Tailoring α/β Ratio of Pollen-Like Anhydrous Lactose as Ingredient Carriers for Controlled Dissolution Rate

Lactose is a commonly used excipient with two isomers. Different isomers have different properties, especially in terms of solubility. This work is mainly to explore the influence of different a/β ratio lactose on drug dissolution. This work has developed novel mesoporous pollen-like lactose anhydrous with tailored α/β ratios as ingredient carriers for controlled dissolution rate. The produced lactose carriers are pollen-like with a particle size of ~15 μm and a mean pore width of ~30 nm. β-lactose anhydrous has a unique FTIR-peak at 948 cm−1, whereas α-lactose anhydrous shows a unique FTIR-peak at 855 cm−1. DSC analysis suggests that the pollen-like α/β-lactose crystals are polymorphs with unique peaks of melting points. XRD analysis suggests that (5:5)α/β-lactose polymorph has high crystalline purity. The loading efficiency (30.6–33.4% w/w) of acetamidophenol within the nanoporous lactose particles is dependent on the surface structure and pore volumes—the pore volumes were found to be 0.0209–0.0380 cm3/g. The release rates of acetamidophenol are lower for lactose with high α/β ratios. The lactose solubility and the first-order release constant can be tailored by changing the proportion of β-lactose in the pollen-like lactose carriers.

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Porous Lactose as a Novel Ingredient Carrier for the Improvement of Quercetin Solubility In Vitro

Bioinorganic Chemistry and Applications ◽

10.1155/2021/2586990 ◽

2021 ◽

Vol 2021 ◽

pp. 1-6

Author(s):

Wen Liu ◽

Tong-Tong Wang ◽

Xiao-Luan Tang ◽

Fei-Ya Jiang ◽

Xiao Yan ◽

...

Keyword(s):

Surface Area ◽

Pore Volume ◽

Reduction Rate ◽

Xrd Analysis ◽

Bet Surface Area ◽

Pore Width ◽

Release Rates ◽

Loading Efficiency ◽

Highly Porous

In this work, quercetin was loaded in the highly-porous lactose via the adsorption of quercetin molecules in ethanol. The method aims to improve the quercetin solubility and the loading capacity of lactose. The method relates to the synthesis of the highly-porous lactose with a particle size of ∼35 μm, a mean pore width of ∼30 nm, a BET surface area of 35.0561 ± 0.4613 m2/g, and a BJH pore volume of ∼0.075346 cc/g. After the quercetin loading in ethanol, BET surface area and BJH pore volume of porous lactose were reduced to 28.8735 ± 0.3526 m2/g and 0.073315 cc/g, respectively. The reduction rate was based on the quercetin loading efficiency of highly-porous lactose. DSC analysis and XRD analysis suggest that the sediments of quercetin in the nanopores of porous lactose are crystalline. FTIR spectroscopy results suggest that there is no significant interaction between quercetin and lactose. The highly-porous lactose had a higher loading efficiency of 20.3% (w/w) compared to the α-lactose (with 5.2% w/w). The release rates of quercetin from the highly-porous lactose tablets were faster compared to the conventional α-lactose carrier.

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Flow setup for evaluation of the drug dissolution rate

Pharmaceutical Chemistry Journal ◽

10.1007/bf02218928 ◽

1996 ◽

Vol 30 (1) ◽

pp. 45-48

Author(s):

S. G. Mamylov

Keyword(s):

Dissolution Rate ◽

Drug Dissolution

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The Development and Optimization of Hot-Melt Extruded Amorphous Solid Dispersions Containing Rivaroxaban in Combination with Polymers

Pharmaceutics ◽

10.3390/pharmaceutics13030344 ◽

2021 ◽

Vol 13 (3) ◽

pp. 344

Author(s):

Jong-Hwa Lee ◽

Hyeong Sik Jeong ◽

Jong-Woo Jeong ◽

Tae-Sung Koo ◽

Do-Kyun Kim ◽

...

