Snakebites in Rio Branco and surrounding region, Acre, Western Brazilian Amazon

Oliveira, Laiane Parente de; Moreira, José Genivaldo do Vale; Sachett, Jacqueline de Almeida Gonçalves; Monteiro, Wuelton Marcelo; Meneguetti, Dionatas Ulises de Oliveira; Bernarde, Paulo Sérgio

doi:10.1590/0037-8682-0214-2020

Abstract

INTRODUCTION

Snakebites are considered a neglected tropical disease in many countries in Latin America, including Brazil. As few studies have assessed snakebites in the Amazon region and especially in the state of Acre, epidemiological studies are of great importance. The present study aimed to describe the epidemiological characteristics of snakebites in the Rio Branco region, observing their characteristics in rural and urban areas and their correlation with rainfall and river outflow.

METHODS

This retrospective, descriptive study analyzed epidemiological information obtained from snakebite notifications registered on the Information System for Notifiable Diseases that occurred from March, 2018 to February, 2019. The cases of snakebite were correlated with rainfall and flow.

RESULTS

A total of 165 cases of snakebite were registered in the period. Most cases were caused by Bothrops and affected mainly individuals of the male sex who were between 21 and 30 years old. Most of the snakebites occurred in Rio Branco (71.52%; 29 cases per 100,000 inhabitants). Of these, 60.2% occurred in the urban area and 39.8% in the rural area and the majority occurred during the rainy season.

CONCLUSIONS

Although studies have shown that a majority of cases occur in rural areas, in this study, urbanization of snakebites was observed. The Bothrops genus was responsible for the highest number of snakebites and, during the rainy season, bites occurred more frequently. Educational prevention campaigns, population advice, and first aid in case of snakebites for the population are thus suggested.

Keywords:
Ophidism; Snake bite; Epidemiology; Amazon

INTRODUCTION

Snakebites are considered a neglected tropical disease in many countries in Africa, Asia, and Latin America¹1. Chippaux JP. Incidence and mortality due to snakebite in the Americas. PLoS Negl Trop Dis. 2017;11(6):e0005662.. Estimates show that more than 5 million snakebites occur every year in the world, with approximately 2 million envenomations which result in 94,000 deaths²2. Kasturiratne A, Wickremasinghe AR, De Silva N, Gunawardena NK, Pathmeswaran A, Premaratna R, et al. The global burden of snakebite: a literature analysis and modelling based on regional estimates of envenoming and deaths. PLoS Med. 2008; 5:e218.. This information on the estimation of cases per snakebite may be underestimated when the existence of non-notified cases is considered, and thus may represent data exceeding those mentioned above³3. Moreno E, Andrade MQ, Lira-da-Silva RM, Tavares-Neto J. Características clínicoepidemiológicas dos acidentes ofídicos em Rio Branco, Acre. Rev Soc Bras Med Trop. 2005;38(1):15-21..

In Brazil, there are 405 known species of snakes⁴4. Costa HC, Bérnils RS. Répteis do Brasil e suas Unidades Federativas: Lista de espécies. Herpetologia Brasileira. 2018;7(1):11-57.. Of these, sixty-six venomous snakes belong to the families Elapidae (genera: Micrurus, and Leptomicrurus), and Viperidae (genera: Bothrocophias, Bothrops, Crotalus, and Lachesis)⁴4. Costa HC, Bérnils RS. Répteis do Brasil e suas Unidades Federativas: Lista de espécies. Herpetologia Brasileira. 2018;7(1):11-57.. Most of the snakebites recorded in the Amazon are caused by Bothrops (88.7%), with B. atrox being responsible for most cases of envenomation³3. Moreno E, Andrade MQ, Lira-da-Silva RM, Tavares-Neto J. Características clínicoepidemiológicas dos acidentes ofídicos em Rio Branco, Acre. Rev Soc Bras Med Trop. 2005;38(1):15-21.^,⁵5. Roriz KRPS, Zaqueo KD, Setubal SS, Katsuragawa TH, Silva RRD, Fernandes CFC, et al. Epidemiological study of snakebite cases in Brazilian Western Amazonia. Rev Soc Bras Med Trop . 2018;51(3):338-46.^,⁶6. Mota-da-Silva A, Colombini M, Moura-da-Silva AM, Souza RM, Monteiro WM, Bernarde PS. Epidemiological and clinical aspects of snakebites in the upper Juruá River region, western Brazilian Amazonia. Acta Amaz. 2020;50(1):90-9..

In the state of Acre, the region known as Alto Juruá is characterized by a high incidence of snakebites⁶6. Mota-da-Silva A, Colombini M, Moura-da-Silva AM, Souza RM, Monteiro WM, Bernarde PS. Epidemiological and clinical aspects of snakebites in the upper Juruá River region, western Brazilian Amazonia. Acta Amaz. 2020;50(1):90-9.

7. Pierini SV, Warrell DA, De Paulo A, Theakston RDG. High incidence of bites and stings by snakes and other animals among rubber tappers and Amazonian indians of the Juruá Valley, Acre state, Brazil. Toxicon.1996;34(2):225-36.^-⁸8. Bernarde PS, Gomes JO. Serpentes peçonhentas e ofidismo em Cruzeiro do Sul, Alto Juruá, Estado do Acre, Brasil. Acta Amaz . 2012;42(1):65-72.. Pierini et al.⁷7. Pierini SV, Warrell DA, De Paulo A, Theakston RDG. High incidence of bites and stings by snakes and other animals among rubber tappers and Amazonian indians of the Juruá Valley, Acre state, Brazil. Toxicon.1996;34(2):225-36. found a prevalence of 13% for cases of snakebites in traditional populations (extractivists, riverines, and indigenous). In this region, the prevalence of snakebites is associated mainly with the activities of agriculture and extractivism, which are practiced by people living in rural areas and forests and who are thus more vulnerable⁶6. Mota-da-Silva A, Colombini M, Moura-da-Silva AM, Souza RM, Monteiro WM, Bernarde PS. Epidemiological and clinical aspects of snakebites in the upper Juruá River region, western Brazilian Amazonia. Acta Amaz. 2020;50(1):90-9.

7. Pierini SV, Warrell DA, De Paulo A, Theakston RDG. High incidence of bites and stings by snakes and other animals among rubber tappers and Amazonian indians of the Juruá Valley, Acre state, Brazil. Toxicon.1996;34(2):225-36.

8. Bernarde PS, Gomes JO. Serpentes peçonhentas e ofidismo em Cruzeiro do Sul, Alto Juruá, Estado do Acre, Brasil. Acta Amaz . 2012;42(1):65-72.

