A pilot study of the in vitro antimicrobial activity and in vivo residual activity of chlorhexidine and acetic acid/boric acid impregnated cleansing wipes

Efficacy of Chlorhexidine Impregnated Wipes for the Local Dysbiosis in Atopic Dogs: A Multicentric Prospective Study

(1) Background: Dysbiosis is frequently observed in Canine Atopic Dermatitis (CAD). Antimicrobial treatment may be necessary to treat flare ups and the use of topical treatments is beneficial to prevent the development of bacterial resistance. Wipes are an easy way to apply antiseptic agents on the skin. The aim of this study was to evaluate the benefits of 3% chlorhexidine impregnated wipes (Pyoskin® wipes, MP Labo, France) on local areas of dysbiosis in dogs with CAD. (2) Methods: A total of 20 dogs suffering from CAD presented with localised areas of dysbiosis were included in this study. Affected areas were cleansed with the daily application of chlorhexidine wipes once a day for 14 days. Follow-up visits were scheduled after one and two weeks. Clinical signs (lesions and pruritus), dysbiosis scored by cytological counts (cocci and Malassezia) and investigator and owner global appreciation were evaluated. (3) Results: A statistically significant decrease in clinical scores and cytological counts were observed as soon as D7 and until D14. Both owner and investigator appreciation were considered high (4) Conclusions: The use of chlorhexidine impregnated wipes is a useful and easy way to manage localised dysbiosis in atopic dogs and allows limiting of systemic medication to prevent bacterial resistance.

Boric Acid in Milk Replacer as a Health Enhancer and Growth Promoter for Lambs in the Suckling Period

This study was performed to investigate the effects of boric acid supplementation in milk replacer of lambs in the suckling period on performance, biochemical parameters, the antioxidant system, fecal culture, and expression of some genes. During the suckling period, 60 lambs (4 days old) were randomly given four levels of boric acid (0, 30, 60, and 90 mg/kg body weight) via milk replacer for 57 days. The lambs supplemented with boric acid had a higher weight gain and better feed conversion ratio. Boric acid supplementation quadratically increased serum triglyceride, total protein, alkaline phosphatase, serum antioxidant activity and oxidative stress biomarkers, and fecal flora and decreased IL1β, IL10, iNOS, NF-kB, and TNF-α gene expressions. The effect of boric acid on rumen papilla development could not be determined since the animals were not slaughtered. In conclusion, the use of boric acid to lambs in the suckling period improved the average weekly body weight gain and feed conversion efficiency, positively affected some biochemical parameters, antioxidant system, and intestinal flora, and also affected gene expressions related to the immune system. Boric acid supplementation had a beneficial effect on the health and growth of suckling lambs.

In Vitro Effect of Eucalyptus Essential Oils and Antiseptics (Chlorhexidine Gluconate and Povidone-Iodine) against Bacterial Isolates from Equine Wounds

Considering the increasing antibiotics resistance, there has been a propensity to replace them with antiseptics when it comes to wound management and treatment. Nevertheless, in recent years, there have been reports regarding resistance to antiseptics by some bacterial strains. There is also concern about the environmental impact of these substances. The aim of this study was to compare the antimicrobial efficacy of antiseptics and eucalyptus essential oils on bacterial strains from horse's wounds. We used twelve Escherichia coli, eight Staphylococcus aureus, two Staphylococcus pseudintermedius, one Staphylococcus vitulinus and one Staphylococcus saprophyticus strains from equine wounds. The effect of Eucalyptus radiata essential oil, Eucalyptus globulus essential oil, povidone-iodine and chlorhexidine gluconate against the isolated strains was evaluated applying the Kirby-Baüer method. Regarding the Escherichia coli strains, E. radiata and the mixture of E. radiata and E. globulus had a better inhibitory effect than antiseptics. E. globulus had a better effect against most Staphylococcus spp. compared to E. radiata. For both Gram-negative and Gram-positive strains tested, chlorhexidine gluconate had a better inhibitory effect than povidone-iodine. The antibacterial efficacy of essential oils highlights their potential to substitute or complement the use of antiseptics and so reduce resistance to antiseptics.

Evaluation of residual antibacterial effects on canine skin surface and hair following treatment with five commercial mousse products against Staphylococcus pseudintermedius

BACKGROUND

Antibacterial effect studies of commercial antiseptics typically have evaluated hair and not the skin.

OBJECTIVES

To evaluate the antibacterial effects of mousse products on both canine skin and hair.

ANIMALS

Fifteen short-haired and eight long-haired dogs without skin disease.

