Corynebacterium pseudotuberculosis is the causative agent of caseous lymphadenitis (CLA), a chronic contagious disease in small ruminants. The prevalence of CLA has been reported to be >50% in Korean black goats. CLA is difficult to control due to a lack of efficient vaccines and treatment methods. Effective disinfection of the farm environment may be an alternative strategy for reducing the spread of C. pseudotuberculosis. The objective of this study was to evaluate the efficacy of commercial disinfectants against CLA. The six commercial disinfectants, largely composed of sodium dichloroisocyanurate, sodium hypochlorite, potassium monopersulfate triple salt, quaternary ammonium, citric acid, and copper sulfate, were tested against five different genotypes of C. pseudotuberculosis isolated from goat farms in Korea. Efficacy tests were performed in accordance with the disinfectant efficacy test guidelines recommended by the Animal and Plant Quarantine Agency of Korea with slight modifications. All disinfectants except for copper sulfate exhibited >99.99% killing efficacy under hard water conditions following 30 min of incubation, which is the recommended standard treatment time according to guidelines. The minimum bactericidal treatment time was evaluated by employing treatments for durations of 1, 5, and 15 min. The most effective compounds under hard water conditions were sodium dichloroisocyanurate, potassium monopersulfate triple salt, and sodium hypochlorite, exhibiting >99.99% killing efficacy after 1 min of treatment. In the aqueous solution forms, citric acid and the quaternary ammonium compound were the most effective, but required at least 5 min to kill >99.99% of the bacteria. The current study characterizes the killing efficacy of six commercial disinfectant active compounds against C. pseudotuberculosis. Thus, this study provides essential information regarding the efficacy of the disinfectants used to control CLA in goat farms.
Inaccurate amounts of active ingredients in disinfectants can result in inefficiency or in potential toxicity to the environment and living organisms. This may lead to disinfection failure, and consequently, biosecurity failure. To ensure the efficiency of disinfectants and their ongoing compliance with safety and quality requirements, continuous and systematic post-market surveillance studies are needed. Herein, the content of ten commercial disinfectants purchased in 2021 was analyzed. Selective analytical techniques, such as automated titration, colorimetry, and high-performance liquid chromatography, were used to evaluate the content of several active ingredients present in disinfectants, such as potassium peroxymonosulfate, benzalkonium chloride, glutaraldehyde, phosphoric acid, citric acid, and malic acid. The obtained values were then compared with the label claims; the active ingredient contents of all disinfectants were within the acceptable range of 90–120% of the label claim.
The efficacy of chemical disinfectants is reduced owing to the inactivation of active ingredients after dilution. This study investigated the effect of time on the efficacy of six different disinfectants, after dilution, against avian influenza virus. When used at the recommended concentration, most disinfectants showed efficacy at a high concentrations in the presence of organic materials immediately after dilution, while sodium dichloroisocyanurate-based products, after dilution, showed reduced efficacy over time at low concentrations in the absence of organic materials. Most disinfectants were neutralized by organic materials; however, this could be compensated for by increasing the product dosage. For successful decontamination in farms, disinfectants should be used at high concentrations in accordance with the manufacturers’ recommendations. Furthermore, the presence of organic materials must be taken into consideration, and diluted disinfectant solution should be prepared no more than a day before use.
Salmonellosis is a widespread bacterial zoonosis that commonly causes enterocolitis and foodborne poisoning leading to an extensive economic loss in domestic animal industry. Considerably, the emergence of multidrug resistant strains of Salmonella spp. induces further severe problems affecting public health. The present report was designated to investigate the antibacterial efficacies of three common disinfectants including an oxidizing compound disinfectant (OXC), a triple salt (TS) and a quaternary ammonium compound (QAC) against Salmonella typhimurium subjected to the preliminary changes of drug temperature. All solutions of three disinfectants were pre-incubated at different temperature (22, 37 and 63°C) for 1 h prior to exposure to bacteria. The disinfectants and bacteria were diluted with distilled water (DW), hard water (HW) or organic matter suspension (OMS) according to treatment condition. Under the DW condition, the disinfectant efficacy of the QAC at 63°C was higher than that of 22°C. Furthermore, under HW diluent the disinfectant efficacy of the TS pre-warmed at both of 37 and 63°C were increased compared to that of 22°C. Considerably, the efficacy of pre-warmed QAC at both of 37 and 63°C under the OMS diluent were higher than that of 22°C. Conclusively, prewarming at higher temperatures have positive effects on the stability of the antibacterial efficacies of TS and QAC.
