Stability and Structural Analysis Using Small-Angle Neutron Scattering for Foam of Homogeneous Polyoxyethylene-Type Nonionic Surfactants with Multibranched Chains.

Small-angle neutron scattering can provide insight into the microstructure of the surfactant-stabilized foam. In this study, small-angle neutron scattering in combination with other techniques was employed to determine the microstructure of the foams stabilized using novel homogeneous polyoxyethylene (EO) alkyl ether-type nonionic surfactants with multibranched double chains (bC7-bC9EO12). Similarly, homogeneous EO-type nonionic surfactants with linear double chains (C8-C8EO12) and a linear single chain (C18EO12) were used. bC7-bC9EO12 and C8-C8EO12 surfactants with branched hydrophobic chains or double chains increased the foam stability and suppressed the draining. Furthermore, they formed rod-like micelles, and C18EO12 formed spherical micelles in the bulk solution. The foam film containing the plateau border contained micelles identical with those found in the bulk solution. For bC7-bC9EO12 and C8-C8EO12, the average radius of the bubbles immediately after foaming was of the order of hundreds of µm. Finally, these radii grew to the order of thousands of µm. Thus, a significant correlation was observed between the micellar structure and the stability of these foams.

Mite control effect of branched chain fatty acid on the house dust mite Dermatophagoides pteronyssinus.

House dust mites, Dermatophagoides pteronyssinus are present in the indoor environments, such as pillows and carpets. In this study, we investigated the mite control effect of branched chain fatty acids (2-ethylhexanoic acid (iso-C8), 2-butyloctanoic acid (iso-C12), isopalmitic acid (iso-C16) and their mechanism of action. These fatty acids showed a higher acaricidal activity than the straight chain fatty acids. Among these, iso-C12 had the highest acaricidal activity (LC50: 13mM) and more than 50% repellence rate at 0.20% (8.0mM) concentration. In the fumigant mortality bioassay, iso-C8 was 4 times more toxic than iso-C12 and isoC-16 in the gas phase. However, all branched chain fatty acids showed higher acaricidal activities on direct contact than fumigation. As the concentration of these fatty acids decreased, the number of deaths decreased and the number of escapes increased. There was no significant change in the mite epidermis due to contact with any of the fatty acids used. All branched chain fatty acids immobilized more than half of the mites within 90min of exposure. These results were consistent with the tendency of immobilizer type miticides targeting the respiratory system.

Anti-Acanthamoeba effect of potassium isostearate for use as a multipurpose solution.

Acanthamoeba is one of the organisms that cause corneal infection. In this study, attention was focused on potassium isostearate (iso-C18K, a branched chain fatty acid salt) for use in a multipurpose solution (MPS) against Acanthamoeba. An anti-amoebic test against Acanthamoeba castellanii ATCC 30010 (trophozoites type) was conducted. As a result, a growth reduction effect of 4 log units (99.99% suppression) was observed after incubation with 150 mM (5.0 w/v%) iso-C18K for 10 minutes. Furthermore, after the amoeba suspension was mixed with iso-C18K, disruption of cell membranes were observed, and the minimum amoebacidal concentration (MAC) at that time was 9.6 mM (0.31 w/v%). To evaluate the effectiveness as an MPS, assessment by verification tests was conducted using contact lenses. Reducing the concentration of iso-C18K caused a decrease in the number of viable cells, which was confirmed at a MAC of 1.2 mM (0.039 w/v%).