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Drug prophylaxis of deep venous thrombosis in patients submitted to trauma surgery in a university hospital

Abstracts

BACKGROUND: Annually, millions of people are victims of trauma around the world. Besides the social and economic consequences caused by it, many of these patients need surgical treatment, thus generating greater risk to life. Venous thromboembolism, a consequence of deep vein thrombosis, represents a major cause of the morbidity and mortality in postoperative state, and it could be avoided with adequate prophylaxis. OBJECTIVE: To evaluate the use of chemoprophylaxis for deep vein thrombosis, in patients undergoing emergency trauma surgery in a teaching hospital. METHODS: A cross-sectional analytic study was conducted with 153 patients admitted to Cajuru University Hospital, in Curitiba, Paraná, in a two-month period. Records of patients who required surgery due to trauma were prospectively analyzed. The study included those classified as high and medium risk for deep vein thrombosis. Then, it was identified whether or not the drug prophylaxis was used. A statistical analysis was descriptively performed. RESULTS: Of the 153 patients included, 99 (64.7%) were classified as high risk for deep vein thrombosis and 54 (35.3%) as medium risk. Of the total, 144 (94%) did not receive prophylaxis and nine (6%) did. On those who received prophylaxis, only four patients received the adequate. CONCLUSIONS: Prophylaxis of venous thrombosis disease is not performed routinely in patients of medium and high risk of developing deep vein thrombosis, who underwent trauma surgery. And, when performed, it is often inappropriate.

prophylaxis; trauma; venous thrombosis


CONTEXTO: Anualmente, milhões de pessoas são vítimas de trauma no mundo. Além de suas consequências sociais e econômicas, muitos dos pacientes necessitam de tratamento cirúrgico, gerando, portanto, maiores riscos à vida. O tromboembolismo venoso, consequência da trombose venosa profunda, é uma importante causa de morbimortalidade em pós-operatórios e pode ser evitado com profilaxia adequada. OBJETIVO: Avaliar a utilização da profilaxia medicamentosa para trombose venosa profunda em pacientes submetidos à cirurgia do trauma de emergência, em um hospital-escola. MÉTODOS: Estudo transversal analítico, com 153 pacientes internados no Hospital Universitário Cajuru, em Curitiba, no Paraná, durante dois meses. Foram analisados prospectivamente prontuários de pacientes que necessitaram de cirurgia devido a trauma. O estudo incluiu pacientes classificados como alto e médio risco para trombose venosa profunda e avaliou-se a realização, ou não, da profilaxia medicamentosa. A análise estatística foi feita de forma descritiva. RESULTADOS: Dos 153 pacientes incluídos no estudo, 99 (64,7%) foram classificados como alto risco para trombose venosa e 54 (35,3%) como médio, sendo que 144 (94%) não receberam profilaxia medicamentosa. Dos nove (6%) pacientes que receberam profilaxia medicamentosa, um foi estratificado como médio risco e os outros oito de alto risco. Dos pacientes que receberam profilaxia, em apenas quatro a orientação foi adequada. CONCLUSÕES: A profilaxia para trombose venosa não é realizada de maneira rotineira nos pacientes de médio e alto risco para trombose venosa profunda que são submetidos à cirurgia do trauma e, quando realizada, muitas vezes é inadequada.

profilaxia; trauma; trombose venosa


ORIGINAL ARTICLE

Drug prophylaxis of deep vein thrombosis in patients submitted to trauma surgery in a university hospital * * All authors have read and approved the final version submitted to J Vasc Bras. Graph 1. Number of patients who received prophylaxis according to deep vein thrombosis risk.

Carlos Alberto EngelhornI; Juliana NardelliII; Ana Paula Diniz IwamuraII; Luísa da Silva André SalgadoII; Melina de Oliveira HartmannII; Ninon Catherine WittII

I Full professor of Angiology at Pontifícia Universidade Católica do Paraná (PUCPR) - Curitiba (PR), Brazil.

II Medical students (6th term) at Pontifícia Universidade Católica do Paraná (PUCPR) - Curitiba (PR), Brazil.

Correspondence to Juliana Nardelli Rua Nicaraguá, 2.077 - apto. 402 - Bacacheri CEP 82515-260 - Curitiba (PR), Brazil E-mail: juliananardelli@hotmail.com

ABSTRACT

Background: Annually, millions of people are victims of trauma around the world. Besides the social and economic consequences caused by it, many of these patients need surgical treatment, thus generating greater risk to life. Venous thromboembolism, a consequence of deep vein thrombosis, represents a major cause of the morbidity and mortality in postoperative state, and it could be avoided with adequate prophylaxis.