This test was performed to evaluate the acute oral toxicity and skin irritation of Lamia-Kill®, disinfectant,containing 20% benzalkonium chloride and 10% citric acid. In acute oral toxicity, Lamia-Kill® was orally administered at dose levels of 2,000, 1,000, 500, 250 and 0 mg/kg body weight. After single oral administration to both sexes of SD rats, the rats were observed for 14 days. In primary skin irritation test, New Zealand white rabbits were dermally treated with Lamia-Kill® for 24 hr and observed for 3 days. All rats treated with Lamia-Kill® were induced no toxic signs in mortalities, clinical findings, body weights and gross findings. Also, the disinfectant did not induce any adverse reactions such as erythema and edema on intact skin sites for the most part rabbits, but on abraded skin sites, some rabbits showed very slight erythema on 24 hr after topical application. With the results of this study,Lamia-Kill® have no effect on acute toxicity and side effect in SD rats and was classified as a practically non-irritating material based on the score 0.50 of primary irritation index.
This study was to evaluate the efficacy of sanitizer concentrations and treatment time against two major food-borne pathogenic microorganisms such as Escherichia coli and Staphylococcus aureus on a stainless steel surface. As a result, stainless steel, treated with 100 ppm of chlorine showed reduction of E. coli(1.56, 1.49, 1.95 log cfu/25 ㎠) and S. aureus(0.49, 0.88, 1.27 log cfu/25 ㎠) after 0, 5 and 10 min, but none was not detected in treatment with 200 ppm. The population of E. coli(0.73, 0.90, 1.55 log cfu/25 ㎠) and S. aureus(0.37, 1.00, 1.45 log cfu/25 ㎠) reduced in 35.5% ethanol treated group, but none was not detected in treatment with 70%. The population was reduced E. coli(0.28, 0.64, 1.07 log cfu/25 ㎠) and S. aureus(0.53, 0.87, 0.99 log cfu/25 ㎠) by treatment with 45.5ppm of hydrogen peroxide, but none was not detected in treatment with 91 ppm. Quarternary ammonium compound with 100 ppm was reduced E. coli(0.82, 1.62, 1.71 log cfu/25 ㎠) and S. aureus(0.46, 0.93, 1.38 log cfu/25 ㎠), but none was not detected in treatment with 200 ppm. Predictive models of sterilization for all 4 disinfectants were suitable to use with r2 value of higher than 0.94. These models may be of use to food services and manufacture of safe products by controlling E. coli and S. aureus without the need for further detection of the organisms.
현재 살균소독제의 국가 공인시험법은 시험관 내에서 행하는 현탁액시험법으로 실제 현장의 표면 살균을 정확히 평가하기에는 무리가 있다. 본 연구는 국제적으로 표준화 되어 있는 3가지 정량적 표면시험법간의 유효성 평가력 비교를 목적으로 E. coli와 S. aureus를 대상으로 시중 유통되는 대표적 5개 계열 살균소독제의 유효성을 평가하였다. 그 결과 E. coli와 S. aureus에 대한 각 방법별 살균소독력은 ASTM(1)법에서 5.18 ± 0.03, 5.27 ± 0.04 log cfu/carrier, ASTM (2)법에서 4.63 ± 0.04, 3.97 ± 0.03 log cfu/carrier, CEN EN 13697법의 청정조건(CEN(1))에서 6.14 ± 0.05, 5.31 ± 0.10 log cfu/carrier, 오염조건(CEN(2))에서 4.37 ± 0.02, 4.06 ± 0.01 log cfu/carrier로 나타났다. CEN(1)시험법이 ASTM(2)와 CEN(2) 시험법에 비해 살균소독력이 유의적으로 높게 평가되었다. 적용된 3개의 시험법 중 유리를 담체로 사용 한 ASTM(1)법에 비해 스테인리스 스틸을 사용한 ASTM(2) 와 CEN법 적용 시 살균소독효과가 낮게 평가되었다. 결론적으로 3 가지 국가 공인시험법간 유효성 평가결과가 달랐으며, 실제 식품제조 현장에서 사용되는 표면에서의 살균 소독력을 정확히 평가하기 어렵다는 것을 확인할 수 있었다.
콩 탄저병에 대한 우수한 종자소독제를 선발하고자 병원균을 종자와 토양접종한 다음 각종소독제에 의한 시험과 조지대에 의한 약효비교시험을 수행하였다. 종자소독제는 Arasan, Orthocide, Phygon-XL, Luberon, Mercuron 및 P.T.A.B등을 공시하였다. Arasan은 모든 시험구에서 가장 효과가 좋았으며 종자접종구에서는 모든 공시 약제의 효과가 현저하였으나 약제간에 유의성이 없었고 토양접종구에석는 루베론을 제외한 약제는 무처리보다 효과가 있었으나 약제간에 유의성은 없었다 조지용법에 의한 시험에서는 약효가 일치되지 않았으나 경향은 비슷하였다.
