Abstract
Trichinella spp. are zoonotic parasites that are widely distributed in warm-blooded carnivores and omnivores, including humans. Until the present moment, Brazil has been considered by World Animal Health Organization free from the domestic cycle of trichinellosis, whereas the parasite’s sylvatic cycle has the status of infection in limited zones. However, neighboring countries such as Argentina have reports of parasite larvae in the wild fauna. The present study aimed to determine the occurrence of Trichinella spp. in road-killed wild animals in Paraná, Brazil. Biological samples from 71 wild animals—29 Didelphis albiventris, 11 Nasua nasua, ten Cerdocyon thous, seven Dasypus novemcinctus, six Leopardus guttulus, six Sphiggurus spinosus and two Puma concolor—collected from November 2016 to November 2021 were subjected to artificial digestion, following the methodology described in the REGULATION (EC) No. 2075/2005. No Trichinella spp. larvae were detected in the carcasses of the road-killed wild animals. However, considering the wide spectrum of possible reservoirs that could act as a link between the sylvatic and domestic cycles and considering the current Brazilian status of sylvatic trichinellosis in limited zones, frequent monitoring of wild fauna remains necessary.
Keywords:
Nematode; trichinellosis; artificial digestion; zoonosis
Resumo
Trichinella spp. é um parasito zoonótico de distribuição mundial detectado em carnívoros e onívoros de sangue quente e humanos. Até o momento, o Brasil é considerado pela Organização Mundial de Saúde Animal livre do ciclo doméstico da doença, enquanto o ciclo silvestre do parasito tem status de infecção em áreas limitadas. No entanto, em países vizinhos como a Argentina, larvas do parasito foram encontradas na fauna silvestre. O presente estudo teve como objetivo determinar a ocorrência de Trichinella spp. em animais silvestres atropelados no Paraná, Brasil. Amostras biológicas de 71 animais silvestres – 29 Didelphis albiventris, 11 Nasua-nasua, dez Cerdocyon thous, sete Dasypus novemcinctus, seis Leopardus gattulus, seis Sphiggurus spinosus e dois Puma concolor– coletadas de novembro de 2016 a novembro de 2021 foram submetidas à digestão artificial, seguindo a metodologia descrita do REGULAMENTO (CE) Nº2075/2005. Não foram encontradas larvas de Trichinella spp. nas carcaças dos animais selvagens atropelados. No entanto, considerando o amplo espectro de possíveis reservatórios que podem atuar como elo entre os ciclos silvestre e doméstico e considerando a condição atual da triquinelose silvestre no Brasil em áreas limitadas, o monitoramento frequente da fauna silvestre é necessário.
Palavras-chave:
Nematódeos; trichinelose; digestão artificial; zoonose
Trichinella spp. is a zoonotic intracellular nematode with global distribution that infects warm-blooded carnivores and omnivores, causing trichinellosis. Trichinella spiralis is the most prevalent species in human infections and is transmitted mainly by the consumption of raw or undercooked pork meat, salami, sausages, and bacon that contain larvae of the parasite. Furthermore, in many countries, infection can result from the ingestion of game animals (Gottstein et al., 2009Gottstein B, Pozio E, Nöckler K. Epidemiology, diagnosis, treatment, and control of trichinellosis. Clin Microbiol Rev 2009; 22(1): 127-145. http://dx.doi.org/10.1128/CMR.00026-08. PMid:19136437.
http://dx.doi.org/10.1128/CMR.00026-08...
; Rostami et al., 2017Rostami A, Gamble HR, Dupouy-Camet J, Khazan H, Bruschi F. Meat sources of infection for outbreaks of human trichinellosis. Food Microbiol 2017; 64: 65-71. http://dx.doi.org/10.1016/j.fm.2016.12.012. PMid:28213036.
http://dx.doi.org/10.1016/j.fm.2016.12.0...
). Infection in humans occurs in two phases, intestinal and muscular, in which symptoms occur according to the infection stage, number of larvae ingested, and reproduction of adult nematodes in the small intestine mucosa. Symptoms are nausea, vomiting, transient diarrhea, myalgia, conjunctivitis, fever, headache, skin rash, and complications such as myocarditis, encephalitis, and thromboembolic disease (Gottstein et al., 2009Gottstein B, Pozio E, Nöckler K. Epidemiology, diagnosis, treatment, and control of trichinellosis. Clin Microbiol Rev 2009; 22(1): 127-145. http://dx.doi.org/10.1128/CMR.00026-08. PMid:19136437.
http://dx.doi.org/10.1128/CMR.00026-08...
