The role of cats and dogs in the epidemiological cycle of Microsporum canis

Isolation of dermatophytes in wild felids from screening centers

The aim of this study was detect the presence of dermatophyte fungi on wild felids from screening centers. Samples were taken from 30 animals, assembled in two groups: "free-ranging" and "transitory captivity". The dermatophytes (Trichophyton genus), isolated from two felids (6.6%), both of the group "free-ranging".

Actividad proteolítica extracelular y análisis molecular de cepas de Microsporum canis aisladas de gatos con y sin sintomatología

Microsporum canis is the main zoophylic dermatophyte in dogs and cats, and it is also an important zoonotic agent. The literature showed that cats are asymptomatic carriers of M. canis. This is apparently due to host resistance and/or the presence of strains with lower virulence. This study was aimed to evaluate the keratinolytic, elastinolytic and collagenolytic activities of M. canis strains and their relationship with symptomatic and asymptomatic cats. In addition, these strains were analysed by RFLP. The strains isolated from cats with clinical dermatophytosis had higher keratinase and elastase activity than those isolated from asymptomatic animals (p minus than 0.05). There were not differences in RFLP patterns based on Hind III digestion.

Survey of dermatophytes on clinically normal cats in the southeast of England

OBJECTIVES

To report the incidence of dermatophytes on the hair coat of asymptomatic cats in the southeast of England. Asymptomatic cats are often blamed for transmission of dermatophytes between animals and humans. This study may help to clarify whether cats are responsible for the increase in fungal infections among the human population.

METHODS

A total of 169 clinically healthy cats without any dermatological signs were sampled using the Mackenzie brush technique and cultured for dermatophytes. Thirty cats were from a closed colony and 139 were feral or from domestic households in the southeast of England.

RESULTS

The incidence of Microsporum canis and Trichophyton mentagrophytes in household and feral cats was 2.16 per cent for each dermatophyte. This survey shows little difference in the isolation rates of M. canis between the southeast and southwest of England, which was reported on in 1994.

CLINICAL SIGNIFICANCE

Given the low number of dermatophytes isolated, asymptomatic cats are unlikely to be responsible for the increasing incidence of human infection. Asymptomatic carriers with T. mentagrophytes in the hair coat have not been previously reported and may need to be considered when treating humans with trichophytosis.

Bizarre annular lesion emerging as tinea incognito. Bizarre anulare Erytheme als Ausdruck einer Tinea incognito

Tinea incognito has first been described in 1968. The term describes a tinea infection whose clinical morphology has been modified by the application of topical corticosteroids. The clinical manifestation can masquerade a number of other dermatoses and leads to misdiagnosis of annular eruptions. We describe a patient who showed a bizarre appearance of annular, inflammatory skin lesions at the umbilical region. Mycological culture yielded Microsporum canis.

Hair and scalp mycobiota in school children in Nablus area

Hair and scalp mycobiota of 1389 clinically normal children aged 6-12 years attending 12 schools in the Nablus District, Palestinian Authority, was assessed on three occasions over 8-month period (October 1998-May 1999) using the hair brush technique. One hundred and one fungal species belonging to 33 genera were recovered: 6 dermatophytes, 16 dermatophyte-like keratinophilic fungi, and 79 other keratinophilic fungal species. Species varied considerably in their frequency of occurrence and abundance based on their relative importance values (RIVs). The most frequent and abundant species were: Cladosporium cladosporioides, Cl. herbarum, Penicillium chrysogenum and Aspergillus flavus, Microsporum canis, Aphanoascus fulvescence and Chrysosporum sulfureum were the most frequent and abundant species of all dermatophytes and dermatophyte-like keratinophilic fungi recovered. The most frequent and abundant dermatophytes in different communities were M. canis in rural (RIV 0.87) and urban children (0.45), and Trichophyton violaceum (1.41) in refugee camp children. Chrysosporium species were the most frequent and abundant dermatophyte-like keratinophilic fungus in children from all localities followed by Aphanoascus fulvescence. Comparable results on the frequency and abundance of human hair and scalp mycobiota component fungi were obtained based on age group and sex of children. Higher number of species was recovered in spring months (73 species) than in autumn (57) and winter (44) months. Similar occurrence pattern was also noted for dermatophyte-like keratinophilic species and dermatophytes. Higher percentages of children with moderate (11-50) and heavy (< or = 50) spore loads (7.54 and 0.73, respectively) were found in urban school children community than in rural and refugee camp school children (4.7 and 0.1, respectively). Also significantly higher light (1-10) spore load percentages were found in rural (63.67) and refugee camp (62.9) than in urban children (52.6). Of all localities, school children with light spore load comprised the highest percentage of the children examined (37.4), followed by moderate (6.13), and heavy (0.41) spore load categories. However, children with undetected spore load comprised 36.05% of all children. Spore load distribution did not show clear seasonal variations in the study period. Higher percentages of moderate and heavy spore loads were found in male children (8.72 and 0.69, respectively) than in female children (3.4 and 0.1, respectively). However, higher percentages of undetected (38.3) or light spore loads (58.4) were found in females than in males (34.04 and 56.53, respectively).

