Alhasan, D., Al-Abedi, H., Hussien, T., Mohammad Ali, A. (2022). Morphological detection of dermatophytes isolated from cattle in Wasit province. Alustath, 36(Supplement I), 167-172. doi: 10.33899/ijvs.2022.135833.2530
Dhurgham A. Alhasan; Hawraa F. Al-Abedi; Talal J. Hussien; Atheer Q. Mohammad Ali. "Morphological detection of dermatophytes isolated from cattle in Wasit province". Alustath, 36, Supplement I, 2022, 167-172. doi: 10.33899/ijvs.2022.135833.2530
Alhasan, D., Al-Abedi, H., Hussien, T., Mohammad Ali, A. (2022). 'Morphological detection of dermatophytes isolated from cattle in Wasit province', Alustath, 36(Supplement I), pp. 167-172. doi: 10.33899/ijvs.2022.135833.2530
Alhasan, D., Al-Abedi, H., Hussien, T., Mohammad Ali, A. Morphological detection of dermatophytes isolated from cattle in Wasit province. Alustath, 2022; 36(Supplement I): 167-172. doi: 10.33899/ijvs.2022.135833.2530

Morphological detection of dermatophytes isolated from cattle in Wasit province

Iraqi Journal of Veterinary Sciences
Article 24, Volume 36, Supplement I, December 2022, Pages 167-172    PDF (584.77 K)
Document Type: Research Paper
DOI: 10.33899/ijvs.2022.135833.2530
Authors
Dhurgham A. Alhasan* 1; Hawraa F. Al-Abedi2; Talal J. Hussien* 3; Atheer Q. Mohammad Ali* 4
1Department of Microbiology, College of Veterinary Medicine, University of Thi-Qar, Thi-Qar, Iraq
2Laser and Photonics Researches Center, University of Al-Hamdaniya, Hamdaniya, Iraq
3Department of Basic Science, College of Dentistry, Wasit University, Wasit, Iraq
4Director Veterinary Hospital, Wasit, Iraq
Abstract
This study aimed to diagnose the skin lesions in cattle that were suspected to be ringworm in order to determine the species causing these lesions. A total of 40 samples of skin desquamation and hair lesions were collected from cattle in a farm located in the Wasit province during the period from October 2021 to March 2022. Diagnosis used to be carried out the usage of direct microscopy of potassium hydroxide, isolation of the fungus through the use of Sabouraud dextrose agar supplemented with chloramphenicol and cycloheximide, as well as by way of detecting those fungi through staining with Lactophenol cotton blue. The diagnosis results revealed that infection of cattle with ringworm represented 20/40 (50%) of skin lesions and the majority of the common dermatophytes spp was identified as Trichophyton mentagrophytes 15/20 (75%) and Microsporum canis5/20 (25%) depending on the fungal growth. In conclusion, the most common skin lesions of cattle in Wasit province were identified as ringworm.

Highlights
  1. Predominant dermatophyte species among infected cattle in Wasit province were Trichophyton mentagrophytes and Microsporum canis.
  2. Identification of dermatophytes used to be primarily based frequently on cultural and morphological characteristics, which used to be a simplest and cheapest method.
  3. Despite this, morphological traits are thought to be a difficult and time-consuming technique because of morphological similarity, diversity, and polymorphism.
  4. Skin scraping using KOH 10 % was an appropriate method for early diagnosis of dermatophytes.
Keywords
Dermatophytes; Cattle; Morphological detection
Full Text

Introduction

 