).
Swine are infected by ingesting muscle tissue of animals with parasitic larvae, such as rodents and wild animals (Bruschi & Dupouy-Camet, 2014). In addition, although rare, equines can be accidentally infected through the consumption of pastures contaminated with carcasses of small rodents. As horse meat can be used an alternative source of protein, it may be a source of infection for humans in countries that consume this meat (Rostami et al., 2017Rostami A, Gamble HR, Dupouy-Camet J, Khazan H, Bruschi F. Meat sources of infection for outbreaks of human trichinellosis. Food Microbiol 2017; 64: 65-71. http://dx.doi.org/10.1016/j.fm.2016.12.012. PMid:28213036.
http://dx.doi.org/10.1016/j.fm.2016.12.0...
). Trichinellosis is considered a serious public health issue that negatively impacts the pork market, as it is on the list of mandatory notifiable diseases of the World Organization for Animal Health (OIE). Therefore, when the occurrence of Trichinella spp. is confirmed, international trade of meat products is embargoed (Pozio, 2015Pozio E. Trichinella spp. imported with live animals and meat. Vet Parasitol 2015; 213(1–2): 46-55. http://dx.doi.org/10.1016/j.vetpar.2015.02.017. PMid:25754352.
http://dx.doi.org/10.1016/j.vetpar.2015....
).
The parasite is maintained in the environment through two main cycles of predation of carcasses containing parasite larvae: the domestic cycle, in which pigs and rodents are the main hosts of T. spiralis, and the sylvatic cycle, which involves warm-blooded carnivores and omnivores hosting several species of Trichinella, including T. britovi, T. murrelli, T. nativa, T. nelson, T papuae, T. patagoniensis, T. pseudospiralis, T. spiralis e T. zimbabwensis (Krivokapich et al., 2012Krivokapich SJ, Pozio E, Gatti GM, Gonzalez Prous CL, Ribicich M, Marucci G, et al. Trichinella patagoniensis n. sp. (Nematoda), a new encapsulated species infecting carnivorous mammals in South America. Int J Parasitol 2012; 42(10): 903-910. http://dx.doi.org/10.1016/j.ijpara.2012.07.009. PMid:22921601.
http://dx.doi.org/10.1016/j.ijpara.2012....
). The disease’s status in wild animals in Brazil recently changed from “never reported” to “infection in limited zones” (WAHIS OIE, 2016World Organisation for Animal Health – WAHIS OIE. Information System [online]. 2016 [cited 2022 June 11]. Available from: https://wahis.oie.int/#/dashboards/country-or-disease-dashboard
https://wahis.oie.int/#/dashboards/count...
). Considering the possibility of transmission and maintenance of the disease between the domestic and sylvatic cycles, the present study aimed to determine the occurrence of Trichinella spp. in road-killed wild animals in the state of Paraná, Brazil.
The study was approved by the Biodiversity Authorization and Information System (SISBio) of the Environmental Institute (number 75977-1 and 55384-1) and by the Ethics Committee in the Use of Animals of the State University of Londrina (number 30/2017 and 130/2020). Biological samples from 71 road-killed wild animals collected between November 2016 and November 2021 from the northern region of the state of Paraná, Brazil, were obtained as described by Caldart et al. (2021)Caldart ET, Pinto-Ferreira F, Matos AMRN, Pascoal ATP, Bertão-Santos A, Mitsuka-Breganó R, et al. Evaluation of an active and early surveillance methodology for visceral leishmaniasis by molecular detection in road-killed wild fauna. Rev Bras Parasitol Vet 2021; 30(2): e027920. http://dx.doi.org/10.1590/s1984-29612021026. PMid:33978119.
http://dx.doi.org/10.1590/s1984-29612021...
