ABSTRACT:

Pythiosis is a life-threatening disease that affects various species and is prevalent in regions with high humidity. The ailment is increasingly reported globally, and in Brazil, it is an important cause of profound economic and health losses in equines. This study aimed to explore the potential of intradermal immunotherapy as both a diagnostic and therapeutic approach for pythiosis in horses from the Pantanal region of Mato Grosso, Brazil. The horses were divided into three groups: those never diagnosed with pythiosis or with lesions that could be mistaken for pythiosis (Group 1); previously infected but successfully treated horses (Group 2); and horses with a positive diagnosis for pythiosis that were under treatment (Group 3). An immunotherapeutic product (PitiumVac^®) was administered intradermally. Injection site reaction and response to immunotherapy were assessed. The results indicated that intradermal immunotherapy could be a viable diagnostic and therapeutic tool, particularly in remote areas where traditional laboratory diagnosis methods are not readily accessible. The efficacy of intradermal administration was comparable to that of subcutaneous administration in treating pythiosis in horses, and the combined use of immunotherapy and triamcinolone acetonide yielded promising results for treating pythiosis in horses. However, further research is required to validate these findings. This study contributes to understanding and managing pythiosis more efficiently by providing a simple, cost-effective, and potentially efficient alternative approach to diagnosis and treatment.

INDEX TERMS:
Pythiosis; intradermal immunotherapy; equines; diagnosis; treatment

RESUMO:

A pitiose é uma doença potencialmente fatal que afeta várias espécies e é prevalente em regiões com alta umidade. A doença é cada vez mais relatada globalmente, e no Brasil é uma causa importante de profundas perdas econômicas e de saúde em equinos. Este estudo teve como objetivo explorar o potencial da imunoterapia intradérmica como uma abordagem diagnóstica e terapêutica para a pitiose em cavalos na região do Pantanal de Mato Grosso, Brasil. Os cavalos foram divididos em três grupos: aqueles que nunca foram diagnosticados com pitiose ou com lesões que poderiam ser confundidas com pitiose (Grupo 1); cavalos previamente infectados, mas tratados com sucesso (Grupo 2); e cavalos com diagnóstico positivo de pitiose em tratamento (Grupo 3). Um produto imunoterapêutico (PitiumVac^®) foi administrado intradermicamente. A reação no local da injeção e a resposta à imunoterapia foram avaliadas. Os resultados indicaram que a imunoterapia intradérmica pode ser uma ferramenta diagnóstica e terapêutica viável, particularmente em áreas remotas onde os métodos tradicionais de diagnóstico laboratorial não estão prontamente acessíveis. A eficácia da administração intradérmica foi comparável à da administração subcutânea no tratamento de pitiose em cavalos, e o uso combinado de imunoterapia e triancinolona acetonida produziu resultados promissores para o tratamento da pitiose em cavalos. No entanto, são necessárias mais pesquisas para validar esses achados. Este estudo contribui para o entendimento e o gerenciamento da pitiose de forma mais eficiente, fornecendo uma abordagem alternativa simples, econômica e potencialmente eficaz para diagnóstico e tratamento.

TERMOS DE INDEXAÇÃO:
Pitiose; imunoterapia intradérmica; equinos; diagnóstico; tratamento

Introduction

Pythiosis is a globally distributed disease commonly occurring in tropical, subtropical, and temperate regions with high moisture levels. This potentially fatal disease affects many species and is increasingly reported worldwide. Antimicrobial drugs are often ineffective, and radical surgery is frequently necessary, with recurrences and reinfections being common. Immunotherapy with Pythium insidiosum antigens has emerged as an alternative treatment, usually used with surgery to increase effectiveness (Santos et al. 2011Santos C.E.P., Santurio J.M. & Marques L.C. 2011. Pitiose em animais de produção no Pantanal Matogrossense. Pesq. Vet. Bras. 31(12):1083-1089. <https://dx.doi.org/10.1590/S0100-736X2011001200008>
https://doi.org/https://dx.doi.org/10.15... , Loreto et al. 2014Loreto É.S., Tondolo J.S.M., Zanette R.A., Alves S.H. & Santurio J.M. 2014. Update on pythiosis immunobiology and immunotherapy. World J. Immunol. 4(2):88-97. <https://dx.doi.org/10.5411/wji.v4.i2.88>
https://doi.org/https://dx.doi.org/10.54... , Loreto et al. 2020Loreto E.S., Tondolo J.S.M. & Santurio J.M. 2020. Pythium insidiosum - an emerging mammalian pathogen, p.13-28. In: Rai M., Abd-Elsalam K.A. & Ingle A.P. (Eds.) Pythium: Diagnosis, diseases and management. 1st ed. CRC Press, Boca Raton. <https://dx.doi.org/10.1201/9780429296406>
https://doi.org/https://dx.doi.org/10.12... , Yolanda & Krajaejun 2021Yolanda H. & Krajaejun T. 2021. History and perspective of immunotherapy for pythiosis. Vaccines, Basel, 9(10):1080. <https://dx.doi.org/10.3390/vaccines9101080> <PMid:34696188>
https://doi.org/https://dx.doi.org/10.33... ).

