Your search keyword '"pemulen"' showing total 7 results

1. Les propriétés, actions et principales problématiques des gels de Pemulen®TR-2

Author

Sofia Hennen Rodriguez

Subjects

Pemulen, polyacrylic acid, base, gel, cleaning, Fine Arts, Arts in general, NX1-820

Abstract

Pemulen®TR-2 is a polyacrylic acid that needs to be neutralised with an alkali in an aqueous environment, allowing the fabrication of cleaning gels. However, these gels raise several questions and many studies do not recommend the base generally used, the triethanolamine. On one hand, the diverse properties and actions of these gels will be discussed. On the other hand, a selection of bases will be studied in a theoretical and experimental point of view, in order to improve the gel formulations and to reduce possible risks.

Published

2018

2. Inhibitory effect of emulsifiers in sedds on protease activity: Just an illusion?

Author

Lupo, Noemi, Fidahic, Una, Hetényi, Gergely, Griesser, Janine, and Bernkop-Schnürch, Andreas

Subjects

*STABILIZING agents, *PANCREATIC fistula, *TRYPSIN, *CHYMOTRYPSIN, *POLYETHYLENE glycol

Abstract

Aim Evaluation of inhibitory effect of emulsifiers on pancreatic trypsin and α-chymotrypsin. Methods The inhibitory effect of Cremophor EL, Cremophor RH 40, Brij O10, Tween 20, polyethylene glycol 8000, polyethylene glycol 400, Carbitol, Pemulen TR-1, Pemulen TR-2, Carbopol Ultrez 20 and Carbopol Ultrez 21 on pancreatic trypsin and α-chymotrypsin was tested. BAEE ( N α-Benzoyl- l -arginine ethyl ester), BTEE ( N -Benzoyl- l -tyrosine ethyl ester), casein and insulin were used as substrates for trypsin and α-chymotrypsin. SEDDS containing Pemulen TR-2 were developed, loaded with insulin-DMPG (dimyristoylphosphatidylglycerol) complex, characterized and tested regarding the protective effect towards the proteolytic degradation of insulin. Results Cremophor EL, Cremophor RH 40, Brij O10, Tween 20, polyethylene glycol 8000, polyethylene glycol 400, Carbitol did not show any inhibitory effect towards trypsin and α-chymotrypsin, whereas Pemulen TR-1, Pemulen TR-2, Carbopol Ultrez 20 and Carbopol Ultrez 21 inhibited the enzymes in a concentration dependent manner. Moreover, Pemulen and Carbopol Ultrez emulsifiers exhibited comparable inhibitory properties (p > 0.05). The incorporation of 0.34% w/w of Pemulen TR-2 in SEDDS decreased the degradation rate of the loaded insulin-DMPG complex compared to the blank formulation (p < 0.05). Conclusion The present study revealed that commonly used emulsifiers in SEDDS do not have inhibitory properties on the proteolytic activity of trypsin and α-chymotrypsin. Moreover, it was demonstrated that the incorporation of emulsifiers with inhibitory properties towards trypsin and α-chymotrypsin in SEDDS play a minor role in the protection of embedded drugs from enzymatic degradation. [ABSTRACT FROM AUTHOR]

Published

2017

3. An investigation into the drug release from ibuprofen matrix tablets with ethylcellulose and some poly-acrylate polymers.