. The collected animals were mapped using a Global Positioning System (GPS) and the point distributions were plotted using QGIS 2.14 software (Figure 1). Among the carnivores and omnivores, the carcasses of 29 Didelphis albiventris, 11 Nasua nasua, ten Cerdocyon thous, seven Dasypus novemcinctus, six Leopardus guttulus, six Sphiggurus spinosus and two Puma concolor were used. From each animal, an average of 5 g of diaphragm, masseter, and tongue fragments were packaged separately in freezer bags under freezing conditions. At the end of the collection period, a survey of T. spiralis larvae was performed using artificial digestion, following the methodology described in Regulation (EC) No. 2075/2005 (EU, 2005European Union – EU. Commission Regulation (EC) Nº 2075/2005 of December 2005 laying down specific rules on official controls for Trichinella in meat [online]. 2005 [cited 2022 June 11]. Available from: https://www.legislation.gov.uk/eur/2005/2075/contents
https://www.legislation.gov.uk/eur/2005/...
), which establishes specific official rules for the control of trichinellosis in meat.
Biological samples from 71 road-killed wild animals collected between November/2016 and November/2021 from the northem region of the state of Paraná, Brazil.
The samples were pooled according to species and collection period, with a maximum of 10 animals processed at a time, and each set consisted of three muscle fragments (masseter, tongue, and diaphragm). The fragments were crushed and subjected to digestion with 25% hydrochloric acid and 1:10,000 pepsin under agitation at 46 °C for 30 min to release larvae from the musculature. The product was filtered to retain the undigested tissues and placed in a decantation flask for 30 min. A 40-mL sample was dispensed into a graduated cylinder for further sedimentation for 10 min. Finally, 30 mL of the supernatant were discarded, and the remaining 10 mL were used to count the larvae in a petri dish under a stereomicroscope Motic SMZ 168 model, using 1.0 to 7.5 magnification.
No Trichinella spp. larvae were detected in the carcasses of the road-killed wild animals in the present study.
According Caldart et al. (2021)Caldart ET, Pinto-Ferreira F, Matos AMRN, Pascoal ATP, Bertão-Santos A, Mitsuka-Breganó R, et al. Evaluation of an active and early surveillance methodology for visceral leishmaniasis by molecular detection in road-killed wild fauna. Rev Bras Parasitol Vet 2021; 30(2): e027920. http://dx.doi.org/10.1590/s1984-29612021026. PMid:33978119.
http://dx.doi.org/10.1590/s1984-29612021...
, the sampling of road-killed wild animals is essential for studies related to public health and conservation of native species. Research and monitoring of Trichinella spp. in wild fauna are necessary to deepen the knowledge about trichinellosis in the sylvatic cycle in Brazil, especially considering the wide spectrum of potential reservoirs that link the sylvatic and domestic cycles.
The detection of Trichinella spp. could be performed during the post-mortem inspection through artificial digestion of carcasses of species used for human consumption (Gottstein et al., 2009Gottstein B, Pozio E, Nöckler K. Epidemiology, diagnosis, treatment, and control of trichinellosis. Clin Microbiol Rev 2009; 22(1): 127-145. http://dx.doi.org/10.1128/CMR.00026-08. PMid:19136437.
http://dx.doi.org/10.1128/CMR.00026-08...
), this method may also be applied for detecting larvae in wildlife reservoirs (Nöckler et al., 2000Nöckler K, Pozio E, Voigt WP, Heidrich J. Detection of Trichinella infection in food animals. Vet Parasitol 2000; 93(3–4): 335-350. http://dx.doi.org/10.1016/S0304-4017(00)00350-2. PMid:11099846.
http://dx.doi.org/10.1016/S0304-4017(00)...
). Artificial digestion method was selected as it allows pooling muscle samples of different individuals of the same species (Kapel et al., 2005Kapel CMO, Webster P, Gamble HR. Muscle distribution of sylvatic and domestic Trichinella larvae in production animals and wildlife. Vet Parasitol 2005; 132(1-2): 101-105. http://dx.doi.org/10.1016/j.vetpar.2005.05.036. PMid:15979801.
http://dx.doi.org/10.1016/j.vetpar.2005....
