoelastic and densification properties of solid materials for pharmaceutical use. Six different modified (pregelatinized) starches were compressed in a rotary tablet machine equipped to measure force and punch displacement. Tablets were obtained using flat-faced 6mm diameter punches at different compression pressures. Compression cycles performed at the maximal pressure of 200MPa were used to build the Heckel plots. Ejected tablets at the 10%, 20%, 30%, and 40% porosity levels were used for the stress/strain and creep tests. Parameters obtained with both types of tests were consistent with each other. In particular, among the six starches, lower viscosity values corresponded to lower P(Y) values, and lower elastic modulus values corresponded to lower elastic recovery of the tablet. Mechanical properties of materials can be better characterized if viscoelastic tests performed under dynamic porosity conditions (Heckel analysis) are supported by classical viscoelastic tests carried out under conditions of static porosity.

Published

2007

107. Influence of ethanol on aspirin release from hypromellose matrices.

Author

Roberts M, Cespi M, Ford JL, Dyas AM, Downing J, Martini LG, and Crowley PJ

Subjects

Chemistry, Pharmaceutical, Delayed-Action Preparations, Diffusion, Hypromellose Derivatives, Kinetics, Linear Models, Methylcellulose chemistry, Models, Chemical, Solubility, Tablets, Temperature, Viscosity, Water chemistry, Anti-Inflammatory Agents, Non-Steroidal chemistry, Aspirin chemistry, Ethanol chemistry, Methylcellulose analogs & derivatives, Solvents chemistry

Abstract

Release profiles of aspirin from hypromellose matrices in hydro-ethanolic media were studied. Percent aspirin released increased with increasing levels of ethanol in the dissolution media, correlating with the drug's solubility, however, dose dumping of aspirin did not occur. An initial rapid release was observed in media comprising 40% ethanol. Release in these conditions was considered to be both erosion and diffusion-mediated, in contrast to the release in 0, 10, 20 and 30% ethanol media, where erosion-controlled release dominated. Image analysis of matrix swelling indicated a slower initial interaction between ethanol and hypromellose accounting for the initial rapid release. Cloud point studies suggested that ethanol retarded hydration of the polymer.

Published

2007

108. Rheological, adhesive and release characterisation of semisolid Carbopol/tetraglycol systems.

Author

Bonacucina G, Cespi M, Misici-Falzi M, and Palmieri GF

Subjects

Acetaminophen chemistry, Acrylates chemistry, Acrylates metabolism, Acrylic Resins, Adhesiveness, Animals, Cattle, Elasticity, Esophagus, Guinea Pigs, In Vitro Techniques, Mucous Membrane chemistry, Mucous Membrane metabolism, Polyethylene Glycols metabolism, Polyvinyls metabolism, Rheology, Skin Irritancy Tests, Solubility, Solvents, Temperature, Time Factors, Drug Carriers, Gels, Polyethylene Glycols chemistry, Polyvinyls chemistry

Abstract

Gels dosage forms are successfully used as drug delivery systems considering their ability to control drug release and to protect medicaments from an hostile environment. This study deals with the gelation properties of Carbopol 971 e 974 polymeric systems in tetraglycol, a water-miscible cosolvent. In this paper, the attention was noted of the thickening properties of the different Carbopol in tetraglycol solvent at increasing temperatures, in order to obtain gels avoiding neutralisation and, at the same time, to make possible the dissolution in these gels of insoluble or poorly soluble water drugs. Samples were prepared by simply dispersing different Carbopols amount (0.5-4%) were added to tetraglycol and different systems were prepared at room temperature and by heating at 70 degrees C. All these systems were then characterised rheologically. Frequency sweep, creep-recovery, temperature sweep and time sweep analyses outlined that Carbopol 971 and 974 in tetraglycol gave rise after heating to gels with satisfactory rheological behaviour: the elastic modulus was greater than the viscous one and a remarkable elastic character was found to be present. Systems obtained by heating procedure were examined also from a mechanical point of view using a texture profile analysis. Besides, being Carbopols well known mucoadhesive polymers, gels adhesive properties were also studied using the ex vivo method. Texture and adhesion characterisation confirmed rheological results pointing out a certain greater elasticity and adhesiveness of Carbopol 974 systems. Then, the possible cutaneous irritation was also tested using the in vivo method (Draize test). No signs of cutaneous irritation were obtained for all the samples that were analysed. After rheological and mucoadhesive properties were set, paracetamol as a model drug was inserted in the composition of the gels and the release characteristics were defined. Dissolution tests pointed out the greater release control properties of tetraglycol/Carbopol 971 samples. These studies showed tetraglycol/Carbopol systems as a first-rate alternative to traditional water gels when low water-soluble drugs have to be added.

Published

2006

109. Differences between eccentric and rotary tablet machines in the evaluation of powder densification behaviour.

Author

Palmieri GF, Joiris E, Bonacucina G, Cespi M, and Mercuri A

Subjects

Pressure, Powders chemistry, Tablets, Technology, Pharmaceutical

Abstract

Differences in the dynamics of powder densification between eccentric and rotary machine were pointed out by compressing at different compression pressures microcrystalline cellulose, lactose monohydrate and dicalcium phosphate dihydrate and recovering the corresponding stress/strain data in both machines equipped to monitor punches displacement and compression forces. Heckel plots were then obtained from these stress/strain data. Curves obtained in the rotary machine possess a narrower zone of linearity for the calculation of P(Y) and D(A). The effect of the different compression mechanism of the rotary machine on the shape of the Heckel plot is more noticeable in a non-deforming material such as dicalcium phosphate. The effect of the longer dwell time of the rotary machine on the porosity reduction occurring after the maximum pressure has been reached, is more noticeable in a ductile material such as microcrystalline cellulose. Heckel parameters obtained in the rotary press are in some cases different from those recovered in the eccentric machine because of the longer dwell time, machine deflection and punch tilting occurring in the rotary machine, although theoretically they could better describe the material densification in a high speed production rotary machine.

Published

2005