Numerous laboratory techniques exist to validate clinical diagnoses, given the potential for misdiagnosing the disease with other conditions, especially when manifested in cutaneous form in horses. Serological and molecular methods serve as potent instruments for prompt and precise diagnoses (Grooters et al. 2002Grooters A.M., Leise B.S., Lopez M.K., Gee M.K. & O’Reilly K.L. 2002. Development and evaluation of an enzyme-linked immunosorbent assay for the serodiagnosis of pythiosis in dogs. J. Vet. Intern. Med. 16(2):142-146. <https://dx.doi.org/10.1111/j.1939-1676.2002.tb02345.x> <PMid:11899028>
https://doi.org/https://dx.doi.org/10.11... , Santurio et al. 2006Santurio J.M., Leal A.T., Leal A.B.M., Alves S.H., Lubeck I., Griebeler J. & Copetti M.V. 2006. Teste de ELISA indireto para o diagnóstico sorológico de pitiose. Pesq. Vet. Bras. 26(1):47-50. <https://dx.doi.org/10.1590/S0100-736X2006000100010>
https://doi.org/https://dx.doi.org/10.15... , Gaastra et al. 2010Gaastra W., Lipman L.J.A., De Cock A.W.A.M., Exel T.K., Pegge R.B.G., Scheurwater J., Vilela R. & Mendoza L. 2010. Pythium insidiosum: an overview. Vet. Microbiol. 146(1/2):1-16. <https://dx.doi.org/10.1016/j.vetmic.2010.07.019> <PMid:20800978>
https://doi.org/https://dx.doi.org/10.10... , Azevedo et al. 2012Azevedo M.I., Pereira D.I.B., Botton S.A., Costa M.M., Mahl C.D., Alves S.H. & Santurio J.M. 2012. Pythium insidiosum: Morphological and molecular identification of Brazilian isolates. Pesq. Vet. Bras. 32(7):619-622. <https://dx.doi.org/10.1590/S0100-736X2012000700005>
https://doi.org/https://dx.doi.org/10.15... , Htun et al. 2020Htun Z.M., Rotchanapreeda T., Rujirawat T., Lohnoo T., Yingyong W., Kumsang Y., Sae-Chew P., Payattikul P., Yurayart C., Limsivilai O., Sonthayanon P., Mangmee S., Chongtrakool P. & Krajaejun T. 2020. Loop-mediated isothermal amplification (LAMP) for identification of Pythium insidiosum. Int. J. Infect. Dis. 101:149-159. <https://dx.doi.org/10.1016/j.ijid.2020.09.1430> <PMid:32987181>
https://doi.org/https://dx.doi.org/10.10... ). Additional methodologies, including histopathological staining, immunodiffusion, immunohistochemistry, and mycological culture, are also accessible and have been meticulously examined (Martins et al. 2012Martins T.B., Kommers G.D., Trost M.E., Inkelmann M.A., Fighera R.A. & Schild A.L. 2012. A comparative study of the histopathology and immunohistochemistry of pythiosis in horses, dogs and cattle. J. Comp. Pathol. 146(2/3):122-131. <https://dx.doi.org/10.1016/j.jcpa.2011.06.006> <PMid:21824626>
https://doi.org/https://dx.doi.org/10.10... , Chareonsirisuthigul et al. 2013Chareonsirisuthigul T., Khositnithikul R., Intaramat A., Inkomlue R., Sriwanichrak K., Piromsontikorn S., Kitiwanwanich S., Lowhnoo T., Yingyong W., Chaiprasert A., Banyong R., Ratanabanangkoon K., Brandhorst T.T. & Krajaejun T. 2013. Performance comparison of immunodiffusion, enzyme-linked immunosorbent assay, immunochromatography and hemagglutination for serodiagnosis of human pythiosis. Diagn. Microbiol. Infect. Dis. 76(1):42-45. <https://dx.doi.org/10.1016/j.diagmicrobio.2013.02.025> <PMid:23537786>
https://doi.org/https://dx.doi.org/10.10... , Tartor et al. 2020Tartor Y.H., Hamad M.H., Abouzeid N.Z. & El-Belkemy F.A. 2020. Equine pythiosis in Egypt: clinicopathological findings, detection, identification and genotyping of Pythium insidiosum. Vet. Dermatol. 31(4):298-e73. <https://dx.doi.org/10.1111/vde.12845> <PMid:32342602>
https://doi.org/https://dx.doi.org/10.11... ). These studies elucidate the typical clinical, pathological, and hematological manifestations of P. insidiosum infection, culture identification, direct sample PCR techniques, and immunohistochemical investigations. Nevertheless, the accessibility of these diagnostic resources is constrained in field settings, notably in isolated areas like the Brazilian Pantanal and Amazon biomes (Santos et al. 2011Santos C.E.P., Santurio J.M. & Marques L.C. 2011. Pitiose em animais de produção no Pantanal Matogrossense. Pesq. Vet. Bras. 31(12):1083-1089. <https://dx.doi.org/10.1590/S0100-736X2011001200008>
https://doi.org/https://dx.doi.org/10.15... , 2014Santos C.E.P., Ubiali D.G., Pescador C.A., Zanette R.A., Santurio J.M. & Marques L.C. 2014. Epidemiological survey of equine pythiosis in the Brazilian Pantanal and nearby areas: results of 76 cases. J. Equine Vet. Sci. 34(2):270-274. <https://dx.doi.org/10.1016/j.jevs.2013.06.003>
https://doi.org/https://dx.doi.org/10.10... , Barbosa et al. 2023Barbosa J.D., Oliveira H.G.S., Bosco S.M.G., Silveira N.S.S., Barbosa C.C., Brito M.F., Oliveira C.M.C. & Salvarani F.M. 2023. Cutaneous pythiosis in equines in the Amazon Biome. Pesq. Vet. Bras. 43:e07167. <https://dx.doi.org/10.1590/1678-5150-pvb-7167>
https://doi.org/https://dx.doi.org/10.15... ).