The dermatophytes can be considered as one of the most common fungi that affect different animal species such as cattle, buffaloes, sheep, goats, puppies, and cats (1). The condition is regarded as an extremely contagious and prevalent worldwide. According to, dermatophytes are classified as either anthropophilic (related with humans), zoophilic (associated with animals), or Geophilic (associated with earth) (1,2). Dermatophytosis is known to belong to class Ascomycetes, Phylum: Ascomycota, family arthrodermataceae and genus Arthroderma and divided into 3 genera: Epidermophyton, Trichophyton and Microsporum. Different dermatophytes are of zoonotic importance in which the most species of dermatophytosis public health concern are belonging to Trichophyton and Microsporum species and its distribution is reported in different animals according to geographical location, age, sex of affected animals (1,3). Most of the determined lesions in the affected animals had been circumscribed grayish-white place of alopecia, crusty, raised lesions. These lesions commonly are noticed on different area of the body such as head, neck, chest area, dewlap and limbs (4). The severity of lesions differs from mild to severe, which may be attributed to many reasons like reaction of the host to metabolic products of fungi, virulence and type of affected species of dermatophytes and environmental risk factors (5). Ringworm in cattle is considered to be very contagious to farmers, veterinarians, veterinary technicians and workers inside the farms. Employees who are affected with occupational dermatophytosis are entitled for 14 days-sick leaves leading to difficulties creation for farm management as temporary workers have to be sourced (6). One of the most important techniques for analyzing fungi infections is potassium chloride (KOH) mount, which is used as a primary screening tool. Skin scrapings and hair samples need to be cultured to discover the fungal isolate the usage of conventional Sabouraud Dextrose Agar (SDA), Dermatophytes Test Medium (DTM), and other fungus culture media depending on the kind of isolate expected (7,8). If not treated, these pathogenic microorganisms may have a deadly effect on hosts and have a significant impact on animal fitness. There are many identified proteolytic enzymes generated from microorganisms (9).

 Report the animal diseases that were picked up at the University of Mosul's Veterinary Teaching Hospital between 2017 and 2019., in this analysis, clinical data of 1,280 instances examined and recognized at the inside medicinal drug part and/or medical pathology laboratory had been used, the most acquired instances have been from locations inside the southern part of Mosul, regularly, respiratory infections, blood parasites, and gastrointestinal disorders were the most often reported cases. Skin conditions were also frequently acquired (10). Epidemiological research as measurements of ailment prevalence and threat issue analysis, transmission in cattle herds is of extraordinary significance to be studied, many danger elements had been accountable for prevalence of ailment in animals consist of cattle breed, age. Additionally host unbiased elements are viewed extra vital and encompass herd size, administration practices and cattle buying (11). In many nations around the world, dermatophytes are recognized as one of the leading reasons why domestic animals experience dermatological issues. Additionally, they have been linked to dangerous infections, especially in people with impaired immune systems (such as AIDS, organ transplantation, diabetes mellitus, etc.) (12). Due to its propensity to spread zoonotic diseases and in the context of veterinary care for pets in particular, dermatophytosis is regarded in many regions across the world as a major disease. Because despite their age, gender, or breed, a variety of animal and rooster species are susceptible to infections, though it tends to occur more commonly in young, ill, and older patients. The geographical changes, meteorological variables, and herbal host variances all affect the occurrence of dermatophytosis (13,14).

 The main method of diagnosing dermatomycoses is the direct microscopic inspection of scientific samples for the identification of septate hyphae. Direct microscopic inspection is quick and less expensive, but it no longer provides genus or species identification and, in 5% to 15% of cases, the results are mistakenly disastrous (15,16). Cultures are examined macroscopically and microscopically to identify species. Although more accurate, culture-based identification often takes two to three weeks. Sometimes it is necessary to utilize subculture or unusual media to promote condition or the production of pigment, which also delays the prognosis by a few weeks (17). Due to phenotypic pleomorphism and interspecies morphological variability, phenotypic identification can also be challenging (18). In the Netherlands, between 1991 and 2002, only 56% of 1,171 dermatophyte isolates were successfully identified by 50 laboratories in a best management exercise (18). The dermatophyte isolates from the same species differ in terms of genotype and phenotype. These versions' medical software still has to be found. These revisions no longer reflect changes in epidemiological or symptomatological data (19). Microsporum canis is the type species in Sabouraud dextrose agar at 25°C, the components of the colony are planar, with a velvety or cottony surface, a white or yellowish hue, and a brown or golden yellow reverse. Macroconidia are characterized by the presence of stiff partitions, which may also be asperulate, echinulate, or verrucose. They might be cylindrofusi form, obovate (egg-shaped), or fusiform. They can range in size from 6 to 106 with the aid of 6 to 25 mm and can have thin, moderately thick to thick partitions as well as 1 to 15 septa. Microconidia are typically arranged singly next to the hyphae or in racemes, and they are sessile or stalked and clavate(20). Trichophyton mentagrophytes var. is the kind species. In Sabouraud dextrose agar at 25°C, have flat, white to cream-colored, powdery to granular colony factors and reverse yellowish brown to reddish-brown coloration. When present, macroconidia are borne singly or in clusters, have smooth, regularly narrow partitions, one to twelve septa, and can additionally be elongate and pencil-shaped, clavate, fusiform, or cylindrical. They vary in dimension from eight to 86 via 4 to fourteen millimeters. Microconidia, which are normally large than macroconidia, can additionally be globose, pyriform, or clavate, as properly as sessile or stalked, and are borne singly alongside the hyphal components or in clusters that resemble grapes(20). The objective of our study was to identify the types of dermatophytes isolated from clinically affected cattle with skin lesions suggestive to be ringworm infection.