9. Mota-da-Silva A, Colombini M, Moura-da-Silva A, Souza R, Monteiro WM, Bernarde PS. Ethno-knowledge and attitudes regarding snakebites in the Alto Juruá region, Western Brazilian Amazonia. Toxicon. 2019;171:66-77.^-¹⁰10. Mota-da-Silva A, Sachett J, Monteiro WM, Bernarde PS. Extractivism of palm tree fruits: A risky activity because of snakebites in the state of Acre, Western Brazilian Amazon. Rev Soc Bras Med Trop . 2019;52:e-20180195..

In a retrospective study conducted at the Regional Hospital of Juruá in Cruzeiro do Sul in the state of Acre, Bernarde and Gomes⁸8. Bernarde PS, Gomes JO. Serpentes peçonhentas e ofidismo em Cruzeiro do Sul, Alto Juruá, Estado do Acre, Brasil. Acta Amaz . 2012;42(1):65-72. recorded the occurrence of 195 cases of snakebites attended to at the hospital in the two-year period (August, 2007 to July, 2009). In the municipality of Tarauacá, also in the state of Acre, a retrospective study¹²12. IBGE. Censo demográfico. Instituto Brasileiro de Geografia e Estatística (2019) [Internet]. Censo Demográfico. 2019. [updated 2019; cited 2019 Nov 10]. Available from: Available from: http://www.ibge.gov.br
http://www.ibge.gov.br... showed a high coefficient of morbidity due to snakebites in 2016 (72.5 cases per 100,000 inhabitants), which is higher than the coefficients recorded in municipalities such as Cruzeiro do Sul and Rio Branco. Although it is considered a health problem, there is still a knowledge gap regarding snakebites and their relationship with environmental conditions in the region of Rio Branco. The last study carried out in the region was conducted in 2002 and only contemplated epidemiological and clinical characteristics³3. Moreno E, Andrade MQ, Lira-da-Silva RM, Tavares-Neto J. Características clínicoepidemiológicas dos acidentes ofídicos em Rio Branco, Acre. Rev Soc Bras Med Trop. 2005;38(1):15-21.. In this respect, the present study aimed to describe not only the epidemiological and clinical characteristics of snakebites in the region of Rio Branco, Acre, Western Amazonia, but also the characteristics of the accidents that occurred in rural and urban areas and their correlation with rainfall and low seasonal river levels.

METHODS

The study was carried out using a retrospective approach and focused on the epidemiology of snakebites which occurred in the period from March, 2018 to February, 2019 and on the correlation of these cases with the respective rainfall and low seasonal river levels, the period from 2009 to 2018 was used.

The epidemiological data obtained were collected from the SINAN (Health Information Notification System) registry in the epidemiological surveillance sector for the municipality of Rio Branco, Acre, and included the cases dealt with in the accident and Emergency Hospital of Rio Branco. Accident and Emergency Hospital Rio Branco, which is the reference Center for the treatment of cases of snakebites occurring in the region of Acre Vale. This hospital treats victims of snakebites mainly from Rio Branco (Figure 1), but may also receive patients from other nearby municipalities (Assis Brasil, Bujari, Capixaba, Plácido De Castro, Porto Acre, Senador Guiomard, Sena Madureira and Xapuri) or further away (e.g., Boca do Acre, Jordão, Tarauacá and even from Porto Velho, state of Rondônia). The municipality of Rio Branco, Acre, has an estimated population of 407,319¹²12. IBGE. Censo demográfico. Instituto Brasileiro de Geografia e Estatística (2019) [Internet]. Censo Demográfico. 2019. [updated 2019; cited 2019 Nov 10]. Available from: Available from: http://www.ibge.gov.br
http://www.ibge.gov.br... , its territory is 8,834,942 km² and it is located in northwestern Brazil. According to the city plan, it can be observed that over the years, there has been an urban growth which has invaded the surrounding rural areas¹³13. Prefeitura de Rio Branco. Novo Plano Diretor de Rio Branco [Internet]. Rio Branco: Prefeitura de Rio Branco, 2017. [updated 2017; cited 2017 Jan 8]. Available from: Available from: http://riobranco.ac.gov.br/index.php/novo-plano-diretor-de-rio-branco.html
http://riobranco.ac.gov.br/index.php/nov... . However, despite this urbanization, some road systems located inside the urban area of Rio Branco still have characteristics of the old rural area (Figure 1).

FIGURE 1:
Map of Brazil and State of Acre and location of the municipality of Rio Branco (above) and the delimitation of its urban area (below).

From the Health Information Registry, the following variables were obtained: year and month of occurrence, the identification of the snake type (type of snakebite), location of accident (urban or rural) in the municipality of occurrence, and data on socio-demographics such as age and gender, in addition to clinical data such as the anatomical region affected, the time that had elapsed between the accident and care being administered, the number of vials used, local and systemic manifestations, the type of serum used in the treatment of victims and the severity of the envenomation. The region’s rainfall data and seasonal river levels were obtained from the sites of the National Water Agency - ANA¹⁴14. ANA. Agência Nacional das Águas [Internet]. 2020. [updated 2020; cited 2020 Jan 20]. Available from: Available from: http://estacoespnqa.ana.gov.br/estacoes.aspx
http://estacoespnqa.ana.gov.br/estacoes.... and the National Institute of Meteorology - INMET¹⁵15. INMET. Instituto Nacional de Meteorologia [Internet]. 2020. [updated 2020; cited 2020 Jan 20]. Available from: Available from: http://www.inmet.gov.br
http://www.inmet.gov.br... .

The ratio of morbidity rates (per 100,000 inhabitants) was calculated by dividing the number of people who had suffered snakebites by the number of people living in the region during the period, multiplied by 100,000. Only the cases that occurred in the municipality of Rio Branco were considered, since some of the cases may have been treated in the municipalities of origin and not in the Accident and Emergency Hospital in Rio Branco. With respect to the correlation of rainfall, seasonal river levels, and snakebites, during the period from 2009 to 2018, the null hypothesis (H₀), that there is no statistically significant correlation (p < 0.05) between the variables in focus, was tested using the Spearman non-parametric test, since a previous check linked the acceptance of the assumptions with the analysis of the bias of the parametric statistics¹⁶16. Zar JH. Biostatistical Analysis. 5th ed. Upper Saddle River: Prentice-Hall/Pearson; 2010. 944 p.^,¹⁷17. Zhang WY, Wei ZW, Wang BH, Han XP. Measuring mixing patterns in complex networks by Spearman rank correlation coefficient. Physica A. 2016;451:440-50..

