International journal of pharmaceutics, Jan 4, 2008
Methacrylic acid copolymers have been shown to enhance release of weakly basic drugs from rate co... more Methacrylic acid copolymers have been shown to enhance release of weakly basic drugs from rate controlling polymer matrices through the mechanism of microenvironmental pH modulation. Since these matrices are typically formed through a compaction process, an understanding of the deformation behavior of these polymers in there neat form and in combination with rate controlling polymers such as HPMC is critical to their successful formulation. Binary mixes of two methacrylic acid copolymers, Eudragit L100 and L100-55 in combination with HPMC K4M were subjected to compaction studies on a compaction simulator. The deformation behavior of the powder mixes was analyzed based on pressure-porosity relationships, strain rate sensitivity (SRS), residual die wall force data and work of compaction. Methacrylic acid copolymers, L100-55 and L-100 and the hydrophilic polymer, HPMC K4M exhibited Heckel plots representative of plastic deformation although L-100 exhibited significantly greater resista...
The purpose of this study is to test the hypothesis that in tablet formulations, moisture-sensiti... more The purpose of this study is to test the hypothesis that in tablet formulations, moisture-sensitive drugs formulated with lactose monohydrate have the same stability as formulations containing anhydrous lactose, and to characterize the kinetics of niacinamide degradation in the solid state. Aspirin and niacinamide decomposition were used as indicators of stability. Aspirin and niacinamide tablets containing either lactose monohydrate or anhydrous lactose were separately investigated at different temperatures and relative humidities; the stability tests were done at 25 degrees C--60% RH, 40 degrees C--80% RH, 60 degrees C--60% RH, 60 degrees C--80% RH, and 80 degrees C--80% RH. Official U.S. Pharmacopeia methods were used for the aspirin and niacinamide assays. Statistical analysis showed that tablets containing lactose monohydrate have the same stability as tablets containing anhydrous lactose, which means that even though water is present in the crystal structure, the bound water does not influence the reaction rate. In addition, niacinamide degradation in the solid-state can be described by a third order rate equation.
To determine whether prescription prenatal vitamins meet United States Pharmacopeial Convention (... more To determine whether prescription prenatal vitamins meet United States Pharmacopeial Convention (USP) standards for folic acid dissolution. Dissolution was measured using USP Apparatus II and test conditions specified in the 23rd revision of the United States Pharmacopeia (USP 23). Folic acid was assayed by a chromatographic method modified from that specified in the official monographs, for oil- and water-soluble vitamins with minerals tablets, in USP 23. Only three out of nine multivitamin products met USP specifications for folic acid release. Most missed by a wide margin; folic acid dissolution from two products was less than 25%. Because a wide variety of brand-name and generic prescription prenatal multivitamin products were tested, these results are likely to be representative of the multivitamin products on the market. Given the significance of folic acid to public health, the authors believe that this subject should be studied further and that prompt action should be taken to ensure that folic-acid-containing products are of the highest quality possible.
The objective of this study was to examine the effects of testing parameters and formulation vari... more The objective of this study was to examine the effects of testing parameters and formulation variables on the segregation tendency of pharmaceutical powders measured by the ASTM D 6940-04 segregation tester using design of experiments (DOE) approaches. The test blends consisted of 4% aspirin (ASP) and 96% microcrystalline cellulose (MCC) with and without magnesium stearate (MgS). The segregation tendency of a blend was determined by measuring the last/first (L/F) ratio, the ratio of aspirin concentrations between the first and last samples discharged from the tester. A 2(2) factorial design was used to determine the effects of measurement parameters [amount of material loaded (W), number of segregation cycles] with number of replicates 6. ANOVA showed that W was a critical parameter for segregation testing. The L/F value deviated further from 1 (greater segregation tendency) with increasing W. A 2(3) full factorial design was used to assess the effects of formulation variables: grade of ASP (unmilled, milled), grade of MCC, and amount of lubricant, MgS. MLR and ANOVA showed that the grade of ASP was the main effect contributing to segregation tendency. Principal Component Regression Analysis established a correlation between L/F and the physical properties of the blend related to ASP and MCC, the ASP/MCC particle size ratio (PSR) and powder cohesion. The physical properties of the blend related to density and flow were not influenced by the grade of ASP and were not related to the segregation tendency of the blend. The direct relationship between L/F and PSR was determined by univariate analysis. Segregation tendency increased as the ASP to MCC particle size increased. This study highlighted critical test parameters for segregation testing and identified critical physical properties of the blends that influence segregation tendency.