 

 

Materials and methods

 

Ethical approve

This study ethically approves under the terms license by the following code UM.VET.2021.063

 

Animals and clinical examination

The study carried out a total of 40 samples of skin desquamation and hair lesions, which were collected from cattle, aged 2 to 5 years from one farm, in the Wasit province during the period October 2021 to March 2022. The main symptoms were alopecia sites, thickened scaling epidermis in various body regions, primarily on the back, thorax, and neck, with a clear propensity for hair loss (Figure 1). For collection of the samples, areas were perfectly disinfected with 70% ethyl alcohol. Skin scrapings and hairs were collected aseptically using sterilized scalpel from the edges of active lesions placed on a clean fresh carbon paper to avoid being contaminated and samples were labelled with serial numbers. Location, sex, and age of lesions on the body were recorded and stored in 4ºC in the cold box to keep samples during transportation to microbiology laboratory in Veterinary Hospital in Wasit to culture the sample on sabouraud dextrose agar.

 

 

 

Figure 1: The areas of the body most frequently afflicted by ringworm in the facial, back, and area around the nose.

 

Mycological examination

The collected specimens were examined for the presence of dermatophytes using variable methods including, direct microscopically examination, all samples have been examined to discover the fungal elements. Scales and hair tufts were handled with KOH 10% for 10 minutes and examined under microscope (100x and 400x magnifications) to observe fungal spores and hyphae (7). Collected samples were cultured on a common fungal culture medium Sabouraud Dextrose Agar (SDA), containing chloramphenicol 0.05 g/ml and cycloheximide 0.5 g/ml. Samples were incubated at 25oC and examined for growth for 4 weeks after and the plates which showed no growth were deemed negative (21). Macroscopic Examination of the culture involved the colony character, growth rate, surface and reverse color, and colony consistency. Lacto phenol cotton blue was originally used for microscopic evaluation of positive fungal colonies (22).

 

Results

 

The study was carried out on 40 cattle, which were affected with skin lesions suspected to be ringworm infection. Skin lesions were clinically examined and proved to be positive by direct microscopical examination of skin scraping. Fungal culture was also applied using sabouraud dextrose agar and different types of dermatophytes were identified through macroscopical and microscopical examinations of the fungal growth. Following incubation at 25ºC for 4 weeks, the results of skin scraping lesion culture were 20/40 (50%). The majority of the common dermatophytes spp was identified as Trichophyton mentagrophytes 15/20 (75%) and Microsporum canis 5/20 (25%) were identified according to fungal growth, Colonies of T. mentagrophytes on sabouraud dextrose agar appeared as moderately rapid, powdery to granular, white to cream coloured on the surface. Colonies of Microsporum canis were flat to slightly groove with a fuzzy to cottony feel, the color ranges from white to yellowish on the front and from deep yellow to orange on the reverse. Under microscopic examination of the culture, colonies of T. mentagrophytes gave rise to branched conidiophores. Sessile microconidia were formed on the conidiophores in quite dense, grape-like clusters. While colonies of Microsporum canis were characterized by septate hyphae, long macroconidia, stiff, and had strong exterior cell walls. They were spindle-shaped, with an asymmetrical apical knob (Figures 2 and 3).