This research is part of the project named "Snakebites occurring in Rio Branco and region (Acre)" approved by the Committee on Ethics and Research with Human Subjects at Fundação de Medicina Tropical Dr. Heitor Vieira Dourado (approval no. 3.223.051).

RESULTS

In the period from March, 2018 to February, 2019, 165 cases of snakebites were recorded, the majority (76.36%) were classified as being caused by Bothrops, followed by non-venomous snakes (9.70%), Micrurus (1.82%), and Lachesis (1.21%). Many of the snakebites occurred in the municipality of Rio Branco (71.52%; 29 cases per 100,000 inhabitants). Snakebites were almost as common in the urban area (46.06%) as the rural area (53.94%) and a greater proportion occurred during the rainy season (64.24%) (Table 1).

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TABLE 1:
Clinical and epidemiological characteristics of the cases of snakebites occurring in Rio Branco and the surrounding region (Acre - Brazil) during the period from March, 2018 to February, 2019.

Regarding the distribution of accidents, it was observed that the cases of snakebites occurred more often among males (64.85%) aged 21 to 30 years (22.42%). The main occupations of the victims were students (32.12% of the cases) and farmers (21.21%).

The largest proportion of the victims (29.09%) was treated in the hospital within the first three hours after the accident. However, 18.18% received late care, and were treated after 24 hours and most of the cases were classified as light (77.73%).

The lower limbs, feet (55.15%) and legs (27.88%) were the most affected. Local manifestations and complications consisted mainly of pain (92.12%) and edema (72.73%). Other manifestations also occurred, such as headache (3.03%), paresthesia (1.21%) and nausea (1.21%). Systemic manifestations and complications, such as changes in blood clotting time (23.68%), bleeding time (2.42%), dyspnoea (0.61%), palpebral ptosis (0.61%), haemorrhagic cerebrovascular stroke (0.61%) and decreased level of consciousness (0.61%) were also observed. During the study period no deaths were recorded.

Compared to the region as a whole, 71.52% of the cases of snakebites occurred in the municipality of Rio Branco. Of these cases, 60.17% occurred in the urban area and 39.83% in the rural area (Table 2). Snakebites caused by Bothrops were frequent both in the urban area (74.65%) and in the rural area (78.72%); there was no record of the occurrence of a snakebite caused by Lachesis in the urban area; and in the rural area there were no recorded bites caused by Micrurus.

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TABLE 2:
Comparison of clinical and epidemiological manifestations of snakebites occurring in urban and rural areas in the municipality of Rio Branco (Acre, Brazil) during the period from March, 2018 to February, 2019.

In relation to the historical series of snakebites (2009 to 2018), it has been found that the highest number of snakebites tends to concentrate in the months when the highest average precipitation and lowest river level occur. In the Spearman’s correlation analysis, there was a positive correlation between the variable snakebites with seasonal river level (r = 0.61, n = 120, p < 0.01) and with precipitation (r = 0.30, n = 120, p < 0.01). There was also a positive correlation between seasonal river level and precipitation (r = 0.49, n = 120, p < 0.01).

Snakebites occurred mainly in males, and a higher proportion of cases in females occurred in the urban area (42.5%) compared to rural areas (29.8%) (Pearson’s chi-squared = 5.8182, p = 0.0159). The 0-10 year age group (23.94%) in the urban area was the most affected; and in the rural area the 11-20 year age group was the most prevalent age group (31.91%). In the urban area, the majority of victims of snakebites had “other” listed as their occupation (59.15%), while in rural areas most of the victims were students (38.30%) and farmers (29.79%) (Table 2).

In the urban area, the largest proportion of the victims (66.19%) were treated in the hospital in the period up to 3 hours after the accident; however, in the rural area, the proportion of care given in the same period was 51.06%. The highest percentage of mild cases was registered in the urban area (88.73%) and moderate and severe in rural areas (25.53% and 4.26%, respectively) (Pearson chi-squared = 11.375, p = 0.0034).

DISCUSSION

During a period of 12 months, 165 cases were recorded in the Rio Branco region, more than that reported for the municipality of Tarauacá (29 cases) by Saboia and Bernarde¹¹11. Saboia CO, Bernarde PS. Acidentes ofídicos no município de Tarauacá, Acre, Oeste da Amazônia brasileira. J Hum Growth Dev. 2019;29(1):117-24. and for the Cruzeiro do Sul region (133 cases) by Mota-da-Silva et al.⁶6. Mota-da-Silva A, Colombini M, Moura-da-Silva AM, Souza RM, Monteiro WM, Bernarde PS. Epidemiological and clinical aspects of snakebites in the upper Juruá River region, western Brazilian Amazonia. Acta Amaz. 2020;50(1):90-9.. However, a lower morbidity ratio was observed in this study for the city of Rio Branco (29 cases/100,000 inhabitants) when compared to Tarauacá (72.5 cases/100,000 inhabitants) and Cruzeiro do Sul (76.2/100,000 inhabitants). This is probably due to a larger population who live in rural areas and forests and agricultural and extractive activities in these last two regions⁶6. Mota-da-Silva A, Colombini M, Moura-da-Silva AM, Souza RM, Monteiro WM, Bernarde PS. Epidemiological and clinical aspects of snakebites in the upper Juruá River region, western Brazilian Amazonia. Acta Amaz. 2020;50(1):90-9.^,¹¹11. Saboia CO, Bernarde PS. Acidentes ofídicos no município de Tarauacá, Acre, Oeste da Amazônia brasileira. J Hum Growth Dev. 2019;29(1):117-24., in relation to the capital. In relation to the previous study conducted in Rio Branco by Moreno et al.³3. Moreno E, Andrade MQ, Lira-da-Silva RM, Tavares-Neto J. Características clínicoepidemiológicas dos acidentes ofídicos em Rio Branco, Acre. Rev Soc Bras Med Trop. 2005;38(1):15-21., which recorded 89 cases, a reduction in the number of cases per inhabitants was observed, from 35.1/100,000 inhabitants, to 29/100,000 inhabitants. This reduction may be associated with the urbanization process of accidents, which are now more frequent in this area.