This study investigated the potential of near infrared spectroscopy (NIRS) to assess film coat cu... more This study investigated the potential of near infrared spectroscopy (NIRS) to assess film coat curing for tablets coated with methacrylate copolymers. The ability of NIRS to monitor film coat curing was studied and compared to conventional methods like differential scanning calorimetry (DSC) and hot-stage microscopy (HSOM). This study showed that variation in the curing temperature and duration affected the NIR spectra for all formulations. These results and the DSC and HSOM results showed that the spectral changes are due to polymer curing. In addition, glass beads, theophylline and orbifloxacin tablets were coated using Eudragit RL, RS, and L 30-D with varying ratios. Principal component analysis (PCA) was performed on the NIR spectra to investigate the effect of curing time and temperature on cast films, uncoated tablets, coated tablets and coated glass beads. Score plots showed that curing duration and temperature affected coated glass beads, uncoated and coated tablets significantly. The amount of drug released at 250 min, and the NIR spectra of cured tablets were used to develop and validate a 7-factor partial least square (PLS) regression calibration for theophylline tablets coated with Eudragit RL:RS 30-D (1:4). This study demonstrated the potential of NIRS in film coat curing and release monitoring.
A thermodynamic analysis of the energy transformations occurring within pharmaceutical tablets du... more A thermodynamic analysis of the energy transformations occurring within pharmaceutical tablets during the unloading phase of compaction was performed on Avicel, calcium phosphate, acetaminophen, and calcium oxalate. This analysis was based on viscoelastic stress data collected using an instrumented rotary press and was conducted for the purpose of determining the extent and nature of energy release, beyond that of force displacement, during this phase of compaction. The four materials investigated were selected to reflect a range of compaction properties, and the viscous vs force-displacement energy distributions were seen to be consistent with their brittle vs plastic character. Magnesium stearate, added in various concentrations up to 4% w/w, was found to act both as an internal lubricant for particle-particle slipping and as a moderator of interparticulate bonding.
Little information is available on the compactability of beads for oral sustained-release dosage ... more Little information is available on the compactability of beads for oral sustained-release dosage forms. It is known that polymer-coated beads may fuse together to produce a non-disintegrating controlled-release matrix tablet when compressed. This study evaluates the effect of compression on beads with multiple layers of polymer and drug coat, and the effect of cushioning excipients and compaction pressure on drug release from compressed bead formulations. The multilayered beads consist of several alternating layers of acetaminophen (APAP) and polymer coats (Aquacoat) with an outer layer of mannitol as a cushioning excipient. Percent drug release versus time profiles showed that the release of drug decreases from noncompacted beads as the amount and number of coatings increases, with only 43% of drug released in 24 hr for coated beads with 10 layers. It was shown that the compacted multilayered beads will disintegrate in gastrointestinal fluids, providing a useful drug release pattern. It was shown that beads of drug prepared by any method can be spray-layered with excipients such as Avicel and mannitol. Spray-layering of the cushioning excipient onto beads can provide an effective way to circumvent segregation issues associated with mixing of the polymer-coated beads and powdered or spherical/nonspherical cushioning excipients. Spray layering of the cushioning excipient can also provide excellent flow properties of the final formulation as visually observed in our experiments. Triple-layered caplets (TLC) were also prepared with outer layers of Avicel PH-101 or polyethylene oxide (PEO), and a center layer of polymer-coated beads. For TLC, the polymer coating on the beads fractured, and nondisintegrating matrix formulations were obtained with both caplet formulations.