 

 

 

Figure 2: Trichophyton mentagrophytes - 14 days growth on Sabouraued dextrose agar at 25oC, A- front colony, B- Revers colony, C- Showing production of sessile microconidia along septate hyphae stained by LPCB.

 

 

 

Figure 3: Microsporum canis- 10 days growth on Sabouraued dextrose agar at 25oC, A- front colony, B- Revers colony, C- Typical spindle-shaped macroconidia of Microsporum canis stained by LPCB.

 

Discussion

 

Many years ago, veterinary publications have been described ringworm, which can be considered an important animal illness. Several factors such as restricted herd movement, hygiene practices, and treatment of diseased animals have a little have an impact on on the disease condition globally (23).

In this study, mycological examination of the skin lesion lesions revealed that Trichophyton mentagrophytes 15/20 (75%) was endemic in the studied area and Microsporum canis 5/20 (25%). This result showed higher than reported in Baghdad, Iraq, Sudad and Mohammed (21), who isolated Trichophyton mentagrophytes 5 (14.3%) and Microsporum canis 1 (28%) from cows. in Southern Iraq, Al-Duboon and Farhan (24), proved that most frequently employing the species of dermatophytes Trichophyton mentagrophytes, Microsporum gypseum, and Trichophyton verrucosum, were isolated from 182 specimens representing the global incidence of dermatophytosis in 4 ruminants (buffalo, camel, cow, and sheep). These different results could be attributed to many factors such as a seasonal variation and their effect on microbial composition, economic conditions, and disease incidence which varied from country to country. In the present study, the percentage result of Trichophyton mentagrophytes was higher than these obtained in Baghdad, Iraq by Al-Samarrae et al. (25), who reported that the proportion was 5 (3.6%). These differences in the proportions of each study may result from the difference in the number of isolates enrolled in each study and the skills of laboratory investigators.

In the current study, the proportion of each of the isolated Trichophyton mentagrophytes 15/20 (75%) and Microsporum canis 5(25%), which were incompatible with documented in Egypt, Mohammed et al. (1), who reported the percentage of Trichophyton mentagrophytes was 13(27.7%) and Microsporum canis8(17%). This distribution sample may have also been influenced by the recent and widespread dissemination of these specific strain types, which may also exhibit increased virulence, invasiveness, or other virulence-related traits. T. mentagrophytes and T. verrucosum were two successfully described species, as mentioned in Plateau State, Nigeria (26). In the present study the percentage of obtained Microsporum caniswas in agreement with a previous study done in Egypt, Wagdy and Mohamed (6) who isolated this species from cattle skin lesions.

 Dermatophytosis could be recognized below direct microscopic examination of skin scraping and detection of fungal spores distributed in relation to hair. This technique was rapid, simplest and most inexpensive method as mentioned by Panasiti et al. (27). In current find out about result unwell matched with they find out reveals T. verrucosum in cattle for the first time reveals that the incidence rate of cattle fungal skin disease is higher in the summer and winter in China's Ningxia Hui Autonomous Region Guo, et al (28). The summer months are hot, humid, and full of sunshine, which speeds up the metabolism of skin cells and causes them to produce more sebum, a lot more sweat, and other waste products. As a result, the skin's subcutaneous environment is altered, which decreases the cattle's disease resistance and encourages the growth of fungus. Because it's chilly outside and the herd has gathered, dermatophytosis is more likely to develop and spread during the winter. Meanwhile, the frequency is higher in the iciness than in the summer (29). With a global distribution, including Egypt, dermatophytosis is a fungal disease that affects the hair and superficial skin layers of farm animals. Despite the disease's self-limiting nature, it has a lengthy recovery period and devastating economic losses in the skin's structure and concealment damage (30). Furthermore, dermatophytes identification is based mainly on cultural and morphological characteristics however, it is viewed as a complicated and laborious technique due to morphological similarity, variability and polymorphism (6).