Author

Tabandeh, Hosseinali and Alireza Mortazavi, Seyed

Abstract

This study was performed to achieve sustained-release Ibuprofen matrix tablets with a zero-order release kinetic while most of the previous formulations have shown Higuchi release kinetic. Considering the results from previous studies, ethyl cellulose, Carbopol 934P, Carbopol 974P, and Pemulen TR-1 were used at different amounts for preparation of the tablets by direct compression. The release profiles were studied in a two-stage release test using non-linear regression analysis. Carbopols 934P and 974P could not sustain the release adequately while Pemulen TR-1 had too strong sustaining effect. Therefore, combination formulations were considered and studied. The release profiles of ethyl cellulose formulation and the combination formulation consisting Carbopol 934P and Pemulen TR-1 best fitted in Higuchi model, although the zero-order model was not completely rejected. However, the kinetic model of release from the combination formulation consisting Carbopol 974P and Pemulen TR-1 changed to zero-order indicating the most constant release rate among formulations. This was speculated to be due to some erosion of the gel, as well as some interaction of the hydrophobic chain of Pemulen TR-1 with Ibuprofen. Therefore, this formulation is suggested for directly compressed sustained-release matrix tablets of Ibuprofen with a more constant release rate. [ABSTRACT FROM AUTHOR]

Published

2014

4. Increased water transport in PDMS silicone films by addition of excipients.

Author

Borde, Annika, Larsson, Mikael, Odelberg, Ylva, Hagman, Joel, Löwenhielm, Peter, and Larsson, Anette

Subjects

POLYDIMETHYLSILOXANE, SILICONES, CROSSLINKED polymers, THIN films, EXCIPIENTS, SCANNING electron microscopy

Abstract

Abstract: The development of new adhesive wound care products intended for an application over a prolonged time requires good water transporting properties of the adhesive for the maintenance of a suitable environment around the wound. The ability of polydimethylsiloxane (PDMS)-based silicone films to transport water has led to its use in skin pressure-sensitive adhesives and it would be advantageous to find ways for controlling or increasing water transport across PDMS films in order to be able to develop improved skin adhesives. In this study we present a way to increase water transport in such films by the addition of hydrophilic excipients. Three hydrophilic additives, highly water-soluble sucrose and the two superabsorbent polymers (SAP) Carbopol® and Pemulen™, were investigated. The effect of the excipients was characterized by water transport studies, swelling tests, scanning electron microscopy imaging and confocal microscopy. The cross-linked polymers, primarily Pemulen™, were efficient water transport enhancers, whereas sucrose did not show any effect. The effect of the additives seemed to correlate with their water binding capacity. For SAPs the formation of a percolating structure by swollen polymer was also suggested, which enhances water penetration by the higher volume fraction of areas with a higher diffusion constant (swollen SAP), leading to a faster transport through the entire film. [Copyright &y& Elsevier]

Published

2012

5. Optimized formulation for topical administration of clotrimazole using Pemulen polymeric emulsifier.

Author

Shahin, Mostafa, Hady, Seham Abdel, Hammad, Mohammed, and Mortada, Nahed

Subjects

ANTIFUNGAL agents, DRUG administration, EMULSIONS (Pharmacy), IMIDAZOLES, DRUG delivery devices, DRUG derivatives, MEDICAL polymers, MATHEMATICAL optimization, THERAPEUTICS

Abstract

Background: Emulgel topical formulation is a vehicle of potential for topical delivery of antifungal drugs. Methods: The imidazole derivative antifungal drug, clotrimazole (CZ), was formulated into emulgels using two grades of hydrophobically modified co-polymers of acrylic acid, namely Pemulen TR1 and TR2. The prepared emulgels were evaluated for their rheological properties, short- and long-term stability, in vitro release at 37°°C. Microbiological evaluation of the formula showed that optimum stability and release was carried out to measure its antifungal activity. Results: All formulae showed non-Newtonian shear thinning behavior with little thixotropy or antithixotropy. Five of the prepared formulae showed good physical stability under different treatment conditions. Isopropyl myristate (IPM) emulgels exhibited higher rate of CZ release than either jojoba oil (JB) or liquid paraffin-based emulgels. A selected formula containing JB together with a combination of Pemulen TR1 and TR2 showed excellent stability as well as high rate of CZ release. Microbiological evaluation of the selected formula containing similar amount of CZ revealed 1.2-folds increase in the antifungal activity compared to commercially available formulation. Conclusion: Emulgel dosage form based on Pemulen polymeric emulsifier and JB is a promising vehicle for topical delivery of CZ and further in vivo animal studies are recommended. [ABSTRACT FROM AUTHOR]

