Highlights
(1) The interfacial durability of CNT/PVDF nanofibers was enhanced to increase contact area by reinforcing CNT.
(2) The efficiency of CNT/PVDF actuators was improved due to interfacial properties.
(3) Thin thickness drum-type collector was made to enhance nanofiber alignment.
(4) The arranged CNT/PVDF nanofibers exhibited better mechanical and actuating displacements. 相似文献
Significance: These observations of cocrystal stability under various conditions are useful coformer criteria when cocrystals are selected as the active pharmaceutical ingredient in drug development.
Method: The relative stability was determined from the preferentially formed cocrystals under various conditions.
Result: Cocrystal of APAP–OXA was more stable than that of APAP–MLA in a ternary cogrinding system and possessed thermodynamical stability. On the other hand, when grinding with moisture or maintaining at high temperatures and relative humidity conditions, APAP–MLA was more stable, and OXA converted to OXA dihydrate. In the slurry method, APAP–OXA was more stable in aprotic solvents because the APAP–OXA with low-solubility product precipitated.
Conclusions: The relative stability order was affected by preparing conditions of presence of moisture. This order might attribute to the small difference of crystal structure in the extension of the hydrogen bond network. 相似文献
Objective: Potential of a polysaccharide (rhamnogalacturonan)-based hydrogel from Linseeds (Linum usitatissimum L.) was investigated as an intelligent drug delivery material.
Materials and methods: Different concentrations of Linseed hydrogel (LSH) were used to prepare caffeine and diacerein tablets and further investigated for pH and salt solution-responsive swelling, pH-dependent drug release, and release kinetics. Morphology of tablets was observed using SEM.
Results: LSH tablets exhibited dynamic swelling–deswelling behavior with tendency to swell at pH 7.4 and in deionized water while deswell at pH 1.2, in normal saline and ethanol. Consequently, pH controlled release of the drugs was observed from tablets with lower release (<10%) at pH 1.2 and higher release at pH 6.8 and 7.4. SEM showed elongated channels in swollen then freeze-dried tablets.
Discussion: The drug release was greatly influenced by the amount of LSH in the tablets. Drug release from LSH tablets was governed by the non-Fickian diffusion.
Conclusions: These finding indicates that LSH holds potential to be developed as sustained release material for tablet. 相似文献
Objective: The objective of this study is to enhance the solubility, dissolution and shelf-life of bosentan by formulating it as S-SMEDDS capsules.
Materials and methods: Solubility of bosentan was tested in various liquid vehicles such as oils (rice bran and sunflower), surfactants (span 20 and tween 80) and co-surfactants (PEG 400 and propylene glycol) and microemulsions were developed. Bosentan was incorporated into appropriate microemulsion systems which were previously identified from pseudo ternary phase diagrams. Bosentan-loaded SMEDDS were evaluated for drug content, drug release, zeta potential, and droplet size. The selected liquid SMEDDS were converted into solid SMEDDS by employing adsorption and melt granulation. Solid SMEDDS were characterized for micromeritics and evaluated for drug content, drug release, and shelf-life.
Results: Isotropic systems R5, R13, S5, and S13 with submicron droplet size had exhibited 85.45, 94.12, 81.67, and 96.64% drug release, respectively. Solid SMEDDS of MR13 and AS13 formulations with rapid reconstitution ability, exhibited 84.85 and 86.74% of on par drug release. The formulations were physicochemically intact for 1.02 and 1.56 years.
Discussion: Liquid SMEDDS composed with PEG400 had displayed optimal characters. Solid SMEDDS had high-dissolution profiles than bosentan due to modification in the crystalline structure of drug upon microemulsification.
Conclusion: Thus, solid SMEDDS addressed the solubility, dissolution, and stability issues of bosentan and becomes an alternate for clinical convenience. 相似文献
Objective: This study tested whether propiverine free base palatability and aqueous solubility could be improved by crystalline complex formation.