MATERIALS AND METHODS

Five mousses were applied once: (1) 2% chlorhexidine and 2% miconazole; (2) 0.05% phytosphingosine; (3) 2% salicylic acid and 10% ethyl lactate; (4) 3% chlorhexidine and 0.5% climbazole; and (5) 2% chlorhexidine and 1% ketoconazole. Skin swabs and hair were collected from application sites before treatment, and at 1 h and at Day (D)2, D4, D8, D10 and D14 post-treatment. Skin swabs and hair were placed on Mueller-Hinton plates inoculated with Staphylococcus pseudintermedius inoculum suspension. Inhibition zones were measured after incubation.

RESULTS

Inhibition was not noted with mousses 2 and 3. In mousse 5, inhibition zone sizes produced by swabs from long- and short-haired dogs were not significantly different (p = 0.105), and all swabs and hair produced inhibition until D14, regardless of hair length. By contrast, in mousse 1, inhibition zones produced by swabs from long-haired dogs were smaller than those from short-haired dogs (p < 0.001), and swabs from long-haired dogs produced a shorter duration of bacterial inhibition than hair.

CONCLUSIONS AND CLINICAL RELEVANCE

The antibacterial effects of mousse 5 were not affected by hair length. Hair may be acceptable for evaluating effects on the skin in short-haired dogs. However, long hair may interfere with product distribution and duration of bacterial inhibition. Therefore, the evaluation of hair alone may overestimate clinically relevant antibacterial effects.

Effect on Cellular Vitality In Vitro of Novel APRF-Chlorhexidine Treated Membranes

INTRODUCTION

Chlorhexidine (CHX) has been used for some time in clinical practice as a local antiseptic agent with excellent efficacy. The combination of CHX with APRF (Advanced-platelet rich fibrin) membrane has the potential to stimulate tissue regeneration and to provide a bactericidal effect. We hypothesize that this may reduce the rate of infections development and protect cell viability.

AIM

The aim of this study was two-fold-to create a stable APRF membrane treated with different concentrations of CHX (0.01% and 0.02%) and to monitor its effect on the viability of PDL cells in vitro. This benefits the introduction of a new protocol for APRF membrane production -CHX-PRF and enriches the available evidence on the effect of this antiseptic agent on PDL (Periodontal ligament) cells.

MATERIALS AND METHODS

APRF membranes were prepared by the addition of two concentrations (0.01% and 0.02%) of CHX. Membranes without the antiseptic were also prepared and used as control samples. PDL cells were cultivated on the membranes for 72 h. Cell number and vitality were examined by fluorescent cell viability assays.

RESULTS

Our results demonstrated that a concentration of 0.01% CHX allowed the production of a stable APRF membrane. This concentration slightly reduced the viability of PDL cells to 96.7%, but significantly decreased the average number of cells attached to the membrane-149 ± 16.5 cells/field compared to controls -336 ± 26.9 cells/field. APRF-CHX 0.02% membranes were unstable, indicating a dose-dependent cytotoxic effect of CHX.

CONCLUSIONS

The introduced novel protocol leads to the production of a new type of APRF membrane-CHX-PRF. The incorporation of an antiseptic into the APRF membrane can improve its bactericidal activity and might serve as an important step for the prevention of postoperative infections.

Stability of dexamethasone sodium phosphate over a 28 day period when added to commercial veterinary wipe and pad products

Background - Topical glucocorticoids commonly are used in the management of canine atopic dermatitis to control and prevent allergy flares. Compounding commercial veterinary wipe/pad products to include dexamethasone sodium phosphate (Dex SP) can simplify treatment protocols for owners. Dex SP has not been evaluated for stability when added to wipes/pads. Hypothesis/objective - To evaluate the stability of Dex SP when compounded in three commercial veterinary wipe/pad products containing chlorhexidine. Methods and materials - Dex SP (Dexium, Bimeda; Oakbrook Terrace, IL, USA) was added to TrizCHLOR 4 wipes (TCL; Dechra Veterinary Products; Overland Park, KS, USA), KetoHex wipes (KH; VetOne; Boise, ID, USA), and DOUXO Chlorhexidine Pads (DCP; Ceva Animal Health; Lenexa, KS, USA), creating a 0.04% Dex SP solution. The concentration of Dex SP was measured in μg/mL/wipe or pad in triplicate at Day (D)0, D14 and D28 using liquid chromatography with tandem mass spectrometry. The amount of Dex SP at baseline (D0) was compared to the amount recovered at D14 and D28. Results - The amount of Dex SP in TCL and KH was unchanged between D0, D14 and D28. The amount of Dex SP recovered from DCP on D0 (mean 89.40 μg/mL/pad), D14 (mean 65.58 μg/mL/pad) and D28 (mean 68.09 μg/mL/pad) revealed a significant decline from D0 to D14 (P = 0.004). Conclusions and clinical importance - These data provide evidence that Dex SP is stable for 28 days in TCL and KH, and not in DCP from D0 to D14 or D28 days.