Most of the registered accidents were attributed to Bothrops (76.36%), which corroborates information in the literature which states that this type of envenomation is the most frequent in the Amazon⁶6. Mota-da-Silva A, Colombini M, Moura-da-Silva AM, Souza RM, Monteiro WM, Bernarde PS. Epidemiological and clinical aspects of snakebites in the upper Juruá River region, western Brazilian Amazonia. Acta Amaz. 2020;50(1):90-9.^,¹⁸18. Alcântara JA, Bernarde PS, Sachett JAG, Silva AM, Valente SF, Peixoto HM, et al. Stepping into a dangerous quagmire: macroecological determinants of Bothrops envenomings, Brazilian Amazon. PLoS One. 2018;13(12):e0208532.^,¹⁹19. Magalhães SFV, Peixoto HM, Moura N, Monteiro WM, Oliveira MRF. Snakebite envenomation in the Brazilian Amazon: a descriptive study. Trans R Soc Trop Med Hyg. 2019;113(3):143-51.. As expected, envenomation by Micrurus and Lachesis were uncommon (less than 2% each), and corroborates findings by other authors for the same region⁵5. Roriz KRPS, Zaqueo KD, Setubal SS, Katsuragawa TH, Silva RRD, Fernandes CFC, et al. Epidemiological study of snakebite cases in Brazilian Western Amazonia. Rev Soc Bras Med Trop . 2018;51(3):338-46.^,⁶6. Mota-da-Silva A, Colombini M, Moura-da-Silva AM, Souza RM, Monteiro WM, Bernarde PS. Epidemiological and clinical aspects of snakebites in the upper Juruá River region, western Brazilian Amazonia. Acta Amaz. 2020;50(1):90-9.^,¹⁹19. Magalhães SFV, Peixoto HM, Moura N, Monteiro WM, Oliveira MRF. Snakebite envenomation in the Brazilian Amazon: a descriptive study. Trans R Soc Trop Med Hyg. 2019;113(3):143-51.^,²⁰20. Bisneto PF, Alcântara JA, Silva IM, Sachett JAG, Bernarde PS, Monteiro WM, et al. Coral snake bites in Brazilian Amazonia: perpetrating species, epidemiology and clinical aspects. Toxicon. 2020;175:7-18.. There was no record of an envenomation involving Crotalus in this study. This was expected, since the rattlesnake (Crotalus durissus), is not reported in Acre⁸8. Bernarde PS, Gomes JO. Serpentes peçonhentas e ofidismo em Cruzeiro do Sul, Alto Juruá, Estado do Acre, Brasil. Acta Amaz . 2012;42(1):65-72., since it inhabits areas of cerrado, a type of vegetation that is absent in the state of Acre²¹21. Santos HLR, Sousa JDB, Alcântara JA, Sachett JAG, Villas Boas TS, Saraiva I, et al. Rattlesnakes bites in the Brazilian Amazon: Clinical epidemiology, spatial distribution and ecological determinants. Acta Tropica. 2019;191:61-76..

The snakebites analyzed in the present study had a greater occurrence during the rainy season (64,24%) and the historical series (2009-2018) was statistically associated with the low seasonal river levels and rainfall, thus confirming the observations of other studies³3. Moreno E, Andrade MQ, Lira-da-Silva RM, Tavares-Neto J. Características clínicoepidemiológicas dos acidentes ofídicos em Rio Branco, Acre. Rev Soc Bras Med Trop. 2005;38(1):15-21.^,⁶6. Mota-da-Silva A, Colombini M, Moura-da-Silva AM, Souza RM, Monteiro WM, Bernarde PS. Epidemiological and clinical aspects of snakebites in the upper Juruá River region, western Brazilian Amazonia. Acta Amaz. 2020;50(1):90-9.^,⁸8. Bernarde PS, Gomes JO. Serpentes peçonhentas e ofidismo em Cruzeiro do Sul, Alto Juruá, Estado do Acre, Brasil. Acta Amaz . 2012;42(1):65-72.^,¹¹11. Saboia CO, Bernarde PS. Acidentes ofídicos no município de Tarauacá, Acre, Oeste da Amazônia brasileira. J Hum Growth Dev. 2019;29(1):117-24.^,²²22. Angarita-Gerlein D, Bravo-Veja CA, Cruz C, Forero-Muñoz NR, Navas-Zuloaga MG, Umaña-Caro JD. Snakebite dynamics in Colombia: effects of precepittion seasonality on incidence. IBIO 4299 IRES. 2017.

23. Phillips C, Lipman GS, Gugelmann H, Doering K, Lung D. Snakebites and climate change in California, 1997 - 2017. Clin Toxicol. 2019;57(3):168-74.^-²⁴24. Ferreira AAF, Resis VP, Boeno CN, Evangelista JR, Santana HM, Serrath SN, et al. Increase in the risk of snakebites incidence due to changes in humidity levels: A time series study in four municipalities of the state of Rondônia. Rev Soc Bras Med Trop . 2020;53:e20190377.. This predominance of snakebites in the wettest months is probably related to the increase in snake activity in this period, due to the greater availability of prey and reproductive activities²⁵25. Martins M, Oliveira ME. Natural history of snakes in forests of the Manaus region, Central Amazonia, Brazil. Herpetol Nat Hist. 1999;6:78-150.^,²⁶26. Turci LCB, Albuquerque S, Bernarde PS, Miranda DB. Uso do hábitat, atividade e comportamento de Bothriopsis bilineatus e de Bothrops atrox (Serpentes: Viperidae) na floresta do Rio Moa, Acre, Brasil. Biota Neotrop. 2009;9:197-206.. In addition, a greater chance of encounters between snakes and humans can be due to certain agricultural and extractive activities developed in this period, and the fact that flooding causes these animals to search for dry land areas³3. Moreno E, Andrade MQ, Lira-da-Silva RM, Tavares-Neto J. Características clínicoepidemiológicas dos acidentes ofídicos em Rio Branco, Acre. Rev Soc Bras Med Trop. 2005;38(1):15-21.^,⁶6. Mota-da-Silva A, Colombini M, Moura-da-Silva AM, Souza RM, Monteiro WM, Bernarde PS. Epidemiological and clinical aspects of snakebites in the upper Juruá River region, western Brazilian Amazonia. Acta Amaz. 2020;50(1):90-9.^,²⁷27. Waldez F, Vogt RC. Aspectos ecológicos e epidemiológicos de acidentes ofídicos em comunidades ribeirinhas do baixo rio Purus, Amazonas, Brasil. Acta Amaz . 2009; 39:681-92..