This study aims to describe the use of intradermal immunotherapy for diagnostic and therapeutic purposes in horses in the Pantanal region of Mato Grosso, Brazil.

Materials and Methods

Animal Ethics. All animal procedures were approved by the Ethical Committee on Animal Use (CEUA) of “Universidade Federal do Mato Grosso” (UFMT), number 23108.040953/12-1.

This study prospectively analyzed pythiosis in horses from the Pantanal region of Mato Grosso, Brazil, from 2007 to 2022. Animal data were obtained on-site based on requests from local veterinarians or animal owners. Technical visits were made to previous epidemiological surveys to raise awareness of the importance of early identification and treatment of animals affected with pythiosis or other misdiagnosed skin diseases.

To test the intradermal immunotherapy, a 1/10 fraction of the immunotherapeutic PitiumVac^® (0.2mL) (Santurio et al. 2003Santurio J.M., Leal A.T., Leal A.B.M., Festugatto R., Lubeck I., Sallis E.S.V., Copetti M.V., Alves S.A. & Ferreiro L. 2003. Three types of immunotherapics against pythiosis insidiosi developed and evaluated. Vaccine 21(19/20):2535-2540. <https://dx.doi.org/10.1016/S0264-410x(03)00035-5> <PMid:12744888>
https://doi.org/https://dx.doi.org/10.10... ) was used, which was inoculated intradermally (ID) in the neck of the experimental groups. The characteristics of the local lesion were verified between 24 and 72 h. The animals were divided into three groups: Group 1 (control; n=8), horses that never developed pythiosis or developed lesions that could be misdiagnosed; Group 2 (historical; n=6), healthy horses that previously had clinical pythiosis and were successfully treated; and Group 3 (cases; n=8), horses with skin lesions, with a positive diagnosis for pythiosis, and that have been treated with 2mL of the immunotherapeutic product. The animals in Group 3 were subdivided based on lesion diameter. They were subjected to a new therapeutic protocol, which included the application of PitiumVac^® (0.2mL, ID) and triamcinolone acetonide (50mg, IM) every 15 days until complete recovery.