Characterization of reduced susceptibility to chlorhexidine among Gram-negative bacteria

Chlorhexidine gluconate (CHG) is one of the most commonly used antiseptic, acting against Gram-negative, Gram-positive bacteria, yeast and fungi. However, over use may lead to reduced susceptibility of different bacteria to CHG. This study aimed to characterize the CHG susceptibility among Gram-negative strains in Israel, to evaluate factors that may affect this susceptibility, and to compare CHG susceptibility between ESBLs bacteria to strains without these enzymes. P. aeruginosa, P. mirabilis, K. spp, E. coli, and A. baumannii were isolated from clinical samples of 193 patients hospitalized at Padeh-Poriya Medical Center. Phenotypic CHG susceptibility was assessed by determining minimum inhibitory concentration (MIC) and minimum bactericidal concentration (MBC). The highest CHG MIC was found among P. mirabilis. The differences between the CHG MIC values among the different strains were statistically significant (p <0.001). ESBL-positive strains had higher MIC values as compared to ESBL-negative strains (p =0.030). A significant association was found between CHG susceptibility and sample source (p =0.015). In conclusion, the information gathered here significantly improves our knowledge on the reduced susceptibility to CHG among Gram-negative bacteria in Israel. Moreover, ESBL-positive bacteria are less susceptible to CHG and finally, bacteria in sputum, wounds, and body fluids are less CHG-susceptible.

Acetic acid and the skin: a review of vinegar in dermatology

Vinegar is commonly used as a home remedy for many skin problems. It is important for dermatologists to understand the evidence supporting its use in skin disease, as well as potential adverse effects, so they can properly counsel patients on the safe use of this widely available treatment. Vinegar possesses antimicrobial and antioxidant properties that provide utility in wound care as well as bacterial and fungal infections. There is also evidence to support its use in pruritus, head lice removal, and treatment of striae gravidarum. While generally safe, inappropriate use can result in damage to the skin. In this review, we discuss the evidence supporting vinegar as a treatment for skin disease, as well as adverse events reported from misuse, to provide dermatologists the knowledge to counsel patients on the safe and appropriate use of vinegar.

Performance of Daily Pads Containing Ophytrium and Chlorhexidine Digluconate 3% in Dogs With Local Cutaneous Bacterial and/or Malassezia Overgrowth

Local disturbances of the microbiota are common in dogs with underlying skin conditions. Antiseptic topical products are indicated to control such superficial disorders. The objective of this study was to evaluate the performance of a daily application of pads containing Ophytrium and chlorhexidine digluconate 3% (DOUXO® S3 PYO Pads, Ceva Santé Animale, France) in dogs with focal bacterial and/or Malassezia overgrowth. Eighteen dogs with focal skin dysbiosis were included in the analysis of this prospective, multicentric, field study. Dogs received daily pad applications for 14 days. Bacterial and/or Malassezia counts per microscopic field and a global score of the most affected patch (0-17 scale based on extension, severity, bacterial, and Malassezia cytological scores) were assessed by a veterinarian and pruritus by the owner (Pruritus Visual Analog Scale) on days (D)0, D7, D14. Owner and veterinarian evaluations for performance and satisfaction were recorded. Eleven dogs had primarily cocci overgrowth and seven mostly Malassezia. Mean bacterial and Malassezia counts decreased after 14 days (6.9-1.1; 7.6-1.5, respectively); 88.9% of dogs achieved a ≥70% microbial decrease and had ≤2 bacteria and ≤1 Malassezia per oil field. Mean global score of the most affected patch and pruritus score significantly improved at D14, respectively, from 8.6 to 2.6 and 4.5 to 1.2 (P < 0.05 each, mean improvements of 70.4 and 71.4%, respectively). Global veterinary assessment of the protocol was satisfactory, good, or excellent in 88.9% of cases. Most owners (94.4%) considered the protocol efficacious. Using a pad containing Ophytrium and chlorhexidine digluconate 3% daily for 14 days improved the skin condition and pruritus of dogs with local dysbiosis, resulting in high satisfaction levels for both veterinarians and dog owners.