The fact that the higher frequency of victims were male and bitten on the lower limbs corresponded to the epidemiological profile observed for the Brazilian Amazon⁵5. Roriz KRPS, Zaqueo KD, Setubal SS, Katsuragawa TH, Silva RRD, Fernandes CFC, et al. Epidemiological study of snakebite cases in Brazilian Western Amazonia. Rev Soc Bras Med Trop . 2018;51(3):338-46.^,⁶6. Mota-da-Silva A, Colombini M, Moura-da-Silva AM, Souza RM, Monteiro WM, Bernarde PS. Epidemiological and clinical aspects of snakebites in the upper Juruá River region, western Brazilian Amazonia. Acta Amaz. 2020;50(1):90-9.^,⁸8. Bernarde PS, Gomes JO. Serpentes peçonhentas e ofidismo em Cruzeiro do Sul, Alto Juruá, Estado do Acre, Brasil. Acta Amaz . 2012;42(1):65-72.^,¹⁹19. Magalhães SFV, Peixoto HM, Moura N, Monteiro WM, Oliveira MRF. Snakebite envenomation in the Brazilian Amazon: a descriptive study. Trans R Soc Trop Med Hyg. 2019;113(3):143-51., as well as for the other regions of Brazil²⁸28. Mise YF, Lira-da-Silva RM, Carvalho FM. Fatal Snakebite Envenoming and Agricultural Work in Brazil: A Case-Control Study. Am J Trop Med Hyg. 2019;100(1):150-4..

In regard to the locations of the accidents, it is noted that, in general, the rural areas showed slightly more than half of the cases (53.94%), and when analyzing only the municipality of Rio Branco, there was a greater predominance in the urban area (60.17%), contrary to what was observed in other studies, in which there is a greater predominance of snakebites in rural areas (more than 85% of the cases)⁵5. Roriz KRPS, Zaqueo KD, Setubal SS, Katsuragawa TH, Silva RRD, Fernandes CFC, et al. Epidemiological study of snakebite cases in Brazilian Western Amazonia. Rev Soc Bras Med Trop . 2018;51(3):338-46.^,⁶6. Mota-da-Silva A, Colombini M, Moura-da-Silva AM, Souza RM, Monteiro WM, Bernarde PS. Epidemiological and clinical aspects of snakebites in the upper Juruá River region, western Brazilian Amazonia. Acta Amaz. 2020;50(1):90-9.^,¹¹11. Saboia CO, Bernarde PS. Acidentes ofídicos no município de Tarauacá, Acre, Oeste da Amazônia brasileira. J Hum Growth Dev. 2019;29(1):117-24.^,¹⁹19. Magalhães SFV, Peixoto HM, Moura N, Monteiro WM, Oliveira MRF. Snakebite envenomation in the Brazilian Amazon: a descriptive study. Trans R Soc Trop Med Hyg. 2019;113(3):143-51.. This urbanization of snakebites was also observed for Belém do Pará in the eastern Amazon²⁹29. Silva RM, Guimarães CD, Hatano FM, Hatano FH. Acidentes ofídicos na região metropolitana de Belém, Pará, Brasil. Semina Ciênc Biol Saude. 2016;37(2):81-92., where 66% of cases were recorded in the urban area. This situation may have occurred due to the demographic and spatial growth of the city of Rio Branco, the decentralization of the urban area³⁰30. Mendonça JF, Cavalcante MMA, Morais M J. Via Verde: nova expressão de centralidade em Rio Branco, Acre-Brasil. Urbe. Rev Bras Gest Urb. 2019;11:e20180129., disordered expansion, and exodus from rural to urban areas³¹31. Franca SF, Cavalcante CRS, Silva AMC, Pinheiro FB, Ferreira JS, Siqueira RM, et al. Problemas urbanos e conflitos sociais: os conflitos causados pelos agentes promotores do espaço urbano na cidade de Rio Branco (AC) e Porto Velho (RO). DêCiência em Foco. 2018;2(2):127-140., where more than 90% of the population is concentrated¹²12. IBGE. Censo demográfico. Instituto Brasileiro de Geografia e Estatística (2019) [Internet]. Censo Demográfico. 2019. [updated 2019; cited 2019 Nov 10]. Available from: Available from: http://www.ibge.gov.br
http://www.ibge.gov.br... . There is also the existence of families living in high risk areas on the banks of the Acre River and associated streams, which are vulnerable to flooding. There is also occupation in the form of invasions of permanent preservation areas close to Environmental Protection Areas³¹31. Franca SF, Cavalcante CRS, Silva AMC, Pinheiro FB, Ferreira JS, Siqueira RM, et al. Problemas urbanos e conflitos sociais: os conflitos causados pelos agentes promotores do espaço urbano na cidade de Rio Branco (AC) e Porto Velho (RO). DêCiência em Foco. 2018;2(2):127-140.

32. Lima KDJV, Arcos FO, Serrano ROP, Lima YMS. Áreas de risco e ocupação urbana: o caso do bairro Raimundo Melo. Rio Branco, Acre - Brasil. Rev Geonorte. 2012;2 (4):197-206.^-³³33. Oliveira AV, Moreira JGV, Serrano ROP, Santos JS. Eventos Hidrológicos Extremos em Rio Branco, Acre- Amazônia Ocidental. In: Meneguetti N. F. S. P. (Ed.). Ciência, Inovação e Tecnologia na Amazônia 2, Rio Branco: Editora Stricto Sensu; 2019. p.310-328., which may also contribute to these accidents. Another factor that can contribute to snakebites in urban areas are the green areas (forest fragments) and floodplains present in cities, which favor the occurrence and encounter of some species of snakes²⁹29. Silva RM, Guimarães CD, Hatano FM, Hatano FH. Acidentes ofídicos na região metropolitana de Belém, Pará, Brasil. Semina Ciênc Biol Saude. 2016;37(2):81-92.^,³⁴34. Carvalho MA, Nogueira F. Serpentes da Área Urbana de Cuiabá, Mato Grosso: aspectos ecológicos e acidentes ofídicos associados. Cadernos de Saúde Pública. 1998;14(4):753-63.. The city of Rio Branco has some patches of forest and rivers³⁵35. Oliveira KA, Jesus IS. Espacialização e quantificação das áreas verdes no perímetro urbano no município de Rio Branco, Acre. In: Simpósio Brasileiro de Sensoriamento Remoto, 15, 2011, Anais... Curitiba: INPE. 2011;0877.^,³⁶36. Santos LR, Ferreira EJL, Silva CE. Florística e fitossociologia de um Sub-bosque Urbano em Rio Branco-AC, Brasil. Bióta Amazônica. 2018;8(3):28-33., which may explain some of the snakebites in the urban area.