Production of extracellular enzymes by Microsporum canis and their role in its virulence

Microsporum canis is the most prevalent dermatophyte of domestic animals. Several enzymes produced by dermatophytes, particularly keratinases, are considered to play a role in the virulence of this fungus. To investigate the possible relationship between the clinical status of M. canis infection and enzymatic activity of isolates, we studied the relationship between keratinase, elastase, lipase and DNase levels produced in vitro by different isolates and virulence as expressed in a guinea pig model. Samples isolated from symptomatic dogs and cats showed a statistically significantly (P < 0.05) higher keratinase activity than samples isolated from asymptomatic animals. Experimental infection of guinea pigs showed that a strain with high in vitro keratinase activity induced acute infection, which resolved clinically and mycologically faster than the infection induced by a strain with low keratinase activity. This suggested a strong correlation between high keratinase activity and the development of symptoms. The same correlation was not observed for other enzymes tested.

Pet-assisted therapy in the nursing home setting: potential for zoonosis

Pet-assisted therapy in the nursing home setting, as a vital component of the Eden Alternative or Human Habitat program, is gaining widespread recognition and implementation. Programs such as this help to improve the quality of life of nursing home residents by offsetting resident loneliness, helplessness, and boredom. However, use of companion animals (and, frequently, birds and fish) may be associated with the introduction of infectious entities that are normally uncommon in this setting (zoonosis). Examples include psittacosis, bartonellosis, toxocariasis, Capnocytophaga canimorsus, pasturellosis, Q fever, and leptospirosis, to name but a few. Hence vigilance for unusual clinical manifestations that may herald such diseases is necessary. In addition, prevention of such illnesses by routine veterinary screening of both resident and visiting companion animals is mandatory. Infection control policies and procedures geared toward management and prevention of zoonotic illnesses should be developed and implemented in all nursing homes offering pet-assisted therapy.

Tinea faciei due to Microsporum canis abscess formation

Superficial dermatophyte infections are common in children; however, complications are encountered rarely. We describe a child with tinea faciei caused by Microsporum canis, who subsequently developed an abscess. Complete resolution occurred after treatment with oral terbinafine.

Survey on the epidemiology of Microsporum canis infections in Crete, Greece over a 5-year period

BACKGROUND

Microsporum canis is a frequent cause of tinea capitis and tinea corporis in Europe and especially in the Mediterranean area. Objective This study was undertaken to examine the epidemiologic features of all cases of M. canis infections recorded in Crete, Greece, during a 5-year period (1994-1998).

METHODS

The epidemiology of 111 cases of dermatophytoses due to M. canis was analyzed according to the sex, age, origin of the infection, place of residence, body site affected, and seasonal progression.

RESULTS

M. canis constituted 24.5% of all dermatophytes isolated during the study period. Women were more frequently affected than men (54%), and infections were most prevalent in patients up to the age of 9 years (46.8%). Cats were identified as the commonest source of the infection (82%). As regarding the place of residence, most of the infected patients came from rural areas (64.9%). The commonest sites of M. canis infection (in decreasing order of frequency) were: the head, the lower extremities, the trunk, and the upper extremities. The greatest number of cases were seen in September and December.

CONCLUSIONS

The findings of the present study indicate that M. canis infections have gradually decreased in recent years in this geographic area. Eradication requires elimination of the natural source of the infection, represented mainly by stray animals.