In order to determine the source and capacity of dermatophytosis transmission in both humans and animals, diagnostic and epidemiological research must now go beyond simple species distinction of isolates however additionally differentiation inside speciesese discrepancies in the consequences amongst these special learn about from the contemporary ones basically may end result from the variations of the samples quantity enrolled in every study, hygienic condition, climate impact and intraspecific variant of the isolates (31). The control of dermatophyte recurrence in herds as well as in a provider state is an intriguing issue related to ringworm in cattle, this issue is particularly significant in cowsheds where both vaccinated and non-vaccinated animals are housed, the use of traditional methods for dermatophyte detection and identification in cattle herds has a number of drawbacks because they are time-consuming, labor-intensive, and require a mycological diagnostician's expertise (32). Conidia from the surroundings or from present hosts can unfold dermatophytic infections to new recipients immediately thru contact with contaminated animals or circuitously thru contaminated fomites, all occasions that prefer these contacts serve as predisposing factors. Conidia are extraordinarily resilient and can also persist in the surroundings for years (33). This explains why using cloth that animals share encourages infection, the soil serves as the reservoir in which the fungi grow for geophilic dermatophytes. Therefore, the risk of infection is higher for animals having contacts from the outside world (33). Animals with ringworm typically have a circular, daily alopecia with an erythematous edge and a thin desquamation. Despite being reported in a large percentage of animals in some surveys, pruritus is frequently absent in animals. Lesions can be solitary or many and localized on any part of the animal, although the head and the front of the body seem to be more frequently affected. Lesions commonly unfold in a centrifugal fashion. While many lesions might also additionally merge, a spontaneous recuperation at the core with hair regrowth is generally found by Kano et al. (34). Kerion (nodular dermatophytosis) is characterized via a granulomatous dermatitis to a deep pyogranulomatous infection and is a spherical and nodular edematous response to dermatophyte contamination with a patch of erythematous scaling alopecia. It is more often than not brought about in animals with the aid of the dermatophyte species M. gypseum, M. canis, and T. mentagrophytes (35).

Martinez-Rossi et al. (36) showed the establishment of infection depends on the dermatophytes' potential to stick to these substrates and adapt to the host environment. This adaptive response to the surroundings and to keratin degradation includes a variety of proteins and enzymes from the fungal kingdom. In the early ranges of the fungal-host interaction, transcription elements, which include PacC and Hfs1, as properly as warmness shock proteins, are essential for detecting and adjusting to the acidic pH of the skin. When keratin serves as the solely carbon supply for dermatophyte growth, the extracellular pH adjustments from acidic to alkaline. This produces conditions that favor the best action for the majority of known keratinolytic proteases. The establishment and renovation of the infection, which may be persistent, is the result of these activities (36).

Animals of many kinds are now affected by dermatophytosis in addition to small animals. A study on dermatophytosis in farm animals conducted in Beheira, Egypt, revealed that 74% of 150 samples collected from certain animal species were dermatophyte positive. The majority of suggested dermatophytosis cases occurred in sheep 78%, followed by cattle 72%, buffalo 76%, and horses 68% (37). In Irbid, Jordan, cattle farms, the prevalence of dermatophytosis was originally estimated to range from 10 to 100%. Al-Ani et al. (38) research also revealed that out of 375 cattle, 115 (30.6%) were found to have a typical macroscopic dermatophytosis lesion.

Theel et al. (39) how proposed the development of alternative molecular methods has allowed for the quick and accurate detection of dermatophytes. They include DNA hybridization, PCR fingerprinting, sequencing of the internal transcribed spacer regions, sequencing of the large-subunit rRNA gene or the gene encoding chitin synthase, and limit fragment size polymorphism analysis (ITS1 and ITS2). The need for novel methods for identifying these prevalent fungal diseases is highlighted by the fact that present molecular methodologies are time-consuming and expensive for the identification of all isolates regularly recovered from scientific materials.

