Combined Skin Moisturization of Liposomal Serine Incorporated in Hydrogels Prepared with Carbopol ETD 2020, Rhesperse RM 100 and Hyaluronic Acid

Polysaccharide hydrogel platforms as suitable carriers of liposomes and extracellular vesicles for dermal applications

Lipid-based nanocarriers have been extensively investigated for their application in drug delivery. Particularly, liposomes are now clinically established for treating various diseases such as fungal infections. In contrast, extracellular vesicles (EVs) - small cell-derived nanoparticles involved in cellular communication - have just recently sparked interest as drug carriers but their development is still at the preclinical level. To drive this development further, the methods and technologies exploited in the context of liposome research should be applied in the domain of EVs to facilitate and accelerate their clinical translation. One of the crucial steps for EV-based therapeutics is designing them as proper dosage forms for specific applications. This review offers a comprehensive overview of state-of-the-art polysaccharide-based hydrogel platforms designed for artificial and natural vesicles with application in drug delivery to the skin. We discuss their various physicochemical and biological properties and try to create a sound basis for the optimization of EV-embedded hydrogels as versatile therapeutic avenues.

Hot spring bathing accelerates wound healing and enhances heat retention effect in guinea pigs

This study aimed to demonstrate the effects of hot springs on wound healing and heat retention by performing comparative experiments with tap water. The hot spring water used in this study was from an alkaline hot spring that was rich in sodium and chloride ions and exhibited high reducibility. Guinea pigs were divided into a hot spring bathing group and a tap water bathing group, and a bathing test was conducted for eight consecutive days. A comparison of the plasma amino acid composition between the two groups after the bathing test revealed differences in the concentrations of several amino acids associated with wound healing. Image analysis demonstrated that wounds made on the abdominal skin of guinea pigs were significantly contracted by hot spring bathing compared to that by tap water bathing, and histopathological findings showed that wound healing was accelerated. In the thermography test, changes in body surface temperature after bathing were investigated in both groups. The heat retention effect was not observed in the tap water bathing group after bathing, whereas it was enhanced in the hot spring bathing group until 30 min after bathing. In conclusion, this study demonstrated that hot spring bathing accelerates wound healing and has a more significant heat retention effect than tap water bathing.

Practical view of the topical treatment of peripheral venous catheter-related phlebitis: A scoping review

OBJECTIVE

To identify and analyse topical treatments for peripheral venous catheter (PVC)-related phlebitis.

DESIGN

The methodological framework used to make this scoping review was developed by Arksey and O'Malley (2005; (International Journal of Social Research Methodology, 8, 2005 and 19)).

DATA SOURCES

A literature search was performed in various databases such as PubMed, Scopus, CINAHL, Cochrane, Cuiden, Web of Science, WorldWideScience and Joanna Briggs. Additionally, articles from informal sources were incorporated.

REVIEW METHODS

A search and selection were made of experimental, quasi-experimental and pre-experimental studies published between January 2015 and September 2020 that consider the use of topical products for the treatment of hospital in-patients with PVC-related phlebitis. Appraisal of the methodological quality of the study was performed independently by pairs of reviewers on the basis of the Cochrane Collaboration tool. The review was based on the guidelines in the PRISMA-ScR statement.

RESULTS

Twenty-two articles were selected (8 randomised controlled trials (RCTs), 12 quasi-RCTs and 2 pre-experimental studies) which considered treatments applied to a total of 2042 adult patients. The topical treatments described were classified into physical measures and phytotherapeutic and pharmacological treatments. The physical measures are easy to apply, but their effectiveness is limited. The main limitation of the phytotherapeutic treatments is their marketing and use in eastern culture. The best performing pharmacological treatment is the application of magnesium sulphate either with or without glycerine. These products can be presented in different pharmaceutical formulas: ointment, solution and oil.

CONCLUSIONS AND RELEVANCE TO CLINICAL PRACTICE

The evidence currently available on this issue is limited and often of dubious methodological rigour. Further studies are required on the treatment and follow-up of intravenous therapy-related phlebitis in different national and international contexts.

Comparison Study of the Effects of Cationic Liposomes on Delivery across 3D Skin Tissue and Whitening Effects in Pigmented 3D Skin

Charged phospholipids are employed to formulate liposomes with different surface charges to enhance the permeation of active ingredients through epidermal layers. Although 3D skin tissue is widely employed as an alternative to permeation studies using animal skin, only a small number of studies have compared the difference between these skin models. Liposomal delivery strategies are investigated herein, through 3D skin tissue based on their surface charges. Cationic, anionic, and neutral liposomes are formulated and their size, zeta-potential, and morphology are characterized using dynamic light scattering and cryogenic-transmission electron microscopy (cryo-TEM). A Franz diffusion cell is employed to determine the delivery efficiency of various liposomes, where all liposomes do not exhibit any recognizable difference of permeation through the synthetic membrane. When the fluorescence liposomes are applied to 3D skin, considerable fluorescence intensity is observed at the stratum cornea and epithelium layers. Compared to other liposomes, cationic liposomes exhibit the highest fluorescence intensity, suggesting the enhanced permeation of liposomes through the 3D skin layers. Finally, the ability of niacinamide (NA)-incorporated liposomes to suppress melanin transfer in pigmented 3D skin is examined, where cationic liposomes exhibit the highest degree of whitening effects.

Decrease of superficial serine and lactate in the stratum corneum due to repetitive frictional trauma

BACKGROUND

Repetitive frictional trauma can be induced in daily and occupational activities, such as daily ablutions with washcloths. The influence of frictional trauma on the skin barrier function, especially in the perspective of the components of stratum corneum (SC), has not yet been studied in detail. Raman spectroscopy is a noninvasive optical technique based on inelastic light scattering that is capable of measuring several components in the skin. In this study, we used Raman spectroscopy to investigate the change in natural moisturizing factor (NMF) components in the SC following repetitive physical friction.

METHODS

Six healthy volunteers, who were included in the study after obtaining an informed consent, performed repetitive washing with soap using nylon towels on the forearm twice a day for 2 weeks and used Raman spectroscopy to investigate the change in NMF components in the SC.

RESULTS

Compared with the control, which was washed with soap at the same frequency on the opposite forearm, a significant increase in the transepidermal water loss (TEWL) and a decrease in NMF, serine, and total lactate, responsible for maintenance the SC hydration and structuring and maintaining the epidermal barrier function, in the SC were found.

CONCLUSIONS

Increased TEWL and decreased NMF are considered as an etiology of atopic dermatitis (AD); therefore, our findings provide evidence that daily activities with repetitive frictional trauma may be related to the predisposition of AD.