). This technique is highly sensitive and efficient for detecting 1-3 larvae/g of digested muscle tissue (Gamble et al., 2000Gamble HR, Bessonov AS, Cuperlovic K, Gajadhar AA, Van Knapen F, Noeckler K, et al. International commission on trichinellosis: recommendations on methods for the control of Trichinella in domestic and wild animals intended for human consumption. Vet Parasitol 2000; 93(3–4): 393-408. http://dx.doi.org/10.1016/S0304-4017(00)00354-X. PMid:11099850.
http://dx.doi.org/10.1016/S0304-4017(00)...
); however, sample size in studies on reservoir animals should be adjusted to >5 g, as their larval density is typically lower (Boireau et al., 2007Boireau P, Bruschi F, Dupouy-Camet J, Gamble HR, Nöckler K, Kapel CMO, et al. FAO/WHO/OIE Guidelines for the surveillance, management, prevention and control of trichinellosis [online]. Paris: World Organisation for Animal Health (OIE); 2007 [cited 2022 Jun 15]. Available from: http://www.trichinellosis.org/uploads/FAO-WHO-OIE_Guidelines.pdf
http://www.trichinellosis.org/uploads/FA...
).
European countries, such as Poland and Spain, have a higher prevalence of trichinellosis in humans, mainly associated with the consumption of wild boar meat from hunting (Moral et al., 2022Moral SM, Azorit C, López-Montoya AJ, Pérez JM. Epidemiology of Trichinella infection in wild boar from Spain and its impact human health during the period 2006-2019. Int J Parasitol Parasites Wildl 2022; 19: 18-25. http://dx.doi.org/10.1016/j.ijppaw.2022.07.008. PMid:35991947.
http://dx.doi.org/10.1016/j.ijppaw.2022....
). With the exception of Mexico, Trichinella spp. is widely distributed in North America, mainly observed in polar bears, red foxes, wild boars and puma (Crisóstomo-Jorquera & Landaeta-Aqueveque, 2022Crisóstomo-Jorquera V, Landaeta-Aqueveque C. The genus Trichinella and its presence in wildlife worldwide: a review. Trans Emerg Dis 2022. In press.).
Trichinellosis has also been reported in South America in Sus scrofa domesticus, Canis lupus familiaris, Felis catus, Chaetophractus villosus, Otaria flavescens, Puma concolor, Rattus norvegicus, and Lycalopex gymnocercus gracilis, which inhabit wild and agricultural environments (Ribicich et al., 2021Ribicich MM, Fariña FA, Aronowicz T, Ercole ME, Bessi C, Winter M, et al. Reprint of: a review on Trichinella infection in South America. Vet Parasitol 2021; 297: 109540. http://dx.doi.org/10.1016/j.vetpar.2021.109540. PMid:34384644.
http://dx.doi.org/10.1016/j.vetpar.2021....
). Echeverry et al. (2021)Echeverry DM, Santodomingo AMS, Thomas RS, González-Ugás J, Oyarzún-Ruiz P, Silva de la Fuente MC, et al. Trichinella spiralis in a cougar (Puma concolor) hunted by poachers in Chile. Rev Bras Parasitol Vet 2021; 30(3): e002821. http://dx.doi.org/10.1590/s1984-29612021033. PMid:34037188.
http://dx.doi.org/10.1590/s1984-29612021...
found approximately 10 larvae/g of sample in the carcass of an illegally hunted Puma concolor in Chile using artificial digestion. The aforementioned direct test was used to detect Trichinella spp. in wild animals in Argentina, it was found in Didelphis albiventris and Lutreolina crassicaudata (Castaño Zubieta et al., 2014Castaño Zubieta R, Ruiz M, Morici G, Lovera R, Fernández M, Caracostantogolo J, et al. First report of Trichinella spiralis from the White-Eared (Didelphis albiventris) and the Thick-Tailed Opossum (Lutreolina crassicaudata) in Central Argentina. Helminthologia 2014; 51(3): 198-202. http://dx.doi.org/10.2478/s11687-014-0229-4.
http://dx.doi.org/10.2478/s11687-014-022...
). Didelphs albiventris is a synanthropic animal widely distributed throughout the America, its epidemiological relevance refers to its ability to adapt to different environments, linking the environment of wild, rural and urban animals, including humans (Perez Carusi et al., 2009Perez Carusi LC, Farace MI, Ribicich MM, Gómez Villafañe IE. Reproduction and parasitology of Didelphis albiventris (Didelphimorphia) in an agroecosystem landscape in central Argentina. Mammalia 2009; 73(2): 89-97. http://dx.doi.org/10.1515/MAMM.2009.033.
http://dx.doi.org/10.1515/MAMM.2009.033...