Serum samples from all animals were obtained by jugular venipuncture and evaluated by indirect ELISA for pythiosis diagnosis (Santurio et al. 2006Santurio J.M., Leal A.T., Leal A.B.M., Alves S.H., Lubeck I., Griebeler J. & Copetti M.V. 2006. Teste de ELISA indireto para o diagnóstico sorológico de pitiose. Pesq. Vet. Bras. 26(1):47-50. <https://dx.doi.org/10.1590/S0100-736X2006000100010>
https://doi.org/https://dx.doi.org/10.15... ). Biopsies of more advanced lesions were collected for histopathological examination stained with hematoxylin-eosin (HE) and Grocott’s methenamine silver (GMS) staining. In addition, fragments of cutaneous tissues were subjected to the immunohistochemistry technique (Martins et al. 2012Martins T.B., Kommers G.D., Trost M.E., Inkelmann M.A., Fighera R.A. & Schild A.L. 2012. A comparative study of the histopathology and immunohistochemistry of pythiosis in horses, dogs and cattle. J. Comp. Pathol. 146(2/3):122-131. <https://dx.doi.org/10.1016/j.jcpa.2011.06.006> <PMid:21824626>
https://doi.org/https://dx.doi.org/10.10... ) and molecular characterization (PCR) in the affected tissues using specific primers for Pythium insidiosum, according to Azevedo et al. (2012)Azevedo M.I., Pereira D.I.B., Botton S.A., Costa M.M., Mahl C.D., Alves S.H. & Santurio J.M. 2012. Pythium insidiosum: Morphological and molecular identification of Brazilian isolates. Pesq. Vet. Bras. 32(7):619-622. <https://dx.doi.org/10.1590/S0100-736X2012000700005>
https://doi.org/https://dx.doi.org/10.15... .

The Shapiro-Wilk test was conducted to assess the adherence of the response variable “difference” data to the normal distribution in the control (n=8), historical (n=6), and case (n=7) animal groups. A non-normal distribution of data was observed in the historical group. Therefore, to compare the means of the response variable “difference” among the groups, the t-test with bootstrap was adopted, considering the presence of heterogeneous variances among the mentioned groups. Additionally, 95% confidence intervals were constructed using the percentile bootstrap method for the group means (Dwivedi et al. 2017Dwivedi A.K., Mallawaarachchi I. & Alvarado L.A. 2017. Analysis of small sample size studies using nonparametric bootstrap test with pooled resampling method. Stat. Med. 36(14):2187-2205. <https://dx.doi.org/10.1002/sim.7263> <PMid:28276584>
https://doi.org/https://dx.doi.org/10.10... ). The analyses were performed using R software, with a significance level set at 5% and employing 1,000 bootstrap resamples to obtain the confidence intervals.

Results

The results of the ID application of the immunotherapeutic product were consistent and coherent across all stratified groups. Group 1, consisting of animals that had never been diagnosed with pythiosis, showed discreet increases in volume (mild edema) as a reaction to intradermal inoculation, along with slight scaling (Fig.1). Among these animals, five had no skin lesions, two had trauma-related non-specific granulomas, and one was diagnosed with sarcoidosis on the face. A significant cutaneous reaction was observed in Group 2, composed of animals that had developed cutaneous pythiosis in previous years and recovered after using immunotherapy or its combination with surgery (Fig.1). All animals showed a substantial increase in local volume and moderate to severe edema around the application site. Moreover, partial local necrosis was observed in four animals. Abscess formation that fistulated and drained blood and pus was observed in two (Fig.2). In Group 3, consisting of animals with clinical pythiosis, the reactions were similar to those in Group 2, with edema ranging from moderate to severe (Fig.3). Two animals in this group, with initial circumscribed pythiosis lesions that were smaller than 5cm in diameter, recovered with only two intradermal applications of immunotherapy. However, one horse with a chronic multifocal pythiosis wound greater than 10cm in diameter did not elicit a reaction (Fig.4). In this severe pythiosis case, after unresponsive treatments with potassium iodide, amphotericin, and other therapies, we opted for the intradermal application of PitiumVac^® along with triamcinolone treatment (50mg/animal/IM, every 15 days) due to the animal’s depleted state that did not allow surgery. After three applications, the animal left the anergic state, expressed local edema after ID applications, and recovered in about 90 days (Fig.5 and 6). The success of this protocol was repeated in more advanced cases, in single (n=3) or multiple (n=3) lesions, with complete recovery of all the animals. Epidemiological data are shown in Table 1.