The identification of more than a few animal species that are prone to dermatophytosis contamination and that are in shut contact with people is deemed indispensable for each animal and human fitness primarily based on the findings of a learn about performed in Ankara by using Sever et al. (40). Additionally, laboratory diagnoses need to be acquired in instances of suspected dermatophytosis, and it would be fantastic to make bigger recognition of this trouble amongst animal proprietors and keepers owing to the practicable for zoonotic humans, which is vital for each the fitness of animals and humans. Additionally, laboratory diagnostics ought to be acquired in instances with suspected dermatophytosis, and it would be very advisable to increase attention of this difficulty amongst animal proprietors and keepers due to the opportunity of zoonotic transmission (40). Since all animal dermatophytes are very contagious to people, appropriate precautions must be taken to stop the spread of infection. When examining a sick animal or taking skin scrapings for the diagnosis, occupationally exposed individuals like veterinarians and other staff are advised to wear disposable gloves and thoroughly wash their hands with alcohol-based hand sanitizer or an antiseptic solution like dettol or savlon (41).

 

Conclusion

 

Trichophyton mentagrophytes and Microsporum canis were predominant species among infected cattle in Wasit province, skin scraping using KOH 10 % was an appropriate method for early diagnosis of dermatophytes. Identification of dermatophytes used to be primarily based frequently on cultural and morphological characteristics which used to be a simplest and cheapest method.

 

Acknowledgments

 

The authors are grateful to the microbiology laboratory in Veterinary Hospital in Wasit to supporting the laboratory facilities.

 

Conflict of interest

 

The authors declare no conflict of interest.

