Water-Solid Interactions. III. Effect of Glass Transition Temperature,<i>T<sub>g</sub></i>, and Processing on Tensile Strength of Compacts of Lactose and Lactose/Polyvinyl Pyrrolidone

Stubberud, Lars; Arwidsson, Hans; Hjortsberg, Victoria; Graffner, Christina

doi:10.3109/10837459609029894

Cited by 31 publications

(14 citation statements)

References 20 publications

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“…ODFs showed appropriate strength and %E. These excellent mechanical properties were attributed to the presence of glycerol, citric acid, and CPM, which reduced film stiffness via disruption of intermolecular forces of the polymer owing to the accommodation of these compounds between the strands, thereby providing elasticity to the films [37, 38]. …”

Section: Resultsmentioning

confidence: 99%

Development and evaluation of an oral fast disintegrating anti-allergic film using hot-melt extrusion technology

Pimparade

Maurya

et al. 2017

European Journal of Pharmaceutics and Biopharmaceutics

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The main objective of this novel study was to develop chlorpheniramine maleate orally disintegrating films (ODF) using hot-melt extrusion technology and evaluate the characteristics of the formulation using in vitro and in vivo methods. Modified starch with glycerol was used as a polymer matrix for melt extrusion. Sweetening and saliva-simulating agents were incorporated to improve palatability and lower the disintegration time of film formulations. A standard screw configuration was applied, and the last zone of the barrel was opened to discharge water vapors, which helped to manufacture non-sticky, clear, and uniform films. The film formulations demonstrated rapid disintegration times (6–11 s) and more than 95% dissolution in 5 min. In addition, the films had characteristic mechanical properties that were helpful in handling and storage. An animal model was employed to determine the taste masking of melt-extruded films. The lead film formulation was subjected to a human panel for evaluation of extent of taste masking and disintegration.

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Section: Resultsmentioning

confidence: 99%

Development and evaluation of an oral fast disintegrating anti-allergic film using hot-melt extrusion technology

Pimparade

Maurya

et al. 2017

European Journal of Pharmaceutics and Biopharmaceutics

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“…Such an Arrhenius behavior for the a-relaxation time from glassy to liquid state, has been already described as the 'strong' behavior [14]. It is coherent with the absence of heat capacity step on differential scanning calorimetry thermograms [15][16][17][18][19]. The high density of hydrogen bonds in cellulose explains such a strong behavior.…”

Section: Primary Relaxation Modes At Higher Temperature (T > 0°c)mentioning

confidence: 88%

Molecular mobility of poplar cell wall polymers studied by dielectric techniques

Jafarpour¹,

Dantras²,

Boudet³

et al. 2008

Journal of Non-Crystalline Solids

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In this work, thermally stimulated currents (TSC) analyzes combined with dynamic dielectric spectroscopy (DDS) have been applied to the investigation of polymers' molecular mobility involves in poplar cell wall. The molecular origin of the various dielectric relaxations has been determined. Cellulose and lignin effects in wood dielectric response were distinguished. The correlation between results obtained by both dielectric methods allows us to follow molecular mobility involved in delocalized movement as primary relaxation mode. For these two major components of wood, the evolution of relaxation times involve in a-relaxation mode is explained using the strong/fragile pattern. We compared the cellulose and lignin in situ and ex situ responses to interpret wood compound behavior. The importance of structural wood interactions which modified the molecular mobility of polymer components will be underlined.

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“…Compacts made at 16 kN with diazepam showed disintegration times of 85 sec. It also possesses a low water uptake (5.5%) at a relative humidity (RH) of 70% 23,24 .…”

Section: Lactose-lactitol (Pharmatose®)mentioning

confidence: 99%

Co-proccessed excipients with enhanced direct compression functionality for improved tableting performance

Rojas

Buckner

Kumar

2012

Drug Development and Industrial Pharmacy

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It is necessary to have excipients with excellent functional properties to compensate for the poor mechanical properties and low aqueous solubility of the emerging active ingredients. Therefore, around 80% of the current drugs are not suitable for direct compression and more advanced excipients are required. Further, conventional grades of excipients cannot accommodate the technologically advanced high speed rotary tablet presses which require a powder with excellent flow, good compressibility, compactibility, particle size distribution and homogeneity of the ingredients. Co-processed excipients have been created to enhance the functional properties of the excipients and reduce their drawbacks. Co-processing is defined as the combination of two or more excipients by a physical process. Co-processed excipients are adequate for direct compression since they become multifunctional and thus, their dilution potential is high eliminating the need for many excipients in a formulation. In some cases, they are able to hold up to 50% of the drug in a formulation rendering compacts of good tableting properties. This study describes and discusses the functionality enhancement of commercial and investigational excipients through co-processing.

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Water-Solid Interactions. III. Effect of Glass Transition Temperature,T_g, and Processing on Tensile Strength of Compacts of Lactose and Lactose/Polyvinyl Pyrrolidone

Cited by 31 publications

References 20 publications

Development and evaluation of an oral fast disintegrating anti-allergic film using hot-melt extrusion technology

Development and evaluation of an oral fast disintegrating anti-allergic film using hot-melt extrusion technology

Molecular mobility of poplar cell wall polymers studied by dielectric techniques

Co-proccessed excipients with enhanced direct compression functionality for improved tableting performance

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Water-Solid Interactions. III. Effect of Glass Transition Temperature,Tg, and Processing on Tensile Strength of Compacts of Lactose and Lactose/Polyvinyl Pyrrolidone

Cited by 31 publications

References 20 publications

Development and evaluation of an oral fast disintegrating anti-allergic film using hot-melt extrusion technology

Development and evaluation of an oral fast disintegrating anti-allergic film using hot-melt extrusion technology

Molecular mobility of poplar cell wall polymers studied by dielectric techniques

Co-proccessed excipients with enhanced direct compression functionality for improved tableting performance

Contact Info

Product

Resources

About

Water-Solid Interactions. III. Effect of Glass Transition Temperature,T_g, and Processing on Tensile Strength of Compacts of Lactose and Lactose/Polyvinyl Pyrrolidone