sodium-hypochlorite and Cat-Diseases

Successful elimination of dermatophytosis from cats requires clipping of the haircoat, weekly or twice-weekly antifungal dips, and systemic antifungal therapy. In addition, the environment should be repeatedly decontaminated with an appropriate chemical, for example, household bleach. Successful treatment may take weeks to months depending on the circumstances. Monitoring response to therapy is best done via toothbrush-culturing techniques and inoculation of the bristles onto fungal culture media. Currently, there is no successful fungal vaccine, and prevention of reinfection can be difficult and requires careful quarantine measures.

Topics: Animals; Antifungal Agents; Cat Diseases; Cats; Dermatomycoses; Disinfection; Microsporum; Sodium Hypochlorite

The objective of this study was to determine the efficacy of decontamination of fabric exposed to Microsporum canis hairs and spores by mechanical washing using hot or cold water with or without a sodium hypochlorite additive, and to field test a washing protocol for terry cloth and denim exposed to M canis via direct contact with infected cats.. Cotton, terry cloth and denim fabric swatches were contaminated with isolated infective spores and hairs and then washed in water at temperatures of 30°C and 60°C, with and without a sodium hypochlorite additive, and with and without mechanical drying. Terry cloth and denim were contaminated by direct contact with infected kittens and washed at 30°C until culture-negative.. All prelaundering samples had >300 colony forming units (cfu)/plate. Experimentally contaminated fabrics were culture-negative, regardless of fabric type, water temperature, the presence or absence of sodium hypochlorite, or tumble drying after one wash. After one wash, 22/34 (65%) of terry cloth towels and 12/20 (60%) denim fabric squares were culture-positive, but the infective load was minimal (1-5 cfu/plate). After two washes in cold water there was no detectable contamination of fabric. The rinse water was not contaminated with spores. The laundry tub was easily decontaminated via mechanical cleaning followed by use of a disinfectant.. Washable textiles exposed to M canis can be decontaminated via mechanical washes in cold water without the addition of bleach. Two washes are recommended to ensure removal of spores. Laundry can be effectively decontaminated by washing twice in cold water on a long wash cycle (for ⩾14 mins). It is important to ensure maximal agitation (ie, the machine should not be overloaded).

Topics: Animals; Cat Diseases; Cats; Colony Count, Microbial; Cotton Fiber; Decontamination; Dermatomycoses; Disinfectants; Hair; Laundering; Microsporum; Sodium Hypochlorite; Spores, Fungal; Temperature

The susceptibility of Sporothrix schenckii isolates from clinical cases of canine, feline and human sporotrichosis, and from the environment, was evaluated with 4% sodium hypochlorite and 6.6% chlorhexidine digluconate using the broth microdilution, agar diffusion and direct exposure techniques. The minimal inhibitory concentration was smaller than 0.8% for chlorhexidine digluconate and between 8% and 4% for sodium hypochlorite. Inhibition zones were not found in agar diffusion for sodium hypochlorite, and zones averaging 1.9 mm were found for chlorhexidine digluconate. In the direct exposure test, sodium hypochlorite demonstrated best performance at 20 min of contact, as chlorhexidine digluconate presented little antimicrobial activity.

Topics: Animals; Cat Diseases; Cats; Chlorhexidine; Dog Diseases; Dogs; Humans; Microbial Sensitivity Tests; Sodium Hypochlorite; Sporothrix; Sporotrichosis

Giardia sp infection was believed responsible for chronic, intermittent diarrhea in a group of 14 Persian cats. Seven of the cats were shedding Giardia sp cysts, and 6 of these cats had diarrhea at the time of fecal examination. Conversely, only 1 of 6 clinically normal cats in the group was shedding Giardia sp cysts. Cysts were not detected in feces of 2 cats with diarrhea. Cats less than or equal to 3 years old were more likely to be found shedding cysts. The parasite apparently was eradicated from the cattery by a combination of cage disinfection (1% sodium hypochlorite solution) and oral furazolidone treatment (4 mg/kg of body weight, BID for 5 consecutive days). During treatment, clinical signs resolved, and all cats remained clinically normal 2 months after treatment.

Topics: Animals; Cat Diseases; Cats; Diarrhea; Disinfection; Furazolidone; Giardiasis; Metronidazole; Sodium Hypochlorite

In the laboratory cat colony consisted of 14 Korats and 8 Japanese native cats, the disease characterized by upper respiratory signs occurred. Seven cytopathogenic agents were isolated from the oropharyngeal swabs and necropsy materials of affected cats by means of inoculation to primary feline kidney cell cultures. One of the isolates (KS-1 strain) was identical with feline herpesvirus (FHV), and appeared to be a causal agent of the trouble. Properties of the KS-1 strain were in general agreement with the known strains of FHV. Serologic examination and clinical analysis suggested that Japanese native cats became carriers, re-excreted the virus and spread it to susceptible cats. Virucidal activities of several disinfectants against FHV, comparing with a feline calicivirus (FCV), were studied and the following conclusions reached: 1) Sodium hypochlorite, iodine complex, benzethonium chloride and chlorhexidine were effective against FHV at commonly used concentrations. 2) Among chemicals tested sodium hypochlorite was most effective against FCV and followed by iodine complex. 3) Benzethonium chloride and chlorhexidine had little efficacy against FCV at commonly used doses.

Topics: Animals; Animals, Laboratory; Cat Diseases; Cats; Disinfectants; Female; Herpesviridae; Herpesviridae Infections; Male; Respiratory Tract Infections; Sodium Hypochlorite