References
  1. Mohammed MA, Mamdouh FE, Eman ME, Elshaima MF. Dermatophytosis among ruminants in Egypt: The Infection Rate, identification and comparison between microscopic, cultural and molecular methods. Zagazig Vet J. 2020;48(2):116-127. DOI: 10.21608/ZVJZ.2019.16779.1081
  2. Achterman, RR, White TC. Dermatophyte virulence factors: Identifying and analyzing genes that may contribute to chronic or acute infections. Int J Micro. 2012;4:1-8. DOI: 10.1155/2012/358305
  3. Nweze EI. Dermatophytoses in domesticated animals. Revista do Instituto de Medicina Tropical de Sao Paulo. 2011;53(2):95-99. DOI: 10.1590/s003646652011000200007
  4. Ahmed AR, Saber K. Some epidemiological studies on ringworm in cattle at Assiut governorate, Egypt. SCVMJ. 2008;(2):327-355. [available at]
  5. Weitzman I, Summerbell RC. The Dermatophytes. Clin Micro Rev.1995;8(2):240-259. DOI: 10.1128/cmr.8.2.240
  6. Wagdy RE, Mohamed EA. Identification of different Dermatophytes isolated from cattle, cats and horses suffered from skin lesions. Alexandria J Vet Sci. 2016;49(2):126-132. DOI: 10.5455/ajvs.224778
  7. Putriningsih PASI, Arjentinia IPGY. Macroconidia of dermatophytes fungi on direct microscopic examinations. J Vet Med and Ani Sci. 2017;1(1):41-43. DOI: 10.24843/JVAS.2017.v01.i01.p10
  8. Bond R. Superficial veterinary mycoses. Clin. Dermato. 2010;28:226-236. DOI: 10.1016/j.clindermatol.2009.12.012.
  9. Sayhood MH, Mohammed AL, Abdulhameed MF and Jori MM. Classical and molecular identification of Staphylococcus aureus isolated from infestation cattle wounds with myiasis in Basrah governorate, Iraq. Iraqi J Vet Sci. 2022;36(3):(641-646). DOI: 10.33899/ijvs.2021.131196.1930
  10. Dahl MO, Hamdoon OKh, Abdulmonem ON. Epidemiological analysis for medical records of Veterinary Teaching Hospital, University of Mosul during 2017 to 2019. Iraqi J Vet Sci. 2021;35(3):541-548. 10.33899/ijvs.2020.127141.1468
  11. Hamed YK, Nasr E, Azooz MF, Youssef HM. Prevalence and risk factors of bovine tuberculosis in dairy cattle farms in Egypt. Iraqi J Vet Sci Sci. 2021;35(2):351-359. DOI: 10.33899/ijvs.2020.126850.1399
  12. Vermout S, Tabart J, Baldo A, Mathy A, Losson B, Mignon B. Pathogenesis of dermatophytosis. Mycopathol. 2008;166(5-6):267-275 DOI: 10.1007/s11046-008-9104-5
  13. Bond R. Superficial veterinary mycoses. Clin Dermatol. 2010;28:226-236. DOI: 10.1016/j.clindermatol.2009.12.012
  14. Mattei AS, Beber MA, Madrid IM. Dermatophytosis in small animals. J Microbiol Infect Dis. 2014;2:1-6. DOI: 10.15226/sojmid/2/3/00124
  15. Paixão GC, Sidrim JC, Campos GMM, Brilhante RSN, Rocha MFG. Dermatophytes and saprobe fungi isolated from dogs and cats in the city of Fortaleza, Brazil. Arquivo Brasil Med Vet Zoot. 2001;2001(5):121-125. DOI: 10.1590/S0102-09352001000500010
  16. Pérez J, Carrasco L. Diagnóstico histopatológico de micosisenpatología veterinária. Revist Iberoamericana Micol. 2000;17:18-22. [available at]
  17. Balda AC, Otsuka M, Larsson CE. Ensaio clínico da griseofulvina e da terbinafina na terapia das dermatofitoses em cães e gatos. Ciência Rural. 2007;37(3):750-754. 10.1590/S0103-84782007000300023
  18. Chermette R, Ferreiro L, Guillot J. Dermatophytoses in Animals. Mycopathol. 2008;166(5-6):385-405. DOI: 10.1007/s11046-008- 9102-7
  19. da Costa FV, Farias MR, Bier D, de Andrade CP, de Castro LA, da Silva SC. Genetic variability in Microsporum canis isolated from cats, dogs and humans in Brazil. Mycoses. 2013;56(5):582-588. DOI: 10.1111/myc.12078
  20. Kawasaki M. Verification of a taxonomy of Dermatophytes based on mating results and phylogenetic analyses. Med Mycol J. 2011;52(4):291-295. DOI: 10.3314/mmj.52.291
  21. Sudad JM, Mohammed KF. A survey of dermatophytes isolated from cows and sheep in Iraq. Iraqi J Vet Med. 2011;35(2):40-45. DOI: 10.30539/iraqijvm.v35i2.594
  22. Sciortino CVJ. Atlas of clinically important fungi. NY: John Wiley; 2017. 135-138p.