Objective: To evaluate the use of chemoprophylaxis for deep vein thrombosis, in patients undergoing emergency trauma surgery in a teaching hospital.

Methods: A cross-sectional analytic study was conducted with 153 patients admitted to Cajuru University Hospital, in Curitiba, Paraná, in a two-month period. Records of patients who required surgery due to trauma were prospectively analyzed. The study included those classified as high and medium risk for deep vein thrombosis. Then, it was identified whether or not the drug prophylaxis was used. A statistical analysis was descriptively performed.

Results: Of the 153 patients included, 99 (64.7%) were classified as high risk for deep vein thrombosis and 54 (35.3%) as medium risk. Of the total, 144 (94%) did not receive prophylaxis and nine (6%) did. On those who received prophylaxis, only four patients received the adequate.

Conclusions: Prophylaxis of venous thrombosis disease is not performed routinely in patients of medium and high risk of developing deep vein thrombosis, who underwent trauma surgery. And, when performed, it is often inappropriate.

Keywords: prophylaxis; trauma; venous thrombosis.

Introduction

Trauma is one of the leading problems of public health in the world. Nearly 5 million people die each year due to trauma, and other million are somehow affected by it. For each death, dozens of hospitalizations, hundreds of emergency admittances and thousands of medical appointments are estimated1,2.

In 2004, around 150 thousand deaths due to trauma were identified in Brazil. The public budget involved in these occurrences surpass R$ 9 billion per year, while medical costs in the care of injuries due to violence represent almost 0.4% of the total health costs in Brazil. Loss of productivity as consequence of these injuries represents 12% of this expenditure3,4.

And these numbers tend to grow in the next decades. According to the World Health Organization (WHO), car accidents, which represented 2.2% of the total death occurrences in 2004, will represent 3.6% in 2030. Other important causes of trauma, such as self-inflicted injuries and violence, also tend to increase in the next years1.

Besides social and economic consequences of trauma, many patients require surgical treatment, which may aggravate their picture and bring risk to life such as venous thromboembolism, one of the main causes of morbidity in the postoperative period5,6.

The incidence of deep vein thrombosis (DVT) among trauma patients submitted to surgery varies from 5 to 63% and depends on the type of trauma and on the use of adequate prophylaxis, which is essential in this group of patients. Without prophylaxis, the incidence of DVT after neurological surgery is 22%, in thoracic surgery 26%, and in orthopedic surgery 45-60%6-8.

The aim of this paper was to assess the use of drug prophylaxis for DVT in patients undergoing emergency trauma surgery.

Methods

We carried out a cross-sectional study with medical records of patients admitted to Hospital Universitário Cajuru (HUC). Statistical analysis was descriptive.

This research project was appropriately approved by the Ethics Committee, protocol number 5256, version 1, and submission 0001201.

Patients included in the study were older than 18 years, admitted to the Public Health System and referred to HUC requiring urgency or emergency surgery that lasted more than 30 minutes due to abdominal, thoracic, vascular and orthopedic trauma, which are considered medium to high risk for DVT.

Patients presenting low risk for DVT were excluded, as well as those who underwent surgical procedures lasting less than 30 minutes, elective and neurological surgeries, and patients under the age of 18.

To assess DVT prophylaxis, we analyzed patient's medical records prospectively during two months.

Data collection was based on risk factors for DVT (age, preexistent diseases and polytrauma), type of surgery performed (orthopedic, abdominal, thoracic or vascular), and duration of the procedure. The use of adequate DVT prophylaxis was also assessed, including the type of drug used in hospitalizations (substance, dosage and duration of treatment).

The patients were stratified for DVT risk according to the guidelines by the Brazilian Society of Angiology and Vascular Surgery (SBACV)9. According to these guidelines, surgery patients may be stratified in low, medium and high risk for DVT. However, patients with low risk were excluded from our sample.

Criteria for medium DVT risk were: major surgery in patients between 40 and 60 years old without other risk factors, and surgery in patients less than 40 years old using estrogen. Criteria for high risk were: general surgery in patients older than 60 years old, surgery in patients between 40 and 60 years old with additional risks, major surgery in patients with history of DVT or pulmonary embolism and thrombophilia, as well as major general surgery.