Materials and methods: We used 42 compounds, and found 9 new propiverine crystalline complexes. The properties and solubility of these complexes were studied using a range of techniques. A taste perception study was carried out using a taste sensor to evaluate the taste masking ability of the crystalline complex formation.
Results: The melting points of the crystalline complexes were higher than that of propiverine. The dissolution rates of the crystalline complexes in aqueous buffer solution (pH 6.8) and in purified water were much faster than that of propiverine. Propiverine salicylic acid crystalline complex had substantially less bitterness than propiverine hydrochloride, which was extremely bitter.
Discussion: The present findings indicated that crystalline complex formation provided an effective approach to enhancing propiverine solubility, and to masking its bitter taste.
Conclusion: Crystalline complex formation represents a useful and valuable technique for the preparation of orally disintegrating tablets and improving patient compliance, even for substances with bitter tastes. 相似文献
Objective: Two in vitro methods were studied to measure the transfer of a lipophilic model drug from colloidal o/w emulsion droplets (donor) to liposomes (acceptor), which serve as model membranes mimicking cell membranes in the body. In the first method (column method) the acceptor particles were neutral unilamellar vesicles. In the second method (MLV method), multilamellar vesicles (MLV) were used as acceptor.
Materials and methods: The donor nanoemulsions were prepared by high pressure homogenization. Z-average particle size, polydispersity index and zeta potential were determined.
Results: The transfer of porphyrin was moderate to the acceptor MLV and rapid to the acceptor unilamellar vesicles. The amount of transferred porphyrin at the end of the experiment depended on the transfer method and the donor/acceptor ratio. With both acceptors the transfer of porphyrin stopped at a concentration lower than the theoretical equilibrium values.
Discussion: Many factors such as acceptor particle size and donor to acceptor lipid molar ratio affect the drug transfer from the donor particles to the different acceptors.
Conclusion: Both methods seem to be suitable to study the drug transfer from such colloidal emulsion and the use of lipophilic acceptor particles is a better approach to the conditions in blood. 相似文献
Objective: The aim of this study was to explore a potential method for detection of low degree of crystalline characteristics of lycopene-loaded SLN and NLC.
Methods: Crystalline characteristics investigation was done by polarized light microscope (PLM), differential scanning calorimeter (DSC), X-ray diffractometer (XRD) and transmission electron microscope (TEM).
Results and discussion: It was found that high crystalline characteristics as anisotropic molecular organization crystal of pure orange wax and lycopene could be investigated by PLM, DSC and WAXS. Low crystallinity of lycopene-loaded SLN and NLC could not be detected by those techniques. Electron diffraction mode of TEM showed potential detection of tiny crystalline characteristics of such systems. The diffraction pattern of lycopene-loaded SLN and NLC exhibited obvious zero order laue zone indicating an isotropic fine grained polycrystalline of the nanoparticles.
Conclusion: It could be concluded that TEM is a promising method for detection of low-level crystallinity of solid nanocarriers. 相似文献
Objective: To study the possibility of measuring the film thickness and predicting the dissolution behavior of pellets produced in different fluid bed equipments with Raman spectroscopy.
Materials and methods: Pyridoxine hydrochloride-layered pellets were produced and coated in two different Strea-1 equipments. Raman spectra were collected and analysed to set up a calibration model based on the film thickness data calculated from Camsizer analysis results. Dissolution tests were done according to Ph. Eur. standards.
Results: Raman spectroscopy proved to be a good tool in the measurement of film thickness. Polymer weight gain showed a linear correlation with film thickness but was a poor predictor of dissolution results below a threshold value.
Conclusion: The Raman spectroscopic measurement of a small sample can provide accurate data of the film thickness. The investigation suggests that a threshold value might exist for the film thickness above which it can be used to judge future dissolution results. 相似文献
Objective: To design arginine-glycineaspartic acid (RGD) modified lipid-coated nanoparticles (NPs) for the co-delivery of the hydrophobic drugs against hepatocellular carcinoma (HCC).