  23. Wawrzkiewicz K, Wawrzkiewicz J. An inactivated vaccine against ringworm. Comp. Immunol Microbiol Infect Dis. 1992;15:31-40. DOI: 10.1016/0147-9571(92)90099-D
  24. Al-Duboon AH, Farhan FJ. Dermatophytosis in sheep of al-safat show in Basrah, Iraq. Basrah J Vet Res. 2007;6(1):54-62. DOI: 10.33762/bvetr.2007.58636
  25. Al-Samarrae SG, Ibrahim OS, Najim JK. Studies on the epidemiology of ringworm in cattle. Iraqi J Vet Med. 2009;33(1):65-71. 10.30539/iraqijvm.v33i1.717
  26. Dalis JS, Kazeem HM, Kwaga JKP, Kwanashie CN, Yakubu B, Owolodun OA, Jambol AR. Molecular characterization of dermatophytes isolated from cattle in Plateau State, Nigeria. Vet Microbiol. 2018;219:212-218. DOI: 10.1016/j.vetmic.2018.04.022
  27. Panasiti V, Borroni RG, Devirgiliis V, Rossi M, Fabbrizio L, Masciangelo R, Bottoni U, Calvieri S. Comparison of diagnostic methods in the diagnosis of dermatomycoses and onychomycoses. Mycoses. 2006;49:26-29. DOI: 10.1111/j.1439-0507.2005.01185.x
  28. Guo Y, Ge S, Luo H. Occurrence of Trichophyton verrucosum in cattle in the Ningxia Hui autonomous region, China. BMC Vet Res. 2020;16:187 10.1186/s12917-020-02403-6
  29. ElAshmawy WR, Ali ME. Identification of different dermatophytes isolated from cattle, cats and horses suffered from skin lesions. AJVS. 2016;49:126-132. DOI: 10.5455/ajvs.224778
  30. Ahdy A, Sayed A, Mohamed E. Prevalence and Potential Risk Factors of Dermatophytosis in Arabian Horses in Egypt. J Equine Vet Sci. 201512(8):23-30. DOI: 10.1016/j.jevs.2015.12.008
  31. Neji S, Trabelsi H, Hadrich T, Cheikhrouhou F, Sellami H, Makni F, Ayadi A. Molecular characterization of strains of the Trichophyton verrucosum complex from Tunisia. Med Mycol. 2016;(54):787-793. DOI: 10.1093/mmy/myw036
  32. Ohst T, Kupsch, C, Graser Y, Gräser Y. Detection of common dermatophytes in clinical specimens using a simple quantitative real-time TaqMan polymerase chain reaction assay. Br J Dermatol. 2016;174:602-609. DOI: 10.1111/bjd.14198
  33. Cafarchia C, Romito D, Sasanelli M, Lia R, Capelli G, Otranto D. The epidemiology of canine and feline dermatophytoses in southern Italy. Mycoses. 2004;47(11-12):508-513. DOI: 10.1111/j.1439-0507.2004.01055.x
  34. Kano R, Edamura K, Yumikura H, Maruyama H, Asano K, Tanaka S. Confirmed case of feline mycetoma due to Microsporum canis. Mycoses. 2008;52(1):80-83. DOI: 10.1111/j.1439-0507.2008.01518.x
  35. Pereira AN, Damico CB, Souza HJ, Corgozinho KB, Graça R, Almeida EC, Ferreira AM. Pseudomicetoma dermatofítico causado por Microsporum canis em gato da raça persa. Acta Sci Vet. 2006;34(2):193-196. [available at]
  36. Martinez-Rossi NM, Peres NTA, Rossi A. Pathogenesis of Dermatophytosis: Sensing the host tissue. Mycopathol. 2017;182(1-2):215-227. DOI: 10.1007/s11046-016-0057-9
  37. Haggag YN, Samaha HA, Nossair MA, Mohammad RH. Prevalence of dermatophytosis in some animals and human in Bahera Province, Egypt. Alex J Vet Sci. 2017;53(2):64-71. DOI: 10.5455/ajvs.203688
  38. Al-Ani FK, Younes FA, Al-Rawashdeh OF. Ringworm infection in cattle and horses in Jordan. Act Vet Brno. 2002;71(1):55-60. DOI: 10.2754/avb200271010055
  39. Theel ES, Hall L, Mandrekar J, Wengenack NL. Dermatophyte identification using matrix-assisted laser desorption ionization-time of flight mass spectrometry. J Clin Microbiol. 2011;49:4067-4071. DOI: 10.1128/JCM.01280-11
  40. Sever NK, Ustun T, Omerovic M, Onol M, Zahiri AK, Dogan B. Prevalence of dermatophytes isolated from domestic animals in Ankara within a three-year period (2014-2017). MAE Vet Fak Derg. 2021;6(1):8-13. DOI: 10.24880/maeuvfd.844656
  41. Mahendra P. Dermatophytosis in adult cattle due to Trichophyton verrucosum. Anim Husb Dairy Vet Sci. 2017;1(1):1-3 DOI: 10.15761/AHDVS.1000106
Statistics
Article View: 211
PDF Download: 171


Journal Management System. Powered by ejournalplus