In this study, three techniques for the prevention or mitigation of polymer coat fracture on comp... more In this study, three techniques for the prevention or mitigation of polymer coat fracture on compaction of sustained-release beads into tablets were investigated. All techniques in this paper were evaluated without the addition of any cushioning excipients, but rather by spray coating these excipients to avoid segregation during product manufacturing. First, it was shown that use of swellable polymers such as polyethylene oxide (PEO) serves a unique and effective role in preventing polymer coat rupture. PEO was spray coated between the ethylcellulose (EC) and microcrystalline cellulose (MCC) coats to evaluate its cushioning effect. The compacted PEO layered beads, on dissolution, disintegrated into individual beads with sustained drug release of up to 8 hr. It is postulated that the PEO was hydrated and formed a gel that acts as a sealant for the cracks formed in the ruptured polymer coating (sealant-effect compacts). Second, EC-coated drug-layered beads were also overcoated with cushioning excipients such as polyethylene glycol (PEG) and MCC with an additional coating of a disintegrant. These beads were compressed at pressures of 125, 500, and 1000 pounds into caplets and, on dissolution testing, disintegrated into individual beads when the dissolution medium was switched from simulated gastric to intestinal fluid. The dissolution profiles show that the polymer coat was partly disrupted on compaction, leading to a total drug release in 8-10 hr. Third, EC-coated beads were also granulated with cushioning excipient and compressed.
Ammonio methacrylate copolymers Eudragit® RS PO and Eudragit® RL PO have found widespread use as ... more Ammonio methacrylate copolymers Eudragit® RS PO and Eudragit® RL PO have found widespread use as key components in various types of extended release solid dosage forms. The deformation behavior of neat polymers and binary mixes was evaluated using Heckel Analysis, strain rate sensitivity, work of compaction and elastic recovery index. Additionally, the compact forming ability of neat materials and binary mixes were evaluated by analyzing their tabletability, compressibility and compactibility profiles. The Heckel analysis of both polymers exhibited a speed-sensitive deformation behavior typical to plastic materials. The yield values of the binary mixes of the polymers with microcrystalline cellulose revealed a linear relationship with the weight fractions of individual components. The yield values of binary mixes of both the polymers with dibasic calcium phosphate exhibited slight negative deviations from linearity. Both polymers exhibited axial relaxation after ejection typical of viscoelastic materials, as measured by the elastic recovery index values. The work of compaction and the elastic recovery index values of the binary mixtures were found to be linearly related to the weight fractions of the individual components thus, confirming ideal mixing behavior based on the composition. Addition of microcrystalline cellulose to both polymers significantly improved their tabletability and compactibility. The tensile strengths of the compacts prepared with neat materials and binary mixes with microcrystalline cellulose, dibasic calcium phosphate and lactose were the function of their solid fraction and independent of the tableting speeds tested; thus, validating compactibility as a reliable parameter in predicting acceptable tablet properties.
This study investigated the potential of near infrared spectroscopy (NIRS) to assess film coat cu... more This study investigated the potential of near infrared spectroscopy (NIRS) to assess film coat curing for tablets coated with methacrylate copolymers. The ability of NIRS to monitor film coat curing was studied and compared to conventional methods like differential scanning calorimetry (DSC) and hot-stage microscopy (HSOM). This study showed that variation in the curing temperature and duration affected the NIR spectra for all formulations. These results and the DSC and HSOM results showed that the spectral changes are due to polymer curing. In addition, glass beads, theophylline and orbifloxacin tablets were coated using Eudragit RL, RS, and L 30-D with varying ratios. Principal component analysis (PCA) was performed on the NIR spectra to investigate the effect of curing time and temperature on cast films, uncoated tablets, coated tablets and coated glass beads. Score plots showed that curing duration and temperature affected coated glass beads, uncoated and coated tablets significantly. The amount of drug released at 250 min, and the NIR spectra of cured tablets were used to develop and validate a 7-factor partial least square (PLS) regression calibration for theophylline tablets coated with Eudragit RL:RS 30-D (1:4). This study demonstrated the potential of NIRS in film coat curing and release monitoring.