Keyword(s):

Drug Delivery ◽

Dissolution Rate ◽

Solid Dispersion ◽

Oral Drug Delivery ◽

Amorphous Solid ◽

Drug Dissolution ◽

Oral Drug ◽

Amorphous Solid Dispersion ◽

Screw Speed ◽

Hot Melt

Rivaroxaban (RXB), a novel oral anticoagulant that directly inhibits factor Xa, is a poorly soluble drug belonging to Biopharmaceutics Classification System (BCS) class II. In this study, a hot-melt extruded amorphous solid dispersion (HME-ASD) containing RXB is prepared by changing the drug:polymer ratio (Polyvinylpyrrolidione-vinyl acetate 64, 1:1–1:4) and barrel temperature (200–240 °C), fixed at 20% of Cremophor® RH 40 and 15 rpm of the screw speed, using the hot-melt extruding technique. This study evaluates the solubility, dissolution behavior, and bioavailability for application to oral drug delivery and optimizes the formulation of rivaroxaban amorphous solid dispersion (RXB-ASD). Based on a central composite design, optimized RXB-ASD (PVP VA 64 ratio 1:4.1, barrel temperature 216.1 °C, Cremophor® RH 40 20%, screw speed 15 rpm) showed satisfactory results for dependent variables. An in vitro drug dissolution study exhibited relatively high dissolution in four media and achieved around an 80% cumulative drug release in 120 min. Optimized RXB-ASD was stable under the accelerated condition for three months without a change in crystallinity and the dissolution rate. A pharmacokinetic study of RXB-ASD in rats showed that the absorption was markedly increased in terms of rate and amount, i.e., the systemic exposure values, compared to raw RXB powder. These results showed the application of quality by design (QbD) in the formulation development of hot-melt extruded RXB-ASD, which can be used as an oral drug delivery system by increasing the dissolution rate and bioavailability.

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Liquid antisolvent recrystallization and solid dispersion of flufenamic acid with polyvinylpyrrolidone K-30

International Journal of Chemical Reactor Engineering ◽

10.1515/ijcre-2020-0168 ◽

2021 ◽

Vol 0 (0) ◽

Author(s):

Rahul Kumar ◽

Sanjay Kumar ◽

Pranava Chaudhari ◽

Amit K. Thakur

Keyword(s):

Particle Size ◽

Dissolution Rate ◽

Solid Dispersion ◽

Fine Particles ◽

Xrd Analysis ◽

Solution Concentration ◽

Injection Rate ◽

Size Reduction ◽

Flufenamic Acid ◽

Particle Size Reduction

Abstract Flufenamic acid (FFA) is a Biopharmaceutical Classification System- II (BCS-II) class drug with poor bioavailability and a lower dissolution rate. Particle size reduction is one of the conventional approaches to increase the dissolution rate and subsequently the bioavailability. The use of the liquid antisolvent method for particle size reduction of FFA was studied in this work. Ethanol and water were used as solvent and antisolvent, respectively. Experimental parameters such as solution concentration (10–40 mg/ml), flow rate (120–480 ml/h), temperature (298–328 K) and stirring speed (200–800 rpm) were investigated. Furthermore, the solid dispersion of FFA was prepared with polyvinylpyrrolidone K-30 (PVP K-30) with different weight ratios (1:1, 1:2, 1:3 and 1:4) and samples were characterized using SEM, FTIR and XRD techniques. The experimental investigation revealed that higher values of concentration, injection rate, stirring speed, along with lower temperature favored the formation of fine particles. SEM analysis revealed that the morphology of raw FFA changed from rock-like to rectangular-like after liquid antisolvent recrystallization. FTIR analysis validated the presence of hydrogen bonding between FFA and PVP in solid dispersion. XRD analysis showed no significant change in the crystallinity of the processed FFA.

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Kinetics of K release from soils of Brazilian coffee regions: effect of organic acids

Revista Brasileira de Ciência do Solo ◽

10.1590/s0100-06832008000200008 ◽

2008 ◽

Vol 32 (2) ◽

pp. 533-540 ◽

Cited By ~ 9

Author(s):

Vladimir Antônio Silva ◽

Giuliano Marchi ◽

Luiz Roberto Guimarães Guilherme ◽

José Maria de Lima ◽

Francisco Dias Nogueira ◽

...