Dermatophytes isolated from asymptomatic stray cats

Most human cases of dermatophytosis diagnosed in Siena, Italy, in the last 5 years have been caused by two zoophilic species: Microsporum canis and Trichophyton mentagrophytes. Since many patients had a history of contact with apparently healthy stray cats, we examined the fur of 173 stray cats for dermatophytes. The cats were captured in different parts of Siena and none of them had mycotic lesions. Microsporum canis was isolated in 82 cats, Trichophyton mentagrophytes in three and Microsporum gypseum in one. Trichophyton terrestre was isolated in two cats. No significant differences were found in terms of sex and race, however, healthy carriers were significantly more frequent in the 1-year age group. The investigation showed that, in Siena, stray cats are a significant reservoir of Microsporum canis and source of infection for man.

Tinea capitis in children in the district of Cagliari, Italy

Between 1986 and 1995, 4104 children were observed in the Clinic of Dermatology in Cagliari, Italy. Three hundred and thirty-six children (8.2%), 188 boys and 148 girls, aged 1 month to 13 years, were affected by tinea capitis. Microsporum canis was detected in 278 cases (82.7%) and Trichophyton mentagrophytes in 58 cases (17.3%). Systemic treatment with 20-25 mg kg-1 day-1 griseofulvin led to complete recovery in 30-40 days. None of the patients relapsed. The epidemiology of the infection was analysed according to age, sex and seasonal progression. Microsporum canis was the preponderant aetiological agent of tinea capitis in children in the district of Cagliari, Italy.

Dermatophytomycoses in children in rural Kenya: the impact of primary health care

In a survey of 5780 children from 13 schools in rural Kisumu District (western Kenya) in 1993, a prevalence rate of dermatophytomycoses of 10.1% was found. Three-quarters of the affected children suffered from tinea capitis (prevalence rate 7.8%), caused by Microsporum audouinii var. langeronii, Trichophyton violaceum and Microsporum canis. In 1994, a dermatology programme within the primary health care system was started. Twelve community health workers (CHWs), trained in diagnosis and treatment of the most common skin diseases, carried out regular school visits once a week. All dermatophytomycoses, dry forms of tinea capitis included, were treated locally with Whitfield's ointment. In 1995 the prevalence rate of fungal skin infections in the same schools was found to be 9.3%; the difference to 1993 was not significant. Only tinea capitis, with a prevalence rate of 5.8%, showed a significant reduction (P < 0.05). Altogether, a distinctive improvement regarding the extent and the severity of dermatophytomycoses could be noticed. In the cultures from tinea capitis, Microsporum canis was not found to be present. Trained community health workers are capable of the diagnosis and treatment of fungal skin infections of children in rural areas, which leads to a reduction in the prevalence of tinea capitis.

Microsporum canis infections in children: results of a new oral antifungal therapy

Clinical and laboratory data from 22 children with tinea corporis and tinea capitis caused by Microsporum canis (10 tinea corporis, 12 tinea capitis), confirmed by microscopic examination and culture and partly pretreated with griseofulvin or terbinafine, are summarized. The children were treated consecutively with itraconazole in our clinic during 1994/95. The age of the children ranged between 4 and 13 years, with girls being affected much more frequently than boys. Oral, individually adapted, high-dose treatment of 5 mg itraconazole per kg body weight proved to be successful. In all 22 children, although pretreatment with griseofulvin or terbinafine was partly unsuccessful, fungal infections could be cured clinically and also were culture negative at control examinations. In 10 children with tinea corporis treatment was performed only for 4-14 (middle 11) days. In the children with tinea capitis itraconazole treatment was continued for 3-11 weeks. Among the six children without pretreatment, itraconazole solution was administered for 4-11 weeks (average 7.5 weeks). Of the patients in whom pretreatment was unsuccessful, four with griseofulvin and two with terbinafine, the duration of the subsequent oral treatment with itraconazole solution was 3-5 weeks (average 3.6 weeks). The drug seemed to be well tolerated-no significant side-effects occurred, with the exception of possible minor gastrointestinal disturbances in two patients. Laboratory values remained within normal limits.