Fig.1-6.
Intradermal reaction sites of horses intradermally inoculated with PitiumVac^®. (1) Mild edema was predominantly observed in animals from Group 1 (without pythiosis). (2) Moderate to severe edema was observed in animals from Group 2 (animals that had pythiosis in the past and that were successfully cured). (3) Severe edema was the main reaction observed in animals from Group 3 (with clinical pythiosis). (4-6) Animal with chronic, unresponsive pythiosis that did not elicit a reaction to the intradermal application of the immunotherapeutic product. However, it was cured after receiving a treatment combining intradermal immunotherapy and triamcinolone acetonide every 15 days for three months.

The results of the Shapiro-Wilk test suggested that the distribution of the control and case groups was normal (p-value = 0.097 and p-value = 0.396). In contrast, the historical group had a non-normal distribution (p-value = 0.036). The analysis of means and standard deviations showed that the case, historical, and control groups had means of 99.429mm, 71mm, and 5.5mm, respectively, with standard deviations of 65.23mm, 27.698mm, and 2.268mm. By comparing the means through the t-test with bootstrap, significant differences were found between the control and historical groups (t = -5.778 and p-value = 0.003) and between the control and case groups (t = -3.808 and p-value = 0.006). However, there were no significant differences between the historical and case groups (t = -1.048 and p-value = 0.304). Based on the percentile bootstrap method with 1,000 resamples, the 95% confidence intervals for the means were as follows: for the case group, the interval ranged from 56.571 to 144.571mm; for the historical group, the interval was from 53.333 to 92.667mm; and for the control group, the interval was from 4.125 to 7.125mm, reflecting the homogeneity of measurements in this group. These confidence intervals reinforce the estimates of the means and the data interpretation within the research context.

Discussion

The findings of this study emphasize the effectiveness of the intradermal immunotherapy test in diagnosing and treating pythiosis in horses, especially in the challenging field conditions of the Pantanal region. Based on delayed-type hypersensitivity reaction to Pythium insidiosum antigens, the test has proven to be an efficient diagnostic tool for pythiosis, allowing for an immediate therapeutic response. This is particularly significant as pythiosis progresses rapidly, and advanced laboratory diagnostics are often inaccessible in remote areas (Hagebock et al. 1993Hagebock J.M., Schlater L.K., Frerichs W.M. & Olson D.P. 1993. Serologic responses to the mallein test for glanders in solipeds. J. Vet. Diagn. Investig. 5(1):97-99. <https://dx.doi.org/10.1177/104063879300500121> <PMid:8466990>
https://doi.org/https://dx.doi.org/10.11... , Silva et al. 2021Silva D.R., Rabahi M.F., Sant’Anna C.C., Silva-Junior J.L.R., Capone D., Bombarda S., Miranda S.S., Rocha J.L., Dalcolmo M.M.P., Rick M.F., Santos A.P., Dalcin P.T.R., Galvao T.S. & Mello F.C.Q. 2021. Diagnosis of tuberculosis: a consensus statement from the Brazilian Thoracic Association. J. Bras. Pneumol. 47(2):e20210054. <https://dx.doi.org/10.36416/1806-3756/e20210054> <PMid:34008763>
https://doi.org/https://dx.doi.org/10.36... ).

In the Pantanal region, it is only sometimes possible to use traditional laboratory methods such as mycological culture, PCR, and immunohistochemistry (Ubiali et al. 2013Ubiali D.G., Cruz R.A.S., De Paula D.A.J., Silva M.C., Mendonca F.S., Dutra V., Nakazato L., Colodel E.M. & Pescador C.A. 2013. Pathology of nasal infection caused by Conidiobolus lamprauges and Pythium insidiosum in sheep. J. Comp. Pathol. 149(2/3):137-145. <https://dx.doi.org/10.1016/j.jcpa.2012.12.002> <PMid:23375916>
https://doi.org/https://dx.doi.org/10.10... ). In these cases, the intradermal test is a practical and reliable alternative. Although laboratory methods are the gold standard for confirming pythiosis diagnosis, they require specialized equipment and expertise, making them less accessible in field settings. On the other hand, as demonstrated in our study, the intradermal test is easy to administer. It provides prompt results, which are crucial for early intervention and improved outcomes, especially under field conditions.