Materials and methods: RGD modified lipid-coated PLGA NPs were developed for the targeted delivery of both sorafenib (SRF) and quercetin (QT) (RGD-SRF-QT NPs). Chemical–physical characteristics and release profiles were evaluated. In vitro cell viability assays were carried out on HCC cells. In vivo antitumor efficacies were evaluated in HCC animal model.
Results and discussion: The combination of SRF and QT formulations was more effective than the single drug formulations in both NPs and solution groups. RGD-SRF-QT NPs achieved the most significant tumor growth inhibition effect in vitro and in vivo.
Conclusion: The resulting NPs could provide a promising platform for co-delivery of multiple anticancer drugs for achievement of combinational therapy and could offer potential for enhancing the therapeutic efficacy on HCC. 相似文献
Method: The osmotic pressure of drug solutions is determined by measuring the relative air humidity in equilibrium with the solution. The freezing point osmometry is used as a control.
Results: The data obtained by the proposed method are comparable to those by the control method, and the measuring range of the proposed method is significantly wider than that of the control method.
Conclusion: The proposed method is performed in an isothermal and equilibrium state, so it overcomes the defects of the freezing point and dew point osmometries which result from the heterothermal process in the measurement, and therefore is not limited to diluted solutions. 相似文献
Objective: The aim of the research was to evaluate the possibilities to produce drug particles with desired pharmaceutical properties by electrospraying. In particular, the effect of drying pressure on particle properties was studied.
Materials and methods: A poorly water soluble model drug (budesonide) was dissolved in chloroform, and the solution was atomized by electrospraying. Following this, the charged droplets were neutralized and dried in a drying chamber. The pressure in the drying chamber was varied. The dried particles were collected and analyzed.
Results: The pressure reduction had a slight impact on particle size distribution. The particles produced in reduced pressure turned out to be notably more porous than the particles produced in atmospheric pressure. The pressure reduction also affects the degree of crystallinity of the product. The dissolution of the particles produced in reduced pressures was faster to a certain extent than that of the particles produced in atmospheric pressure.
Discussion and conclusions: A setup for electrospraying materials in a reduced pressure was presented. The pressure reduction had a notable impact on particle morphology. The possibilities to tailor the particle properties during electrospraying were studied. 相似文献
Objective: To investigate the direct and indirect photodegradation of BNZ and to evaluate the interference of the excipients used in the forms dosage solid as well as to shed light on the chemical structure of the degradation products obtained.
Materials and methods: To perform this work we adopted the “ICH Harmonised Tripartite Guideline: Photostability Testing of New Drug Substances and Products Q1B” (Guideline Q1B). We used benzonidazole (BNZ) (N-benzil-2-(2-nitroimidazol-1-il) acetamide) (LAFEPE®, Recife, Brazil) and various excipients; beyond high-performance liquid chromatography (HPLC), differential scanning calorimetry (DSC), infrared spectroscopy (IR) and mass spectrometry/mass spectrometry (MS/MS). The indirect photodegradation of BNZ was carried out using physical mixtures with 13 pharmaceutical excipients commonly used in the preparation of solid dosage forms.
Results: HPLC and MS/MS techniques were selected for the identification of two photoproducts (PPs) and photoreactions found in direct and indirect tests with the microcrystalline cellulose, considered a critical excipient.
Discussion: Despite variations in the infrared spectrometry, differential scanning calorimetry and differential thermogravimetry curves, these techniques are not conclusive since the study of photodegradation of the drug caused decay of 30%, according to the ICH.
Conclusions: The results show that BNZ only undergoes direct photodegradation, since no new PPs were found for a combination of the drug and excipients. 相似文献
Significance: A simplified scoring system for the biopharmaceutics risk assessment roadmap (BioRAM) is proposed to guide product development.
Methods: Factorial design of experiments was employed to study the effect of formulation and process variables on CQA’s. The in vivo model was developed for predicting the fraction of drug absorbed and to identify the effect of formulation components on drug absorption.