Isolation of fungi from the pelage of cats and dogs using the hairbrush technique

A total of 178 cats and 59 dogs in Palmerston North, New Zealand were sampled for the presence of keratinophilic fungi on their pelage; 57.8% had fungi. The fungi were classified in 20 genera with the predominant species being members of the genera; Chrysosporium, Microsporum and Trichophyton. Cats were the major carriers of keratinolytic fungi. 18.5% of the cats and 5.1% of the dogs were either carriers or infected with M. canis. Microsporum canis was a frequent isolate and its distribution had a seasonal variation, with a peak appearing in May-June.

Fungal flora of the hair coat of stray cats in Iran

The fungal flora of the hair coat of 100 stray cats in different districts of the city of Isfahan, Iran, were examined. Saprophytic fungi were isolated from all cats. Penicillium, Aspergillus, Alternaria, Mucor and Cladosporium spp. were the most frequently isolated saprophytes. Microsporum canis was isolated from all kittens with clinical signs of dermatophytosis. In other cases, M. canis was isolated only from 22 of the 96 cats. No significant differences in sex, hair length, and fungal flora of the hair coat were found between the M. canis-infected and M. canis-free cats.

Seasonal study of the fungal biota of the fur of dogs

During a one year period, 944 dogs from the Municipal kennel of Barcelona were examined to detect animals with suspected dermatophytosis. Only a few animals (1.8%) presented skin lesions but none of them had dermatophytosis. A representative number of dogs without visible skin lesions (n = 172), selected at random, were used to carry out a seasonal study of the mycobiota of their fur. Fifteen isolates belonging to the genera Microsporum and Trichophyton were isolated from 14 of the 172 (8.1%) dogs without lesions. The identity of these fungi was Microsporum gypseum (6/15), Trichophyton terrestre (4/15), M. canis (2/15), M. cookei (2/15) and Trichophyton ajelloi (1/15) (one strain each of M. gypseum and T. ajelloi were isolated from one dog). Species of Penicillium (% prevalence = 89.5%), Alternaria (86.6%), Cladosporium (84.9%), Aspergillus (77.3%), Scopulariopsis (65.7%) and Chrysosporium (64.5%) were the most prevalent. No significant differences in the fungal biota were observed with respect to age, gender, hair length or between mixed and pure breed dogs. A large number of isolates, including species belonging to the genera Beauveria, Chrysosporium, Malbranchea and Scopulariopsis, that macroscopically and/or microscopically resemble dermatophytes and may be mistaken for them, produced a red color change in Dermatophyte Test Medium. No significant seasonal difference was detected among the isolates belonging to the most frequently encountered genera, with the exception of Scopulariopsis (higher in summer and autumn) and Chrysosporium (higher in summer). Species from other genera, with lower occurrence also presented significant differences in their seasonal distribution. Arthrinium, Aureobasidium, Chaetomium and Phoma spp. presented maximum prevalence peaks in spring, Fusarium, Paecilomyces, Phoma and Rhizopus spp. in summer and Geotrichum and Mucor spp. in autumn. The Microsporum and Trichophyton species were more frequently isolated in summer.

Investigations of a killed dermatophyte cell-wall vaccine against infection with Microsporum canis in cats

A laboratory-prepared killed Microsporum canis cell-wall vaccine was evaluated under conditions simulating an accidental infection of a cattery, by inoculating eight- to nine-week-old cats with the vaccine or with a placebo control. The vaccinated cats developed high titres of anti-dermatophyte IgG as measured by an ELISA, and a small cell-mediated response against M canis as measured by a lymphocyte blastogenesis assay, using a whole fungus extract. After being inoculated the cats were challenged by the introduction of an infected cat into the same room. All the vaccinated and control cats became culture-positive for M canis within four weeks of the introduction of the infected cat. Four of the six control cats and all the vaccinated cats developed lesions consistent with dermatophytosis within 16 weeks after exposure to the infected cat.

Feline dermatophytosis. Recent advances and recommendations for therapy

Feline dermatophytosis is one of the most common skin diseases of cats. In the past, much of the information available on this subject stemmed from clinical observations. This article summarizes current research findings on the epidemiology, immunology, pathogenesis, and treatment of feline dermatophytosis. As a result of these studies, the authors propose new recommendations for treatment.