Notably, the advanced stage of the disease - chronic pythiosis - can lead to an anergic condition (Denotta & Mcfarlane 2023Denotta S. & Mcfarlane D. 2023. Immunosenescence and inflammaging in the aged horse. Immun. Ageing 20:2. <https://dx.doi.org/10.1186/s12979-022-00325-5> <PMid:36609345>
https://doi.org/https://dx.doi.org/10.11... ), which may affect the test results. Nevertheless, the intradermal test using a 0.2mL dosage via ID was as effective as the subcutaneous route for treating pythiosis in horses. These findings are consistent with experiments conducted by Weiblen et al. (2019)Weiblen C., Zanette R.A., Ribeiro T.C., Santos C.E.P., Ianiski L.B., Pereira D.I.B., Santurio J.M. & Botton S.A. 2019. Intradermal injection of Pythium insidiosum protein antigens for improved diagnosis and treatment of pythiosis in an experimental model. Med. Mycol. 57(7):807-812. <https://dx.doi.org/10.1093/mmy/myy078> <PMid:30260397>
https://doi.org/https://dx.doi.org/10.10... , which demonstrated that treatment effectiveness and cure rates did not differ significantly between intradermal and subcutaneous routes in treating experimentally induced pythiosis in rabbits. In addition, combining immunotherapy via ID with triamcinolone acetonide showed promising results in treating infected animals. However, further studies are necessary to investigate this therapeutic approach. Cardona-Álvarez et al. (2016)Cardona-Álvarez J., Vargas-Vilória M. & Patarroyo-Salcedo J. 2016. Cutaneous pythiosis in horses treated with triamcinolone acetonide. Part 1. Clinical characterization. Revta MVZ Córdoba 21(3):5511-5524. <https://dx.doi.org/10.21897/rmvz.825>
https://doi.org/https://dx.doi.org/10.21... proposed that the effectiveness of triamcinolone acetonide may be due to the immunomodulatory mechanism of glucocorticoids, which inhibit the synthesis, release, and action of cytokines and other mediators that promote the immune or inflammatory response. The main mechanism involves blocking the synthesis of the IL-5 cytokine and granulocyte-macrophage colony-stimulating factors, which induces apoptosis, thereby reducing the half-life and functions of eosinophils. This is because IL-5 is crucial for eosinophilopoiesis and enhances mature eosinophils’ functions (such as degranulation, adhesion, and cytotoxicity), prolonging cell survival.

Conversely, Yolanda & Krajaejun (2021)Yolanda H. & Krajaejun T. 2021. History and perspective of immunotherapy for pythiosis. Vaccines, Basel, 9(10):1080. <https://dx.doi.org/10.3390/vaccines9101080> <PMid:34696188>
https://doi.org/https://dx.doi.org/10.33... reported that in natural infection, Th2 activation produces IL-4 and IL-5 to attract and activate eosinophils and mast cells, thus blocking the host’s immune response. The immunomodulatory mechanism of triamcinolone may contribute to the effectiveness of the combined therapy. Immunotherapy modifies the host’s immune response, promoting cellular differentiation to Th-1 and inducing the release of cytokines such as IFN-ƴ and IL-2, which attract macrophages and cytotoxic T lymphocytes to the site of infection, helping to eliminate the pathogen.

Conclusions

Overall, the intradermal application of PitiumVac^® as an immunodiagnostic agent shows promise in simplicity, low cost, and ease of use. It may also reduce the cost of treatment, as only 10% of the therapeutic dose is needed for initial pythiosis cases. The combined use of immunotherapy with triamcinolone acetonide may have additive results, improving the clinical response of affected hosts. However, further studies are necessary to validate this approach.

The main limitation is the dependence on natural cases, as it is impossible to reproduce the disease in the equine host.

Acknowledgment

The authors thank Daniel Ubiali for histological analysis.

References

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