).
Our negative result is similar with other studies performed in Brazil, such as that by Catão et al. (1975)Catão E, Brant PC, Mendes B, Ribeiro RMP, Tavares W. Swine trichinosis survey in Minas Gerais State, Brazil. Arq Esc Vet 1975; 27(1): 55-57., who also used the artificial digestion method to analyze 6,452 diaphragms of adult swine from the states of Paraná, Minas Gerais, São Paulo, and Goiás and found no larvae. Subsequently, Paim & Côrtes (1979)Paim GV, Côrtes VA. Pesquisa de Trichinella spiralis em roedores capturados na zona portuária de Santos. Rev Saude Publica 1979; 13(1): 54-55. http://dx.doi.org/10.1590/S0034-89101979000100008. PMid:462116.
http://dx.doi.org/10.1590/S0034-89101979...
examined 594 diaphragms of Rattus norvegicus from the port area of Santos, São Paulo state, using the trichinoscopy technique and detected no parasite larvae. In the same way, Daguer et al. (2005)Daguer H, Geniz PV, Vaz dos Santos A. Abscence of Thichinella spiralis in adult swines slaughtered in Palmas, Paraná, Brazil. Cienc Rural 2005; 35(3): 660-663. http://dx.doi.org/10.1590/S0103-84782005000300028.
http://dx.doi.org/10.1590/S0103-84782005...
performed artificial digestion of different muscle samples of 3,774 adult pigs from 68 municipalities in the southern region of Paraná, all of them with negative results. Salazar & Salotti-Souza (2017)Salazar AFN, Salotti-Souza BM. Avaliação da presença de Trichinella spiralis em equinos abatidos em Araguari, MG. Hig Aliment 2017; 31(268-269): 102-105. evaluated the presence of T. spiralis in 14,852 horses slaughtered in Araguari, Minas Gerais, Goiás, and Bahia using artificial digestion of muscle samples and found no larvae. Nonetheless it is important to highlight that herbivorous animals are considered uncommon hosts for this parasite.
Brazil is considered free from the domestic cycle of Trichinella spp. as the absence of the parasite has been reported in different animal species. Besides that, for the export of pork and equine meat to European Union countries, Brazil follows procedures defined in complementary standards (Decreto Nº 9.069 of May 31 – Brasil, 2017Brasil. Decreto nº 9.069, de 13 de maio de 2017. Diário Oficial da República Federativa do Brasil, Brasília, jun. 2017 [cited 2022 Jun 11]. Available from: https://www2.camara.leg.br/legin/fed/decret/2017/decreto-9069-31-maio-2017-784996-publicacaooriginal-152921-pe.html
https://www2.camara.leg.br/legin/fed/dec...
) that include post-mortem inspection of systematically sampled carcasses and sample collection for diagnosis following the European Union Regulation (EC) No. 2075/2005 (EU, 2005European Union – EU. Commission Regulation (EC) Nº 2075/2005 of December 2005 laying down specific rules on official controls for Trichinella in meat [online]. 2005 [cited 2022 June 11]. Available from: https://www.legislation.gov.uk/eur/2005/2075/contents
https://www.legislation.gov.uk/eur/2005/...
)
On the other hand, in 2016 the Brazilian status of ”never reported” for wild animals was replaced by “infection in limited zones”. The status has been changed after an official communication to governmental agencies of serological evidence of exposition to the parasite in wild boars, in vigilance from São Paulo, Mato Grosso, Santa Catarina and Rio Grande do Sul states by indirect ELISA (WAHIS OIE, 2016World Organisation for Animal Health – WAHIS OIE. Information System [online]. 2016 [cited 2022 June 11]. Available from: https://wahis.oie.int/#/dashboards/country-or-disease-dashboard
https://wahis.oie.int/#/dashboards/count...