Dermatophytes from cases of skin disease in cats and dogs in Turin, Italy

In urban environments, pet animals such as dogs and cats may be largely responsible for the progressive increase of zoophilic over anthropophilic dermatophytes in the aetiology of human dermatophytoses. Mapping, in each city, of the natural foci of zoophilic dermatophytes may thus be important for understanding the epidemiology of human dermatophytoses, and for planning preventive measures. We have surveyed dogs and cats suspected of carrying dermatophytic lesions in the Turin area. Hairs, skin scrapings and the contents of pustules or vesicles were inoculated on Dermasel agar supplemented with choramphenicol and cycloheximide. The mating type of the isolates was checked, testing their compatibility with the two mating types of Arthroderma simii Stockdale, Mackenzie and Austwick. We isolated dermatophytes from about 40% of the cases examined. Microsporum canis Bodin was the only dermatophyte found in the lesions. In the cats the lesions were more frequent, in the dogs more severe. Animals less than a year old and male dogs were most often affected. Some cases of transmission of the infection between animals and from animals to man are described. All the isolates of M. canis, tested for mating behaviour, were non-reactive.

Dermatophytes and other keratinophilic fungi causing ringworm of horses

From 60 horses showing skin lesions, 42% were positive for fungal infection. Horses less than 2-year old were more susceptible to this infection. Fourteen species belonging to nine genera of keratinophilic and cycloheximide-resistant fungi were recovered from collected specimens. Trichophyton was the dominant genus of which T. equinum was the most common. This species proved to be the main causative agent of ringworm in horses. In addition to dermatophytes, many species of the isolated fungi were keratinophilic. The presence of such fungi on hairs and skin of horses may create an opportunity for them under special circumstances to become invasive to the skin or hair and thus cause primary or secondary infection of the animals.

Development of an experimental model of Microsporum canis infection in cats

An experimental infection model was developed for reliable induction of Microsporum canis skin infections in cats, using a defined number of macroconidia harvested from the fungus in culture. The strain of M. canis used produced highly fluorescent hairs under ultraviolet illumination. Kittens 8 to 9 weeks of age (n = 6) received 10(5) macroconidia applied topically to a closely-shaved area of skin. Sites were dressed with an occlusive bandage for 3 days, then grooming was restricted for an additional 4 weeks. Lesions were first observed 2 weeks after inoculation, enlarged over the following 6 to 8 weeks, then decreased in size and appeared healed at 12 to 14 weeks after inoculation. Cats often developed satellite lesions on the face, ears, or other body regions. The experimental infections strongly resembled moderately severe cases of naturally-occurring feline dermatophytosis in clinical patients. This experimental infection model will be useful for evaluation of topical and systemic treatments for feline M. canis infection.

Successful treatment of griseofulvin-resistant tinea capitis in infants

We report on three siblings, children of a farmer, aged 3-8 years, suffering from tinea capitis due to Microsporum canis. Initially, the infection was treated systemically with griseofulvin as well as externally for 5 months without success. Therapy was changed to itraconazole 33 mg per day orally. Laboratory investigations followed every 4-6 weeks. Dependent on the dose per kg body weight the children were cured clinically after 2-5 months and microbiologically after 5-8 months. Thus, itraconazole seems to be superior to conventional treatment with Microsporum canis-induced tinea capitis.

[Interspecific outbreaks of dermatomycoses +caused by Microsporum canis and Microsporum gypseum]

Dermatomycosis in domestic animals are important zoonosis in view of the fact that they maintain close contact with human beings. Seven ringworm outbreaks are here described, one of M. gypseum involving a cat and a women and the remainder of M. canis involving 20 human beings (adults, young people and children), 5 dogs, 16 cats and a gibbon-monkey (Hylobates lar).

Dermatophytes and other associated fungi isolated from ringworm lesions of camels

Among 75 camels showing skin lesions, 48% were positive for fungal infection. The younger individuals were more susceptible to this infection. Sixteen species belonging to nine genera of keratinophilic and cycloheximide-resistant fungi were recovered from diseased camels. Trichophyton, Microsporum and Chrysosporium were the most common genera. T. verrucosum appeared to be the main cause of ringworm in small camels while T. mentagrophytes infected older ones. Camel skin presents a suitable habitat for the growth of some dermatophytes and other potentially pathogenic fungi.