International journal of pharmaceutics, Jan 4, 2008
Methacrylic acid copolymers have been shown to enhance release of weakly basic drugs from rate co... more Methacrylic acid copolymers have been shown to enhance release of weakly basic drugs from rate controlling polymer matrices through the mechanism of microenvironmental pH modulation. Since these matrices are typically formed through a compaction process, an understanding of the deformation behavior of these polymers in there neat form and in combination with rate controlling polymers such as HPMC is critical to their successful formulation. Binary mixes of two methacrylic acid copolymers, Eudragit L100 and L100-55 in combination with HPMC K4M were subjected to compaction studies on a compaction simulator. The deformation behavior of the powder mixes was analyzed based on pressure-porosity relationships, strain rate sensitivity (SRS), residual die wall force data and work of compaction. Methacrylic acid copolymers, L100-55 and L-100 and the hydrophilic polymer, HPMC K4M exhibited Heckel plots representative of plastic deformation although L-100 exhibited significantly greater resista...
The purpose of this study is to test the hypothesis that in tablet formulations, moisture-sensiti... more The purpose of this study is to test the hypothesis that in tablet formulations, moisture-sensitive drugs formulated with lactose monohydrate have the same stability as formulations containing anhydrous lactose, and to characterize the kinetics of niacinamide degradation in the solid state. Aspirin and niacinamide decomposition were used as indicators of stability. Aspirin and niacinamide tablets containing either lactose monohydrate or anhydrous lactose were separately investigated at different temperatures and relative humidities; the stability tests were done at 25 degrees C--60% RH, 40 degrees C--80% RH, 60 degrees C--60% RH, 60 degrees C--80% RH, and 80 degrees C--80% RH. Official U.S. Pharmacopeia methods were used for the aspirin and niacinamide assays. Statistical analysis showed that tablets containing lactose monohydrate have the same stability as tablets containing anhydrous lactose, which means that even though water is present in the crystal structure, the bound water does not influence the reaction rate. In addition, niacinamide degradation in the solid-state can be described by a third order rate equation.
To determine whether prescription prenatal vitamins meet United States Pharmacopeial Convention (... more To determine whether prescription prenatal vitamins meet United States Pharmacopeial Convention (USP) standards for folic acid dissolution. Dissolution was measured using USP Apparatus II and test conditions specified in the 23rd revision of the United States Pharmacopeia (USP 23). Folic acid was assayed by a chromatographic method modified from that specified in the official monographs, for oil- and water-soluble vitamins with minerals tablets, in USP 23. Only three out of nine multivitamin products met USP specifications for folic acid release. Most missed by a wide margin; folic acid dissolution from two products was less than 25%. Because a wide variety of brand-name and generic prescription prenatal multivitamin products were tested, these results are likely to be representative of the multivitamin products on the market. Given the significance of folic acid to public health, the authors believe that this subject should be studied further and that prompt action should be taken to ensure that folic-acid-containing products are of the highest quality possible.
The objective of this study was to examine the effects of testing parameters and formulation vari... more The objective of this study was to examine the effects of testing parameters and formulation variables on the segregation tendency of pharmaceutical powders measured by the ASTM D 6940-04 segregation tester using design of experiments (DOE) approaches. The test blends consisted of 4% aspirin (ASP) and 96% microcrystalline cellulose (MCC) with and without magnesium stearate (MgS). The segregation tendency of a blend was determined by measuring the last/first (L/F) ratio, the ratio of aspirin concentrations between the first and last samples discharged from the tester. A 2(2) factorial design was used to determine the effects of measurement parameters [amount of material loaded (W), number of segregation cycles] with number of replicates 6. ANOVA showed that W was a critical parameter for segregation testing. The L/F value deviated further from 1 (greater segregation tendency) with increasing W. A 2(3) full factorial design was used to assess the effects of formulation variables: grade of ASP (unmilled, milled), grade of MCC, and amount of lubricant, MgS. MLR and ANOVA showed that the grade of ASP was the main effect contributing to segregation tendency. Principal Component Regression Analysis established a correlation between L/F and the physical properties of the blend related to ASP and MCC, the ASP/MCC particle size ratio (PSR) and powder cohesion. The physical properties of the blend related to density and flow were not influenced by the grade of ASP and were not related to the segregation tendency of the blend. The direct relationship between L/F and PSR was determined by univariate analysis. Segregation tendency increased as the ASP to MCC particle size increased. This study highlighted critical test parameters for segregation testing and identified critical physical properties of the blends that influence segregation tendency.