Background : In previous studies, adlay seeds showed a prevalence of diversified fungal flora with the predominant fungal genera being Fusarium (45.6%) and In vitro test showed that fungal toxins like Fumonisin and Zearalenone were produced by Fusarium fujikuroi, F. asiaticum and F. graminearum. Because of this we performed experiments to selecting disinfective chemicals for controlling the Fusarium contamination in the adlay seed. Methods and Results : We carried out the chemical efficacy test such as seed disinfectants selection test appling before planting and pesticides selection test using in the earing season. In the present study, eleven different commercially available seed disinfectant were applied to the adlay seeds. Among 11 seed disinfectants, Hexaconazole+Prochloraz emulsifiable concentrate (EC) and Prochloraz emulsifiable concentrate (EC) had control value of 80% or above against Fusarium species tested. In the pesticides selection test, seven different commercially available pesticides for Fusarium blight (Scab) control were applied and we observed that Metconazole suspension concentrate(SC) strongly inhibited the mycelial growth of 10 Fusarium species all. Conclusion : From the above results, we selected Hexaconazole+Prochloraz EC and Prochloraz EC as a seed disinfectants and Metconazole SC as a pesticide using in the earing season for Scab control.
Background : This experiment was conducted to select GAP applying seed disinfectants in Astragalus membranaceus and Platycodon grandiflorum. Methods and Results : We carried out the chemical efficacy and injury test. For the efficacy test, we investigated fungal detection rate by seed disinfectants and for the chemical injury, we investigated germination rate and emergence rate by seed disinfectants in reference amount and fold amount. These experiments carried out two times. The results obtained are as follows. In the experiment for seed disinfectants selection of Astragalus membranaceus, all tested chemicals such as Tebuconazole emulsifiable concentrate(EC), Thiophanate-methyl + Triflumizole wettable powder(WP), Prochloraz copper chloride complex+Tebuconazole suspension concentrate(SC), Prochloraz emulsifiable concentrate(EC), Fludioxonil wetting liquid(WL) and Hexaconazol+Prochloraz emulsifiable concentrate(EC) had control value of 80% or above against seed contaminated fungi. However two chemicals such as Tebuconazole EC and Prochloraz copper chloride complex+Tebuconazole SC and two chemicals such as Prochloraz EC and Hexaconazol+Prochloraz EC exhibited chemical injury significantly in reference amount and in fold amount respectively, compared to non treated control. In the case of seed disinfectants selection of Platycodon grandiflorum, Prochloraz copper chloride complex+Tebuconazole SC, Prochloraz EC and Hexaconazol+Prochloraz EC had control value of above 80% against seed contaminated fungi except Thiophanate-methyl+Triflumizole WP and Fludioxonil WL. However Hexaconazol+Prochloraz EC and Prochloraz copper chloride complex+Tebuconazole SC exhibited chemical injury significantly in reference amount and in fold amount respectively, compared to non treated control. Conclusion : From the above results, we finally selected three items of seed disinfectants including Thiophanate-methyl+Triflumizole WP and Fludioxonil WL in Astragalus membranaceus and Prochloraz emulsion in Platycodon grandiflorum.
The endophytic bacteria were isolated from the rusty-root ginseng. This isolated bacteria were occurred the rusty-root ginseng with artificial inoculation. For the suppressing of rusty-ginseng, disinfectants, antibiotics, kitosan, micro-organisms and metabolites were tested to isolated endophytic bacterium. All of the isolated bacteria strains were sensitive sodium hypochlorite, however, some of isolated bacteria lines were sensitive to other tested materials. For example, D (didecyl dimethyl ammonium bromide), CIO2, ODDA (octyldecyl dimethyl ammonium chloride + diocyul dimethyl ammonium chloride + alkyl diethyl benzyl ammonium chloride), GD (glutaraldehyde + dimethy cocobenzyl ammonium chloride) suppressed some of bacteria strains. Otherwise, some of antibiotics (e.g. ampicillin, chloramphenicol, erythromycin, kanamycin, neomycin, rifampin, streptomycin, tetracycline) were sensitive to the isolated bacteria strains. All of isolated bacteria strainswere inhibitive to the mixed formation with neomycin and streptomycin, and neomycin and tetracycline. Both sodium hypochlorite and antibiotic mixing of neomycin and tetracycline were effective to prevention of rusty-root ginseng of sub-merging ginseng in the ginseng field.