Published

2011

6. Oral-based controlled release formulations using poly(acrylic acid) microgels.

Author

Wahlgren, Marie, Christensen, Karin Löwenstein, Jørgensen, Erik Valentin, Svensson, Anna, and Ulvenlund, Stefan

Subjects

AGGLOMERATION (Materials), DIAZEPAM, STABILIZING agents, ACRYLIC acid, BENZODIAZEPINES

Abstract

Aim: To investigate the release of hydrophobic and hydrophilic substances from tablets containing Pemulen and Carbopol as excipients. Method: The dissolution patterns of a hydrophobic (diazepam) and a hydrophilic active substance (midodrine-HCl) from different tablet formulations containing a nonmodified polyacrylic microgel (Carbopol 981 F) or a hydrophobically modified polyacrylic microgel (Pemulen®) have been studied. Possible differences in dissolution in phosphate buffer (pH 6.8) and in 0.1 M HCl between tablets produced using wet granulation and direct compression were also investigated. Results: Tablets produced by wet granulation had a greater effect on the release of active substance from the tablets. No major differences were observed in the release patterns of the hydrophilic substance midodrine-HCl from wet granulated tablets based on Carbopol and Pemulen. However, the release pattern of the more hydrophobic drug substance, diazepam, differed considerably between the two polymers. Wet granulation gave reproducible release patterns. The release patterns from the polymers differed considerably at pH 6.8 but were similar at low pH. Conclusions: The release of the diazepam from the hydrophobic polymer Pemulen was very slow, and the release was close to zero order. [ABSTRACT FROM AUTHOR]

Published

2009

7. Increased water transport in PDMS silicone films by addition of excipients

Author

Annika Borde, Mikael Larsson, Ylva Odelberg, Anette Larsson, Peter Löwenhielm, Joel H Hagman, Borde, Annika, Larsson, Mikael, Odelberg, Ylva, Hagman, Joel, Lowenhielm, Peter, and Larsson, Anette

Subjects

Sucrose, Materials science, water transport, Biomedical Engineering, Acrylic Resins, Silicones, Biochemistry, Permeability, Biomaterials, Excipients, chemistry.chemical_compound, Motion, Silicone, medicine, Dimethylpolysiloxanes, Composite material, Molecular Biology, chemistry.chemical_classification, Water transport, Microscopy, Confocal, PDMS silicone film, Polydimethylsiloxane, Adhesiveness, Water, General Medicine, Polymer, superabsorbent polymer, chemistry, Superabsorbent polymer, pemulen, carbopol, Microscopy, Electron, Scanning, Polyvinyls, Adhesive, Swelling, medicine.symptom, Powders, Water binding, Biotechnology

Abstract

The development of new adhesive wound care products intended for an application over a prolonged time requires good water transporting properties of the adhesive for the maintenance of a suitable environment around the wound. The ability of polydimethylsiloxane (PDMS)-based silicone films to transport water has led to its use in skin pressure-sensitive adhesives and it would be advantageous to find ways for controlling or increasing water transport across PDMS films in order to be able to develop improved skin adhesives. In this study we present a way to increase water transport in such films by the addition of hydrophilic excipients. Three hydrophilic additives, highly water-soluble sucrose and the two superabsorbent polymers (SAP) Carbopol® and Pemulen™, were investigated. The effect of the excipients was characterized by water transport studies, swelling tests, scanning electron microscopy imaging and confocal microscopy. The cross-linked polymers, primarily Pemulen™, were efficient water transport enhancers, whereas sucrose did not show any effect. The effect of the additives seemed to correlate with their water binding capacity. For SAPs the formation of a percolating structure by swollen polymer was also suggested, which enhances water penetration by the higher volume fraction of areas with a higher diffusion constant (swollen SAP), leading to a faster transport through the entire film. Refereed/Peer-reviewed

Published

2011