This study investigated the potential of near infrared spectroscopy (NIRS) to assess film coat cu... more This study investigated the potential of near infrared spectroscopy (NIRS) to assess film coat curing for tablets coated with methacrylate copolymers. The ability of NIRS to monitor film coat curing was studied and compared to conventional methods like differential scanning calorimetry (DSC) and hot-stage microscopy (HSOM). This study showed that variation in the curing temperature and duration affected the NIR spectra for all formulations. These results and the DSC and HSOM results showed that the spectral changes are due to polymer curing. In addition, glass beads, theophylline and orbifloxacin tablets were coated using Eudragit RL, RS, and L 30-D with varying ratios. Principal component analysis (PCA) was performed on the NIR spectra to investigate the effect of curing time and temperature on cast films, uncoated tablets, coated tablets and coated glass beads. Score plots showed that curing duration and temperature affected coated glass beads, uncoated and coated tablets significantly. The amount of drug released at 250 min, and the NIR spectra of cured tablets were used to develop and validate a 7-factor partial least square (PLS) regression calibration for theophylline tablets coated with Eudragit RL:RS 30-D (1:4). This study demonstrated the potential of NIRS in film coat curing and release monitoring.
A thermodynamic analysis of the energy transformations occurring within pharmaceutical tablets du... more A thermodynamic analysis of the energy transformations occurring within pharmaceutical tablets during the unloading phase of compaction was performed on Avicel, calcium phosphate, acetaminophen, and calcium oxalate. This analysis was based on viscoelastic stress data collected using an instrumented rotary press and was conducted for the purpose of determining the extent and nature of energy release, beyond that of force displacement, during this phase of compaction. The four materials investigated were selected to reflect a range of compaction properties, and the viscous vs force-displacement energy distributions were seen to be consistent with their brittle vs plastic character. Magnesium stearate, added in various concentrations up to 4% w/w, was found to act both as an internal lubricant for particle-particle slipping and as a moderator of interparticulate bonding.
Little information is available on the compactability of beads for oral sustained-release dosage ... more Little information is available on the compactability of beads for oral sustained-release dosage forms. It is known that polymer-coated beads may fuse together to produce a non-disintegrating controlled-release matrix tablet when compressed. This study evaluates the effect of compression on beads with multiple layers of polymer and drug coat, and the effect of cushioning excipients and compaction pressure on drug release from compressed bead formulations. The multilayered beads consist of several alternating layers of acetaminophen (APAP) and polymer coats (Aquacoat) with an outer layer of mannitol as a cushioning excipient. Percent drug release versus time profiles showed that the release of drug decreases from noncompacted beads as the amount and number of coatings increases, with only 43% of drug released in 24 hr for coated beads with 10 layers. It was shown that the compacted multilayered beads will disintegrate in gastrointestinal fluids, providing a useful drug release pattern. It was shown that beads of drug prepared by any method can be spray-layered with excipients such as Avicel and mannitol. Spray-layering of the cushioning excipient onto beads can provide an effective way to circumvent segregation issues associated with mixing of the polymer-coated beads and powdered or spherical/nonspherical cushioning excipients. Spray layering of the cushioning excipient can also provide excellent flow properties of the final formulation as visually observed in our experiments. Triple-layered caplets (TLC) were also prepared with outer layers of Avicel PH-101 or polyethylene oxide (PEO), and a center layer of polymer-coated beads. For TLC, the polymer coating on the beads fractured, and nondisintegrating matrix formulations were obtained with both caplet formulations.
