Application of a Pull on a Disk Method to Measure Surface Tension of Liquids

Carvalho, Thiago C.; Horng, Michelle; McConville, Jason T.

doi:10.1208/s12249-011-9737-4

Cited by 4 publications

(3 citation statements)

References 26 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…There are innumerous methods available to measure surface tension, including the Capillary Rise and the Du Noüy ring methods . Recently, our group has developed a simple and quick method using a Texture Analyser . Likewise, viscosity can be measured using various techniques, such as: capillary (or Ostwald‐Cannon‐Fenske) viscometer, falling‐sphere viscometer, and rotational (cup‐and‐bob, and cone‐and‐plate) viscometers…”

Section: Characterization Of Nebulizer Formulationsmentioning

confidence: 99%

“…[222,223] Recently, our group has developed a simple and quick method using a Texture Analyser. [224] Likewise, viscosity can be measured using various techniques, such as: capillary (or Ostwald-Cannon-Fenske) viscometer, falling-sphere viscometer, and rotational (cup-and-bob, and cone-and-plate) viscometers. [225,226] When dispersed systems (e.g.…”

Section: Characterization Of Nebulizer Formulationsmentioning

confidence: 99%

See 1 more Smart Citation

The function and performance of aqueous aerosol devices for inhalation therapy

Carvalho

McConville

2016

Journal of Pharmacy and Pharmacology

View full text Add to dashboard Cite

Objectives In this review paper, we explore the interaction between the functioning mechanism of different nebulizers and the physicochemical properties of the formulations for several types of devices, namely jet, ultrasonic and vibrating-mesh nebulizers; colliding and extruded jets; electrohydrodynamic mechanism; surface acoustic wave microfluidic atomization; and capillary aerosol generation. Key findings Nebulization is the transformation of bulk liquids into droplets. For inhalation therapy, nebulizers are widely used to aerosolize aqueous systems, such as solutions and suspensions. The interaction between the functioning mechanism of different nebulizers and the physicochemical properties of the formulations plays a significant role in the performance of aerosol generation appropriate for pulmonary delivery. Certain types of nebulizers have consistently presented temperature increase during the nebulization event. Therefore, careful consideration should be given when evaluating thermo-labile drugs, such as protein therapeutics. We also present the general approaches for characterization of nebulizer formulations. Summary In conclusion, the interplay between the dosage form (i.e. aqueous systems) and the specific type of device for aerosol generation determines the effectiveness of drug delivery in nebulization therapies, thus requiring extensive understanding and characterization.

show abstract

Section: Characterization Of Nebulizer Formulationsmentioning

confidence: 99%

Section: Characterization Of Nebulizer Formulationsmentioning

confidence: 99%

The function and performance of aqueous aerosol devices for inhalation therapy

Carvalho

McConville

2016

Journal of Pharmacy and Pharmacology

View full text Add to dashboard Cite

show abstract

“…The determination of the surface tension of silicones was performed using the method of ring separation [22]. This method consists of determining the amount of force required to separate the ring wetted by the test liquid from its surface.…”

Section: Characterization Of Siliconesmentioning

confidence: 99%

The Use of Silicones as Extractants of Biologically Active Substances from Vegetable Raw Materials

et al. 2021

View full text Add to dashboard Cite

Based on theoretical studies, the authors of this paper propose the use of cosmetic organosilicon polymers (commonly called silicones) for the extraction of a complex of biologically active substances contained in vegetable raw materials. It is important to note that the biological molecules do not interact with the organosilicones and, therefore, their properties are not altered after the extraction. In this work, we investigate the efficiency of several polyorganosiloxanes as extractants of vegetable raw materials (Calendula Officialis L. and Artemisia Absinthium L.) useful for the preparation of cosmetic emulsions. Specifically, the extraction studies were conducted by using polyorganosiloxanes with a single component (polydimethylsiloxane Silicone Oil 350 cSt, cyclopentasiloxane BRB CM 50, and phenyltrimethicone BRB PTM 20) as well as a mixture (PEG-12 polydimethylsiloxane BRB 526, a solution of dimethiconol in cyclopentasiloxane BRB 1834, and amodimethicone BRB 1288). Compared to water and ethyl alcohol, polyorganosiloxanes are more effective in the extraction of the biologically active substances that are contained in the raw plants. Interestingly, the combination of different polyorganosiloxanes improved the extraction efficiency. The attained knowledge can be helpful in the development of a novel protocol for the formulation of emulsions appealing for cosmetic applications.

show abstract