Inflammatory ringworm with unusual features

Zoophilic dermatophyte infections are often inflammatory but severe widespread inflammatory lesions of glabrous skin, as in the female patient described, are unusual. Most cases of M. canis ringworm can be traced to an infected animal. This dermatophyte is associated with a variety of clinical presentations on glabrous skin and is being isolated with increasing frequency in some countries.

Tinea corporis due to Microsporum canis from an asymptomatic dog

The patient was a 19-year-old female student who purchased a puppy from a pet shop four weeks earlier. At the time of her first examination, an annular edematous erythema with adherent scales and vesicles surrounding its margin was seen on the left forearm. On direct examination of the vesicles, fungal elements were detected, and Microsporum canis was isolated. The puppy was a Pomeranian and was kept in the house at all times. No clinical lesions were seen on the puppy, and the Wood's lamp test was negative. However, M. canis was isolated from the animal by the hairbrush method. Symptoms disappeared after the patient was treated topically with terbinafine cream for three weeks. Although the dog received no treatment whatsoever, there was no evidence of the disease on the pet. Results of the hairbrush method performed on the pet two and three weeks later were negative, but, at five weeks, it was again positive. Human infection with M. canis from an asymptomatic dog was demonstrated in this case. Attention should be paid to preventing infections from animals without lesions.

Management of dermatophyte infections in catteries and multiple-cat households

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.

Keratinophilic fungi on sheep hairs from the West Bank of Jordan

The mycoflora of the hair in 285 sheep from the West Bank of Jordan was analysed and the frequency of occurrence and the relative importance value for different fungal species found were calculated. Ninety six species which belong to 36 genera were isolated. Forty one of these species were either well-known agents of animal and human mycoses (Trichophyton verrucosum, T. mentagrophytes, Microsporum nanum, M. canis, and others), or have been isolated from human and animal lesions (Arthroderma cuniculi, A. curreyi, Chrysosporium tropicum, Acremonium kiliense, Aphanoascus fulvuscens, Aspergillus versicolor, Paecilomyces lilacinus, Scopulariopsis brevicaulis, and others). These pathogenic fungi comprised 75.4% of all fungi recovered from the hair of sheep. This animal seems to represent an adequate reservoir for several dermatophytes and several potentially pathogenic fungi.

Keratinophilic fungi on the hair of goats from the West Bank of Jordan

The mycoflora of the hair in 178 goats from the West Bank of Jordan was analysed and the frequency of occurrence and the relative importance value for the different keratinophilic fungi found were calculated. One hundred and seven species which belong to 38 genera were isolated. Thirty six of these species were either well recognised agents of mycoses (Trichophyton mentagrophytes, T. verrucosum, and M. nanum), or have been frequently isolated from human and animal lesions (Arthroderma spp., Acremonium kiliense, Alternaria alternata, Aspergillus flavus, Cladosporium carionii, and several other species). These potentially pathogenic fungal species comprised 66.9% of all keratinophilic fungi found on the hair of goats. The role of this animal as a reservoir for dermatophytes and other potentially pathogenic fungi is discussed.

Keratinophilic fungi on the hair of cows, donkeys, rabbits, cats, and dogs from the West Bank of Jordan

The mycoflora of hair of 111 cows, donkeys, rabbits, cats, and dogs were analysed and the frequency of occurrence and the relative importance value of the different fungal species isolated were calculated. Total numbers of species 56, 45, 48, 23, and 11 were recovered from cows, donkeys, rabbits, cats, and dogs respectively. The majority of the keratinophilic fungi isolated were either well-known mycotic agents or have been recovered from various animal and human lesions. These comprised 87.8%, 66.7%, 61.4%, 59.3%, and 55.2% of the hair mycoflora in cats, dogs, rabbits, cows, and donkeys respectively. Seven species of dermatophytes were isolated: Trichophyton mentagrophytes, T. verrucosum, Microsporum gypseum, M. nanum, T. ajelloi, and M. canis. Cats harboured the largest number of dermatophytes (5 species), followed by cows (4 spp), rabbits (3 spp), and donkeys and dogs (1 sp). The role of these animals in the persistence and transmission of pathogenic fungi is discussed.