Analyzing the time elapsed from the moment of the snakebite to the time of hospital care, most of the victims received care in the first six hours (67.27%), which indicates care occurring earlier when compared to the previous study by Moreno et al.³3. Moreno E, Andrade MQ, Lira-da-Silva RM, Tavares-Neto J. Características clínicoepidemiológicas dos acidentes ofídicos em Rio Branco, Acre. Rev Soc Bras Med Trop. 2005;38(1):15-21.. Their study indicates that only 58.3% of the cases were treated in this period. This decrease in the “time to treatment” was also described in a study carried out by Mota-da-Silva et al.⁶6. Mota-da-Silva A, Colombini M, Moura-da-Silva AM, Souza RM, Monteiro WM, Bernarde PS. Epidemiological and clinical aspects of snakebites in the upper Juruá River region, western Brazilian Amazonia. Acta Amaz. 2020;50(1):90-9. in the Alto Juruá region (60% treated within six hours), who attributed the cause to the increase in the number of ambulances and improvements in roads and telephone services as possible factors for this improvement in time.

A marked and expected difference was the greater speed of care of cases occurring in the urban area, which were closer to the hospital units than those in the rural area. In the urban área, 78.87% of the cases received care in the first six hours and in the rural area 63.83%. For the 24-hour period after the accident, the proportion was lower in the urban area (5.63%) and higher in the rural area (19.15%). This demonstrates that in the Amazon, some cases of snakebites occur in locations so far from urban centers, that they result in delays in hospital care or even lack of access to antivenom⁷7. Pierini SV, Warrell DA, De Paulo A, Theakston RDG. High incidence of bites and stings by snakes and other animals among rubber tappers and Amazonian indians of the Juruá Valley, Acre state, Brazil. Toxicon.1996;34(2):225-36.^,²⁷27. Waldez F, Vogt RC. Aspectos ecológicos e epidemiológicos de acidentes ofídicos em comunidades ribeirinhas do baixo rio Purus, Amazonas, Brasil. Acta Amaz . 2009; 39:681-92.. These are often due to displacement difficulties and, as such, may contribute to the severity of cases⁹9. Mota-da-Silva A, Colombini M, Moura-da-Silva A, Souza R, Monteiro WM, Bernarde PS. Ethno-knowledge and attitudes regarding snakebites in the Alto Juruá region, Western Brazilian Amazonia. Toxicon. 2019;171:66-77.^,³⁷37. Feitosa E, Sampaio V, Sachett J, Castro DB, Noronha MDN, Lozano JLL, et al. Snakebites as a largely neglected problem in the Brazilian Amazon: highlights of the epidemiological trends in the State of Amazonas. Rev Soc Bras Med Trop . 2015; 48:34-41.. In the urban area, there was a predominance of moderate and severe cases in the rural area, which is probably associated with greater speed of care.

Regarding the severity of snakebites, the frequency of mild (72.73%), moderate (21.82%) and severe (5.45%) corroborates with the study by Mota-da-Silva et al.⁶6. Mota-da-Silva A, Colombini M, Moura-da-Silva AM, Souza RM, Monteiro WM, Bernarde PS. Epidemiological and clinical aspects of snakebites in the upper Juruá River region, western Brazilian Amazonia. Acta Amaz. 2020;50(1):90-9. conducted in the Alto Juruá region (50%, 36.5%, and 13.5%, respectively) which shows that the highest occurrence of accidents was mild, followed by moderate and severe. However, these findings differ from what was observed in the previous study conducted in Rio Branco in 2002, in which moderate cases (48.6%) accounted for the majority of accidents, followed by mild (31.2%) and severe (20.2%) cases³3. Moreno E, Andrade MQ, Lira-da-Silva RM, Tavares-Neto J. Características clínicoepidemiológicas dos acidentes ofídicos em Rio Branco, Acre. Rev Soc Bras Med Trop. 2005;38(1):15-21.. This may be due to an improvement in the structure of the health care network in the state of Acre with serum availability and training of professionals for more appropriate clinical management of snakebites.

The most frequent symptoms presented in this study were pain (92.12%) and edema (72.73%), which are the most commonly observed in cases of Bothrops envenomations³3. Moreno E, Andrade MQ, Lira-da-Silva RM, Tavares-Neto J. Características clínicoepidemiológicas dos acidentes ofídicos em Rio Branco, Acre. Rev Soc Bras Med Trop. 2005;38(1):15-21.^,⁶6. Mota-da-Silva A, Colombini M, Moura-da-Silva AM, Souza RM, Monteiro WM, Bernarde PS. Epidemiological and clinical aspects of snakebites in the upper Juruá River region, western Brazilian Amazonia. Acta Amaz. 2020;50(1):90-9.^,¹¹11. Saboia CO, Bernarde PS. Acidentes ofídicos no município de Tarauacá, Acre, Oeste da Amazônia brasileira. J Hum Growth Dev. 2019;29(1):117-24.^,³⁸38. Pardal PPO, Souza SM, Monteiro MRC, Fan HW, Cardoso JLC, França FOS, et al. Clinical trial of two antivenoms for the treatment of Bothrops and Lachesis bites in the northeastern Amazon region of Brazil. Tran Roy Soc Trop Med Hyg. 2004;98(1):28-42.. Other symptoms and even complications observed less frequently in this study, such as cellulitis, ecchymosis, hemorrahage and necrosis, are also observed in Bothrops envenomations⁶6. Mota-da-Silva A, Colombini M, Moura-da-Silva AM, Souza RM, Monteiro WM, Bernarde PS. Epidemiological and clinical aspects of snakebites in the upper Juruá River region, western Brazilian Amazonia. Acta Amaz. 2020;50(1):90-9.^,¹¹11. Saboia CO, Bernarde PS. Acidentes ofídicos no município de Tarauacá, Acre, Oeste da Amazônia brasileira. J Hum Growth Dev. 2019;29(1):117-24.^,¹⁹19. Magalhães SFV, Peixoto HM, Moura N, Monteiro WM, Oliveira MRF. Snakebite envenomation in the Brazilian Amazon: a descriptive study. Trans R Soc Trop Med Hyg. 2019;113(3):143-51.^,³⁸38. Pardal PPO, Souza SM, Monteiro MRC, Fan HW, Cardoso JLC, França FOS, et al. Clinical trial of two antivenoms for the treatment of Bothrops and Lachesis bites in the northeastern Amazon region of Brazil. Tran Roy Soc Trop Med Hyg. 2004;98(1):28-42.. The blood clotting time observed (23.68%) was lower than that recorded in the previous study by Moreno et al.³3. Moreno E, Andrade MQ, Lira-da-Silva RM, Tavares-Neto J. Características clínicoepidemiológicas dos acidentes ofídicos em Rio Branco, Acre. Rev Soc Bras Med Trop. 2005;38(1):15-21. (43.1%) for Rio Branco and Tarauacá (55.5%)¹¹11. Saboia CO, Bernarde PS. Acidentes ofídicos no município de Tarauacá, Acre, Oeste da Amazônia brasileira. J Hum Growth Dev. 2019;29(1):117-24. and the Alto Juruá region (82.5%)⁶6. Mota-da-Silva A, Colombini M, Moura-da-Silva AM, Souza RM, Monteiro WM, Bernarde PS. Epidemiological and clinical aspects of snakebites in the upper Juruá River region, western Brazilian Amazonia. Acta Amaz. 2020;50(1):90-9.. This low frequency may have been due to the low sample number of tests performed, only 38, compared to that of the other three studies (90 to 129 tests performed)³3. Moreno E, Andrade MQ, Lira-da-Silva RM, Tavares-Neto J. Características clínicoepidemiológicas dos acidentes ofídicos em Rio Branco, Acre. Rev Soc Bras Med Trop. 2005;38(1):15-21.^,⁶6. Mota-da-Silva A, Colombini M, Moura-da-Silva AM, Souza RM, Monteiro WM, Bernarde PS. Epidemiological and clinical aspects of snakebites in the upper Juruá River region, western Brazilian Amazonia. Acta Amaz. 2020;50(1):90-9.^,¹¹11. Saboia CO, Bernarde PS. Acidentes ofídicos no município de Tarauacá, Acre, Oeste da Amazônia brasileira. J Hum Growth Dev. 2019;29(1):117-24..