Results: BioRAM yielded low scores for fluconazole absorption with respect to severity (risks of sub and supra-bioavailable drug products), probability of incidence of bioinequivalent results and capacity of detection. The results demonstrated that dissolution was highly influenced by the active pharmaceutical ingredient (API) polymorphism and the ratio of diluents. Process variables (mixing time, lubricant concentration, lubrication time and filling speed) did not impact the clinical outcome of the formulation with respect to dissolution and content uniformity.
Conclusions: Understanding the clinical implications of the adopted formulation approach led to the construction of purposeful design space and control strategy. 相似文献
Objective: To evaluate the susceptibility to tampering of biphasic immediate-release (IR)/ER oxycodone (OC)/acetaminophen (APAP) tablets compared with IR OC/APAP tablets.
Materials and methods: IR/ER OC/APAP and IR OC/APAP tablets were tested at room temperature and after heating, freezing and microwaving. Resistance to crushing was tested using manual and powered tools (e.g. spoons, mortar and pestle, blender, coffee grinder). Tampered tablets were tested for suitability for snorting, OC extraction in solvents and ease of drawing into a syringe. Dissolution of IR/ER OC/APAP in gastric fluid with and without ethanol was tested to determine the potential for facilitating precipitous release of opioid from the tablet.
Results: IR/ER OC/APAP tablets were more crush resistant than IR OC/APAP tablets. Heating, freezing and microwaving had no effect on crush resistance of IR/ER OC/APAP tablets. Although a mortar and pestle pulverized IR/ER OC/APAP tablets, upon contact with solvent, the powder formed a thick gel judged unsuitable for absorption through the nasal mucosa and could not be drawn into a syringe. In contrast, powder from crushed IR OC/APAP tablets dissolved readily, was judged suitable for snorting, and was easily drawn into a syringe. Dissolution of IR/ER OC/APAP tablets in gastric fluid was slowed by the addition of ethanol.
Discussion: IR/ER OC/APAP tablets are resistant to crushing and dissolution compared with IR OC/APAP tablets.
Conclusion: IR/ER OC/APAP tablets may have less potential for abuse involving tampering compared with IR OC/APAP tablets. 相似文献
Significance: The experiment with this scope is new and is very important from the point of view of aerosol therapy.
Methods: The results have been obtained by the use of the digital microphotography technique. In order to determine a physicochemical properties of tested liquids, a rheological measurements and measurements of the surface tension were carried out.
Results: The differences between characteristics of aerosol for the liquids have been observed. The analysis of the droplets size distributions shows that the different diameters of droplets for Newtonian and non-Newtonian fluids have been formed during atomization in pneumatic nebulizers equipped with different nebulizer cups. The effect of the mouthpiece location on the droplets diameters has been shown.
Conclusions: Precise design of nebulizer and nebulizer cups, and also physicochemical properties of atomized liquids are of high importance in order to the effectiveness of drug delivery to patient’s respiratory tracts. 相似文献
Significance: MCC, although a widely used tablet excipient, has diasdvantages in terms of its low dilution potential for potent drugs, and sensitivity to lubricant and moisture. SMCC, a modified version of MCC, has improved tablet compression properties. However, SMCC is expensive and also affects the moisture sorption and particle deformation during compression leading to increased tensile strength and tablet hardness. NCC was found to be similar to SMCC in its performance as a tablet excipient and thus can serve as a cheaper alternative to SMCC.
Methods: Scanning electron microscopy (SEM), X-ray diffrectometry (XRD), and differential scanning calorimetry (DSC) analyses were performed on NCC, MCC, and SMCC. Further, out-of-the die Heckel, Kawakita compact densification and stress-strain analyses were performed to evaluate their compaction and compressibility properties. Various compendial and non-compendial tests were performed to to determine the flow properties of materials. Dissolution studies were performed using amlodipine besylate as a marker drug.
Results: It was found that NCC has similar or even better flow properties and compactibility than MCC due to its porous and amorphous structure whereas it had similar properties as SMCC.