In this study, three techniques for the prevention or mitigation of polymer coat fracture on comp... more In this study, three techniques for the prevention or mitigation of polymer coat fracture on compaction of sustained-release beads into tablets were investigated. All techniques in this paper were evaluated without the addition of any cushioning excipients, but rather by spray coating these excipients to avoid segregation during product manufacturing. First, it was shown that use of swellable polymers such as polyethylene oxide (PEO) serves a unique and effective role in preventing polymer coat rupture. PEO was spray coated between the ethylcellulose (EC) and microcrystalline cellulose (MCC) coats to evaluate its cushioning effect. The compacted PEO layered beads, on dissolution, disintegrated into individual beads with sustained drug release of up to 8 hr. It is postulated that the PEO was hydrated and formed a gel that acts as a sealant for the cracks formed in the ruptured polymer coating (sealant-effect compacts). Second, EC-coated drug-layered beads were also overcoated with cushioning excipients such as polyethylene glycol (PEG) and MCC with an additional coating of a disintegrant. These beads were compressed at pressures of 125, 500, and 1000 pounds into caplets and, on dissolution testing, disintegrated into individual beads when the dissolution medium was switched from simulated gastric to intestinal fluid. The dissolution profiles show that the polymer coat was partly disrupted on compaction, leading to a total drug release in 8-10 hr. Third, EC-coated beads were also granulated with cushioning excipient and compressed.
Ammonio methacrylate copolymers Eudragit® RS PO and Eudragit® RL PO have found widespread use as ... more Ammonio methacrylate copolymers Eudragit® RS PO and Eudragit® RL PO have found widespread use as key components in various types of extended release solid dosage forms. The deformation behavior of neat polymers and binary mixes was evaluated using Heckel Analysis, strain rate sensitivity, work of compaction and elastic recovery index. Additionally, the compact forming ability of neat materials and binary mixes were evaluated by analyzing their tabletability, compressibility and compactibility profiles. The Heckel analysis of both polymers exhibited a speed-sensitive deformation behavior typical to plastic materials. The yield values of the binary mixes of the polymers with microcrystalline cellulose revealed a linear relationship with the weight fractions of individual components. The yield values of binary mixes of both the polymers with dibasic calcium phosphate exhibited slight negative deviations from linearity. Both polymers exhibited axial relaxation after ejection typical of viscoelastic materials, as measured by the elastic recovery index values. The work of compaction and the elastic recovery index values of the binary mixtures were found to be linearly related to the weight fractions of the individual components thus, confirming ideal mixing behavior based on the composition. Addition of microcrystalline cellulose to both polymers significantly improved their tabletability and compactibility. The tensile strengths of the compacts prepared with neat materials and binary mixes with microcrystalline cellulose, dibasic calcium phosphate and lactose were the function of their solid fraction and independent of the tableting speeds tested; thus, validating compactibility as a reliable parameter in predicting acceptable tablet properties.
This study investigated the potential of near infrared spectroscopy (NIRS) to assess film coat cu... more This study investigated the potential of near infrared spectroscopy (NIRS) to assess film coat curing for tablets coated with methacrylate copolymers. The ability of NIRS to monitor film coat curing was studied and compared to conventional methods like differential scanning calorimetry (DSC) and hot-stage microscopy (HSOM). This study showed that variation in the curing temperature and duration affected the NIR spectra for all formulations. These results and the DSC and HSOM results showed that the spectral changes are due to polymer curing. In addition, glass beads, theophylline and orbifloxacin tablets were coated using Eudragit RL, RS, and L 30-D with varying ratios. Principal component analysis (PCA) was performed on the NIR spectra to investigate the effect of curing time and temperature on cast films, uncoated tablets, coated tablets and coated glass beads. Score plots showed that curing duration and temperature affected coated glass beads, uncoated and coated tablets significantly. The amount of drug released at 250 min, and the NIR spectra of cured tablets were used to develop and validate a 7-factor partial least square (PLS) regression calibration for theophylline tablets coated with Eudragit RL:RS 30-D (1:4). This study demonstrated the potential of NIRS in film coat curing and release monitoring.
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