Some differences were observed between the snakebites that occurred in the urban and rural areas of Rio Branco. Among them, the two laquetic accidents which occurred in the rural area and though none occurred in the urban area, which was to be expected, since the snake Lachesis muta is a species associated with the dense forests³⁹39. Campbell A, Lamar WW. The venomous reptiles of Latin America. Ithaca: Cornell University Press. 2004.. More cases attributed to non-venomous snakes or “dry bites” were present in the urban area, where it is more common to record accidents with species that are not of medical interest³⁴34. Carvalho MA, Nogueira F. Serpentes da Área Urbana de Cuiabá, Mato Grosso: aspectos ecológicos e acidentes ofídicos associados. Cadernos de Saúde Pública. 1998;14(4):753-63.. A higher proportion of cases among females occurred in the urban area compared to rural areas, which may be related to the fact that a large portion of the accidents in cities occur in households³⁴34. Carvalho MA, Nogueira F. Serpentes da Área Urbana de Cuiabá, Mato Grosso: aspectos ecológicos e acidentes ofídicos associados. Cadernos de Saúde Pública. 1998;14(4):753-63. and in the rural area which is a more occupational setting, involving mostly farming activities and the extraction process which is carried out mainly by males⁹9. Mota-da-Silva A, Colombini M, Moura-da-Silva A, Souza R, Monteiro WM, Bernarde PS. Ethno-knowledge and attitudes regarding snakebites in the Alto Juruá region, Western Brazilian Amazonia. Toxicon. 2019;171:66-77.^,¹⁰10. Mota-da-Silva A, Sachett J, Monteiro WM, Bernarde PS. Extractivism of palm tree fruits: A risky activity because of snakebites in the state of Acre, Western Brazilian Amazon. Rev Soc Bras Med Trop . 2019;52:e-20180195.^,²⁷27. Waldez F, Vogt RC. Aspectos ecológicos e epidemiológicos de acidentes ofídicos em comunidades ribeirinhas do baixo rio Purus, Amazonas, Brasil. Acta Amaz . 2009; 39:681-92.^,²⁸28. Mise YF, Lira-da-Silva RM, Carvalho FM. Fatal Snakebite Envenoming and Agricultural Work in Brazil: A Case-Control Study. Am J Trop Med Hyg. 2019;100(1):150-4.. This same hypothesis could explain the higher proportion of children (under 10 years old) bitten in the urban area (23.94%) than in the rural area (8.5%) in the present study.

Snakebites mainly affect adult males and tend to occur in the lower limbs. Although several studies have shown that most cases occur in rural areas, this study observed an urbanization of ophidism in the city of Rio Branco. The genus Bothrops was responsible for the highest number of snakebites and during the rainy season the accidents occur with a higher frequency, presenting a positive correlation with these events in the studied region. The performance of retrospective studies is important, among other reasons, because this information, when properly collected and recorded in the notification forms, becomes a valuable source of epidemiological data, and provides greater reliability and the possibility of better understanding about a given health problem. Educational snakebites prevention campaigns, population advice and first aid in case of this type of accidents for the populations of rural and urban areas are thus suggested.

ACKNOWLEDGEMENTS

We are grateful to the Epidemiological Surveillance Sector for the municipality of Rio Branco and Hospital of Rio Branco for allowing access to the information in the notification forms.

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Kasturiratne A, Wickremasinghe AR, De Silva N, Gunawardena NK, Pathmeswaran A, Premaratna R, et al. The global burden of snakebite: a literature analysis and modelling based on regional estimates of envenoming and deaths. PLoS Med. 2008; 5:e218.
³
Moreno E, Andrade MQ, Lira-da-Silva RM, Tavares-Neto J. Características clínicoepidemiológicas dos acidentes ofídicos em Rio Branco, Acre. Rev Soc Bras Med Trop. 2005;38(1):15-21.
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⁶
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⁷
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¹⁰
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³²
Lima KDJV, Arcos FO, Serrano ROP, Lima YMS. Áreas de risco e ocupação urbana: o caso do bairro Raimundo Melo. Rio Branco, Acre - Brasil. Rev Geonorte. 2012;2 (4):197-206.
³³
Oliveira AV, Moreira JGV, Serrano ROP, Santos JS. Eventos Hidrológicos Extremos em Rio Branco, Acre- Amazônia Ocidental. In: Meneguetti N. F. S. P. (Ed.). Ciência, Inovação e Tecnologia na Amazônia 2, Rio Branco: Editora Stricto Sensu; 2019. p.310-328.
³⁴
Carvalho MA, Nogueira F. Serpentes da Área Urbana de Cuiabá, Mato Grosso: aspectos ecológicos e acidentes ofídicos associados. Cadernos de Saúde Pública. 1998;14(4):753-63.
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³⁷
Feitosa E, Sampaio V, Sachett J, Castro DB, Noronha MDN, Lozano JLL, et al. Snakebites as a largely neglected problem in the Brazilian Amazon: highlights of the epidemiological trends in the State of Amazonas. Rev Soc Bras Med Trop . 2015; 48:34-41.
³⁸
Pardal PPO, Souza SM, Monteiro MRC, Fan HW, Cardoso JLC, França FOS, et al. Clinical trial of two antivenoms for the treatment of Bothrops and Lachesis bites in the northeastern Amazon region of Brazil. Tran Roy Soc Trop Med Hyg. 2004;98(1):28-42.
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Data availability

Data citations

IBGE. Censo demográfico. Instituto Brasileiro de Geografia e Estatística (2019) [Internet]. Censo Demográfico. 2019. [updated 2019; cited 2019 Nov 10]. Available from: Available from: http://www.ibge.gov.br

Publication Dates

Publication in this collection
25 Sept 2020
Date of issue
2020

History

Received
01 May 2020
Accepted
17 July 2020

This is an open-access article distributed under the terms of the Creative Commons Attribution License

[1] ¹
Chippaux JP. Incidence and mortality due to snakebite in the Americas. PLoS Negl Trop Dis. 2017;11(6):e0005662.