Keyword(s):

Release Kinetics ◽

Kinetic Studies ◽

Release Rates ◽

First Order ◽

Potassium Release ◽

Minas Gerais State ◽

Soil Clay ◽

Extractant Solution ◽

Kinetics Of ◽

K Release

Kinetic studies on soil potassium release can contribute to a better understanding of K availability to plants. This study was conducted to evaluate K release rates from the whole soil, clay, silt, and sand fractions of B-horizon samples of a basalt-derived Oxisol and a sienite-derived Ultisol, both representative soils from coffee regions of Minas Gerais State, Brazil. Potassium was extracted from each fraction after eight different shaking time periods (0-665 h) with either 0.001 mol L-1 citrate or oxalate at a 1:10 solid:solution ratio. First-order, Elovich, zero-order, and parabolic diffusion equations were used to parameterize the time dependence of K release. For the Oxisol, the first-order equation fitted best to the experimental data of K release, with similar rates for all fractions and independent of the presence of citrate or oxalate in the extractant solution. For all studied Ultisol fractions, in which K release rates increased when extractions were performed with citrate solution, the Elovich model described K release kinetics most adequately. The highest potassium release rate of the Ultisol silt fraction was probably due to the transference of "non-exchangeable" K to the extractant solution, whereas in the Oxisol exchangeable potassium represented the main K source in all studied fractions.

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Enhancement of solubility & dissolution rate of Nifedipine by using Novel Solubilizer sepitrap 80 & Sepitrap 4000

Journal of Drug Delivery and Therapeutics ◽

10.22270/jddt.v8i5-s.2041 ◽

2018 ◽

Vol 8 (5-s) ◽

pp. 293-300 ◽

Cited By ~ 1

Author(s):

Rajesh Shankar Jagtap ◽

Rajendra Doijad ◽

Shrinivas Mohite

Keyword(s):

Surface Morphology ◽

Dissolution Rate ◽

Physical Mixture ◽

Drug Dissolution ◽

Photo Degradation ◽

Dsc Studies ◽

Peak Intensity ◽

Significant Change ◽

Positive Effect ◽

Physical Mixtures

The enhancement in solubility and dissolution rate of BCS class-II drug Nifedipine was achieved by simple physical mixture with sepitrap 80 & sepitrap 4000 in 1:1 & 1:2 proportion. The saturation solubility studies shows 263 % & 368 % increase in the solubility in physical mixture of Nifedipine with sepitrap 80 & sepitrap 4000 respectively. The physicochemical properties of pure Nifedipine compared to their physical mixtures with sepitrap 80 & sepitrap 4000 were determined using FTIR, DSC & PXRD. The FTIR and DSC studies shows no any interaction in Nifedipine and sepitrap, the marked broadening and distinct reduction in intensity with shifting of drug endotherm was displayed physical mixture with sepitrap demonstrate positive effect. The PXRD diffractograms shows distinctive peaks but reduction in peak intensity in terms of counts indicating conversion of drug in amorphous forms. The surface morphology of the prepared physical mixture was examined by SEM which indicating no significant change in its surface morphology due to no use any solvent during the preparation of physical mixture . Photostability studies shows that rate of photo degradation is very slow in Physical mixture with sepitrap as compared to pure Nifedipine. Dissolution studies in SGF & SIF shows that significant enhancement by use of novel solubilizer sepitrap 80 as well as sepitrap 4000 in 1:2 proportions. The physical mixture containing sepitrap 4000 was found stable as there was no any significant change in appearance and drug dissolution after three month stability studies.

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Fusion as an Approach to Enhance Dissolution Rate of a Poorly Water-Soluble Drug (Curcurmin)

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.393-395.119 ◽

2011 ◽

Vol 393-395 ◽

pp. 119-122

Author(s):

Dong Hua Wan ◽

Fen Lin ◽

Qu Xiang Liao

Keyword(s):