Conclusions: Based on the data, it can be concluded that NCC can serve as a cheaper and better alternative to MCC as excipient in solid dosage forms. 相似文献
Objective: The aim of this study was to investigate the impact of an additive, magnesium stearate (MGST), on the stability and aerosol performance of co-milled active pharmaceutical ingredient (API) with lactose.
Methods: Blends of API-lactose with/without MGST were prepared and co-milled by the jet-mill apparatus. Samples were stored at 50% relative humidity (RH) and 75% RH for 1, 5, and 15 d. Analysis of changes in particle size, agglomerate structure/strength, moisture sorption, and aerosol performance were analyzed by laser diffraction, scanning electron microscopy (SEM), dynamic vapor sorption (DVS), and in-vitro aerodynamic size assessment by impaction.
Results: Co-milled formulation with MGST (5% w/w) led to a reduction in agglomerate size and strength after storage at elevated humidity compared with co-milled formulation without MGST, as observed from SEM and laser diffraction. Hysteresis in the sorption/desorption isotherm was observed in the co-milled sample without MGST, which was likely due to the recrystallization of the amorphous regions of micronized lactose. Deterioration in aerosol performance after storage at elevated humidity was greater for the co-milled samples without MGST, compared with co-milled with MGST.
Conclusion: MGST has been shown to have a significant impact on co-milled dry powder stability after storage at elevated humidity in terms of physico-chemical properties and aerosol performance. 相似文献
Objective: The objective of the present work was to prepare ibuprofen-loaded DCP particles and further to analyze them for compressibility and dissolution behavior.
Materials and methods: Various crystallization techniques such as solvent evaporation (SE), melt crystallization (MC), melt sonocrystallization (MSC), antisolvent crystallization (AC), and antisolvent sonocrystallization (ASC) were screened for the preparation of ibuprofen-loaded DCP. Products obtained from different techniques were analyzed for physicochemical, micromeritic and compression properties.
Results and discussion: ASC technique was found to be suitable for preparing directly compressible ibuprofen-loaded DCP particles. The change in the crystal habit (needle to plate shape) of ibuprofen and its crystallization in miniscular form onto the surface of DCP particles showed significant improvement in the dissolution rate and compression properties of ibuprofen due to an increase in specific surface area when compared with ibuprofen crystallized by other techniques. Additionally, the tablets prepared from ASC powder did not require binder since ibuprofen acted as melt binder during compression.
Conclusion: Directly compressible ibuprofen-loaded DCP particles can serve as an alternative for conventional ibuprofen tablets prepared by wet granulation technique. 相似文献
Objective: This work is directed toward masking the bitter taste of ondansetron HCl (ONS) utilizing the excipient, which can delay the reach of drug to the taste buds.
Material and methods: Magnesium aluminum silicate (Veegum F), a clay material having capability to adsorb the drugs onto it, was used. The adsorption systems of ONS with Veegum were obtained by dynamic adsorption technique and examined by scanning electron microscopy, differential scanning calorimetry, Fourier transform infrared (FTIR) spectroscopy, and X-ray diffraction (XRD) for morphology, thermal behavior, and interactions. The taste assessment of prepared systems was done by in vitro method based on drug release.
Results: The molecular interaction between ONS and Veegum in the system was revealed by FTIR spectroscopy. A change in thermal behavior of the system was observed owing to interaction or replacement of the cationic groups of Veegum with that of ONS. XRD studies revealed that the prepared system was having lower crystallinity as compared to ONS. The in vitro drug release study showed that ONS release from the system was relatively slow in basic environment than the acidic one.
Discussion: Adsorption of ONS on the surface of Veegum was mainly due to electrostatic interactions and hydrogen bonding.
Conclusion: The experimental results reveal the successful intercalation of ONS into the space available between the layers of Veegum. Furthermore, this resulted in a control on drug release in salivary pH resulting in a concentration lower than bitterness threshold. 相似文献