[2] ²
Kasturiratne A, Wickremasinghe AR, De Silva N, Gunawardena NK, Pathmeswaran A, Premaratna R, et al. The global burden of snakebite: a literature analysis and modelling based on regional estimates of envenoming and deaths. PLoS Med. 2008; 5:e218.

[3] ³
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Characteristics (n = 118)	Urban	Rural
	71 (60.17%)	47 (39.83%)
Snake genus
Bothrops	53 (74.65%)	37 (78.72%)
Lachesis	0	2 (4.26%)
Micrurus	1 (1.41%)	0
Non-venomous / dry bite	8 (11.27%)	4 (8.51%)
Ignored	9 (12.68%)	4 (8.51%)
Season
Rainy (November to April)	45 (63.38%)	36 (76.6%)
Dry (May to October)	26 (36.62%)	11 (23.4%)
Sex
Male	41 (57.75%)	33 (70.2%)
Female	30 (42.25%)	14 (29.8%)
Age group, years
0 to 10	17 (23.94%)	4 (8.5%)
11 to 20	13 (18.31%)	15 (31.91%)
21 to 30	10 (14.08%)	9 (19.15%)
31 to 40	14 (19.72%)	8 (17.02%0
41 to 50	10 (14.08%)	6 (12.77%)
51 to 60	5 (7.04%)	1 (2.13%%)
> 60	2 (2.82%)	4 (8.51%)
Occupation
Farmer	2 (2.82%)	14 (29.79%)
Student	27 (38.03%)	18 (38.30%)
Housewife
Other	42 (59.15%)	15 (31.91%)
Time to hospital care
0 to 1 hour	24 (33.80%)	12 (25.53%)
1 to 3 hours	23 (32.39%)	12 (25.53%)
3 to 6 hours	9 (12.68%)	6 (12.77%)
6 to 12 hours	2 (2.82%)	3 (6.38%)
12 to 24 hours	7 (9.86%)	1 (2.13%)
> 24 hours	4 (5.63%)	9 (19.15%)
Ignored	2 (2.82%)	4 (8.51%)
Anatomical region of the bite
Foot	41 (57.75%)	25 (53.19%)
Leg	22 (30.1%)	13 (27.66%)
Hand	3 (4.23%)	5 (10.64%)
Arm	2 (2.82%)	1 (2.13%)
Head	0	1 (2.13%)
Thorax	1 (1.41%)	0
Ignored	2 (2.82%)	2 (4.26%)
Classification of envenomation
Light	63 (88.73%)	33 (70.21%)
Moderate	7 (9.86%)	12 (25.53%)
Severe	1 (1.41%)	2 (4.26%)
Local manifestations and complications
Pain	65 (91.54%)	43 (91.49%)
Edema	49 (69.01%)	34 (72.34%)
Bruising	0	1 (2.13%)
Necrosis	1 (1.41%)	0
Compartment syndrome	0	0
Manifestations and systemic complications
Headache	1 (1.41%)	1 (2.13%)
Paresthesia	2 (2.82%)	0
Angioedema	1 (1.41%)	0
Nausea	1 (1.41%)	0
Dizziness	0	1 (2.13%)
Change in clotting time	2 (9.09%)	2 (22.22%)
Bleeding	0	1 (2.13%)

Characteristics (n = 165)	n	%
Snake genus
Bothrops	126	76.36%
Lachesis	2	1.21%
Micrurus	3	1.82%
Non-venomous / dry bite	16	9.70%
Ignored	18	10.91%
Season
Rainy (November to April)	106	64.24%
Dry (May to October)	59	35.76%
Sex
Male	107	64.85%
Female	58	35.15%
Municipality of occurrence
Rio Branco	118	71.52%
Bujari	10	21.28%
Porto Acre	7	14.89%
Senador Guiomard	5	10.64%
Sena Madureira	5	10.64%
Capixaba	4	8.51%
Assis Brasil	2	4.26%
Jordão	2	4.26%
Tarauacá	2	4.26%
Xapuri	1	2,13%
Plácido de Castro	1	2.13%
Boca do Acre	4	8.51%
Porto Velho	4	8.51%
Area of occurrence
Rural	89	53.94%
Urban	76	46.06%
Age group, years
0 to 10	25	15.15%
11 to 20	33	20%
21 to 30	37	22.42%
31 to 40	28	16.97%
41 to 50	21	12.73%
51 to 60	11	6.67%
> 60	10	6.06%
Occupation
Farmer	35	21.21%
Student	53	32.12%
Housewife	25	15.15%
Other	52	31.52%
Time to hospital care
0 to 1 hour	37	22.42%
1 to 3 hours	48	29.09%
3 to 6 hours	26	15.76%
6 to 12 hours	5	3.03%
12 to 24 hours	12	7.27%
> 24 hours	30	18.18%
Ignored	7	4.24%
Anatomical region of the bite
Foot	91	55.15%
Leg	46	27.88%
Hand	14	8.48%
Arm	5	3.03%
Head	4	2.42%
Thorax	1	0.61%
Ignored	4	2.42%
Classification of envenomation
Light	120	72.73%
Moderate	36	21.82%
Severe	9	5.45%
Local manifestations and complications		100%
Pain	152	92.12%
Edema	120	72.73%
Bruising	3	1.82%
Cellulitis	1	0.61%
Necrosis	1	0.61%
Systemic manifestations and complications
Change in clotting time (performed clotting exams, n = 38)	9	23.68%
Headache	5	3.03%
Bleeding	4	2.42%
Nausea	2	1.21%
Paresthesia	2	1.21%
Odynophagia	1	0.61%
Angioedema	1	0.61%
Hemorrhagic cerebrovascular stroke	1	0.61%
Dyspnea	1	0.61%
Eyelid ptosis	1	0.61%
Decreased level of consciousness	1	0.61%
Somnolence	1	0.61%
Dizziness	1	0.61%
Blurred vision	1	0.61%