) Recently, 115 samples of wild boar sera from the Southeast region of Brazil were submitted to an indirect ELISA test validated for wild boars and seven animals were reactive (6.1%). None of the serologically positive animals were tested by enzymatic digestion due to the lack of sample. In the same study, carcasses of 37 wild boars and 15 carnivores (six canids and nine felids) were subjected to the enzymatic digestion test, all of them resulted negative for the parasite (Silva et al., 2022Silva CS, Mendonça TO, Machado DMR, Arias-Pacheco CA, Oliveira WJ, Perin PP, et al. Seropositive wild boars suggesting the occurrence of a wild cycle of Trichinella spp. in Brazil. Animals (Basel) 2022; 12(4): 462. http://dx.doi.org/10.3390/ani12040462. PMid:35203170.
http://dx.doi.org/10.3390/ani12040462...
).
Summarizing, surveillance in domestic animals intended for human consumption has been carried out systematically in Brazil and presents robust results regarding the low level of infection for Trichinella in these species. On the other hand, serological evidence in wild boar draws attention to the need of intensify surveillance on these animals.
Furthermore, considering the wide spectrum of possible reservoirs that could act as a link between the sylvatic and domestic cycles and considering the current Brazilian status of sylvatic trichinellosis of infection in limited zones, frequent monitoring of wild fauna remains necessary.
Ethics declaration
The study was approved by the Biodiversity Authorization and Information System (SISBio) of the Environmental Institute (number 75977-1 and 55384-1) and by the Ethics Committee in the Use of Animals of the State University of Londrina (number 30/2017 and 130/2020)
Conflict of interest
The authors declare no conflicts of interest.
Acknowledgements
The authors are grateful to State University of Londrina (UEL) and Brazilian National Counsel of Scientific and Technological Depevopment (CNPq; Brazil), for support in the realization of this study. Navarro, IT is recipients of CNPQ fellowships and Jurkevicz RMB of UEL. We also thank Maurício Adir Silveira and Isabel Crisitina de Andrade Matos for kindly supplying the animal carcasses from 2020 to 2021.
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How to cite: Boson Jurkevicz RM, Silva DA, Ferreira Neto JM, Matos AMRN, Pires BG, Paschoal ATP et al. Absence of Trichinella spp. larvae in carcasses of road-killed wild animals in Paraná state, Brazil. Braz J Vet Parasitol 2022; 31(4): e010622. https://doi.org/10.1590/S1984-29612022054
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» http://dx.doi.org/10.2478/s11687-014-0229-4 - Catão E, Brant PC, Mendes B, Ribeiro RMP, Tavares W. Swine trichinosis survey in Minas Gerais State, Brazil. Arq Esc Vet 1975; 27(1): 55-57.
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» http://dx.doi.org/10.1590/S0103-84782005000300028 - Echeverry DM, Santodomingo AMS, Thomas RS, González-Ugás J, Oyarzún-Ruiz P, Silva de la Fuente MC, et al. Trichinella spiralis in a cougar (Puma concolor) hunted by poachers in Chile. Rev Bras Parasitol Vet 2021; 30(3): e002821. http://dx.doi.org/10.1590/s1984-29612021033 PMid:34037188.
» http://dx.doi.org/10.1590/s1984-29612021033 - European Union – EU. Commission Regulation (EC) Nº 2075/2005 of December 2005 laying down specific rules on official controls for Trichinella in meat [online]. 2005 [cited 2022 June 11]. Available from: https://www.legislation.gov.uk/eur/2005/2075/contents
» https://www.legislation.gov.uk/eur/2005/2075/contents - Gamble HR, Bessonov AS, Cuperlovic K, Gajadhar AA, Van Knapen F, Noeckler K, et al. International commission on trichinellosis: recommendations on methods for the control of Trichinella in domestic and wild animals intended for human consumption. Vet Parasitol 2000; 93(3–4): 393-408. http://dx.doi.org/10.1016/S0304-4017(00)00354-X PMid:11099850.
» http://dx.doi.org/10.1016/S0304-4017(00)00354-X - Gottstein B, Pozio E, Nöckler K. Epidemiology, diagnosis, treatment, and control of trichinellosis. Clin Microbiol Rev 2009; 22(1): 127-145. http://dx.doi.org/10.1128/CMR.00026-08 PMid:19136437.
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Publication Dates
-
Publication in this collection
21 Oct 2022 -
Date of issue
2022
History
-
Received
25 July 2022 -
Accepted
21 Sept 2022