Dissolution Rate ◽

Drug Loading ◽

Solid Dispersions ◽

Gastric Fluid ◽

Molecular State ◽

Water Soluble ◽

Drug Dissolution ◽

Simulated Gastric Fluid ◽

Scanning Calorimetry ◽

Rate Improvement

It’s well known that curcumin is practically insoluble in water. Therefore, to improve the drug dissolution rate, fusion approach was employed to prepare curcumin solid dispersions (SDs) in the carrier Pluronic F68 with three different drug loads. The dissolution rate of curcumin from the SDs was measured at simulated gastric fluid. The concentration of the dissolved drug in the medium was determined by HPLC. The dissolution rates of the formulations were dependent on the drug loading in SDs. 92.2% CUR was dissolved in 10 min from the SDs with 8.97% drug load, whereas the amounts of drug released were 65.8% and 84.2% within 120 min from the SDs with 18.9% and 29.0% drug loads, respectively. The Fourier transform infrared spectra indicated hydrogen bond between the drug and carrier. Furthermore, their physicochemical properties were well investigated using differential scanning calorimetry and X-ray diffraction. In the dispersions containing 8.97% CUR, the drug was in the molecular state. At a composition of approximately 18.9%, CUR was dispersed as micro-fine crystals. These interesting results indicate that the physical states of the drug in the carrier, which are governed by the drug loading, can affect the dissolution rate improvement.

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Drug dissolution rate measurements – evaluation of the rotating disc method

Pharmaceutical Development and Technology ◽

10.1080/10837450802712641 ◽

2009 ◽

Vol 14 (4) ◽

pp. 400-408 ◽

Cited By ~ 6

Author(s):

Erik Kaunisto ◽

Bernt Nilsson ◽

Anders Axelsson

Keyword(s):

Dissolution Rate ◽

Drug Dissolution ◽

Rotating Disc

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COMPLEX OF ELUXADOLINE WITH SODIUM CAPRYLATE FOR IMPROVED SOLUBILITY AND DISSOLUTION RATE

INDIAN DRUGS ◽

10.53879/id.57.11.11857 ◽

2021 ◽

Vol 57 (11) ◽

pp. 22-26

Author(s):

Manisha Dhere ◽

◽

Arti Majumdar ◽

Neelesh Malviya

Keyword(s):

Dissolution Rate ◽

Solvent Evaporation ◽

Drug Dissolution ◽

Dissolution Enhancement ◽

Solvent Evaporation Method ◽

Scanning Calorimetry ◽

Evaporation Method ◽

Solubility Study ◽

Sodium Caprylate

In the present research, newly developed complex with sodium caprylate was investigated for solubility and dissolution enhancement of eluxadoline. Complexes were prepared in different ratios by solvent evaporation method and characterised solubility study, Infrared spectroscopy (IR), Diffrential scanning calorimetry (DSC), X-Ray Diffraction (XRD), drug content analysis and in vitro Drug release. The solubility and dissolution rate revealed most suitable ratio of eluxadoline and sodium caprylate (1:4). The IR, DSC and X-RD data also confirmed the results. It was concluded that complex prepared with (1:4 drug:sodium caprylate ratio) using solvent evaporation method showed significant improvement in solubility and drug dissolution.

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The Role of Functional Excipients in Solid Oral Dosage Forms to Overcome Poor Drug Dissolution and Bioavailability

Pharmaceutics ◽

10.3390/pharmaceutics12050393 ◽

2020 ◽

Vol 12 (5) ◽

pp. 393 ◽

Cited By ~ 3

Author(s):

Jannes van der Merwe ◽

Jan Steenekamp ◽

Dewald Steyn ◽

Josias Hamman

Keyword(s):

Dissolution Rate ◽

Solid Dispersions ◽

Aqueous Solubility ◽

Dosage Forms ◽

Oral Dosage ◽

Drug Dissolution ◽

Specific Reference ◽

Dissolution Rates ◽

Bioavailability Enhancement ◽

Poor Solubility

Many active pharmaceutical ingredients (APIs) exhibit poor solubility and low dissolution rates in aqueous environments such as the luminal fluids of the gastrointestinal tract. The oral bioavailability of these compounds is usually very low as a result of their poor solubility properties. In order to improve the bioavailability of these poorly soluble drugs, formulation strategies have been applied as a means to improve their aqueous solubility and dissolution rates. With respect to formulation approaches, excipients can be incorporated in the formulation to assist in the dissolution process of the drug, or specialized dosage forms can be formulated that improve dissolution rate through various mechanisms. This paper provides an overview of selected excipients (e.g., alkalinizing agents, surfactants and sugars) that can be used in formulations to increase the dissolution rate as well as specialized dosage forms such as self-emulsifying delivery systems and formulation techniques such as inclusion complexes and solid dispersions. These formulation approaches are discussed with available examples with specific reference to positive outcomes in terms of drug solubility and bioavailability enhancement.

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