Patients with polytrauma or hip fracture were classified as high risk for DVT. Polytrauma is characterized by concomitant injuries in more than one spot of the body10. Patients presenting only lower limb injuries or major trauma on the upper limbs (such as shoulder/arm fracture or exposed fracture of the forearm) were considered high-risk when older than 60 years old, and medium-risk when younger than 60 years old (Chart 1).


As to DVT prophylaxis, subcutaneous unfractionated heparin was considered adequate for medium-risk patients, in the dosage of 5,000 UI every 12 hours, initiated 2 to 4 hours before surgery with general anesthesia, 1 hour after blockage or low-molecular weight heparin (LMWH) in the lowest prophylactic dosage once per day, two hours before the surgical procedure with general anesthesia, or blockage 12 hours before surgery. High-risk patients should be given unfractionated heparin 5,000 UI every 8 hours, initiating two hours before surgery with general anesthesia, or blockage one hour before it, or LMWH in the highest dosage once per day, initiating 12 hours before surgery9 (Table 1).

Results

The records of 179 patients admitted to the HUC were analyzed in a two-month period. Twenty-six of these were excluded of the study because they had been submitted to neurosurgery or were classified as low-risk for DVT: seven patients had undergone surgery for spine fracture; three had surgery for closed forearm fractured; three had surgery for hand fracture; three had ocular penetrating trauma; two had been submitted to tenorrhaphy; two had liquor fistula repair; one had subdural hematoma drainage; two thoracic drainage; one wound debridement and bandaging; one urologic surgery, and one dog bite repair.

Among the 153 patients included in the study, 29 (19%) were females and 124 (81%) were males. Mean age was 39 years old (ranging from 18 to 96). Eighty-two patients (53.6%) were polytraumatized.

The length of time of surgeries varied from 30 to 540 minutes (mean: 146 minutes). Surgical procedures performed were divided into four groups, according to type of trauma and considering that some patients underwent surgery in more than one specialty (Table 2).

In total, 116 surgeries were orthopedic, 32 abdominal, 15 thoracic and 4 vascular. The most common orthopedic surgery was femoral fracture fixation (27.83%), followed by ankle fracture (15.65%), and leg fracture fixation (10.43%). Only five hip surgeries were performed (4.35%).

As for stratification of DVT risk, 54 (35.3%) patients were classified as medium-risk and 99 (64.7%) high-risk. Only 9 patients (6%) were given drug prophylaxis, and four of them (44%) received the treatment in compliance with SBACV guidelines (Graph 1).


Among the nine patients who received drug prophylaxis, six (66.7%) were older than 60 years, and all of them were given LMWH in the highest prophylactic dosage.

Discussion

It is known that victims of trauma are prone to thromboembolic events (PE and DVT) and their consequences11. In 1934, McCartney suggested the association between trauma and death due to PE, especially in patients who suffered lower limb fractures11. This information was confirmed years later by many necropsy studies11-13. In 1961, in series of necropsies performed in victims of multiple traumas, the incidence of PE was 16.6% and, later on, prophylaxis for this group of patients was suggested12.

Trauma is the leading cause of death among individuals younger than 40 and, therefore, constitutes a public health problem13. The incidence of thromboembolic events in these patients surpasses 50%13-15.

PE is the most common thromboembolic complication in the postoperative period, and often asymptomatic. However, it is known that at least 40% of patients with DVT present any significant radiologic sign to suggest PE, which explains the high morbimortality rates related to it. Besides clinical consequences, this type of complication may result in legal issues, for PE is considered the leading cause of avoidable death among patients undergoing surgery16.

Gillies et al. analyzed 57 death occurrences due to PE in surgical patients in a one-year period in Scotland. Among all necropsies performed, 36 were shown to be part of the group of patients with high risk of DVT, and only two were low-risk. Twenty-five patients (44%) had received DVT prophylaxis, and none of them had contraindications for mechanical and drug prophylaxis. The patients who received less prophylaxis were medium-risk and those admitted to the emergency room17.

Prophylaxis reduces DVT incidence, as well as the time of treatment and costs, but it is not prescribed in many hospitals 11,18. Franco et al. carried out a cross-sectional study in seven specialties and found that prophylaxis were not performed in 74% of the cases, and in 2.4% is was not adequate14.

Engelhorn et al. evaluated the use of prophylaxis in a University Hospital. They assessed 228 patients in various specialties and showed that 87.28% were not given a prophylactic treatment. Only 18.52% of medium-risk patients and 20.9% of high-risk patients received prophylaxis19. Garcia et al. performed a similar study and identified 80.34% of surgical patients in need of prophylaxis, but stated that only 17.02% received it20.

Our study found similar data. The analysis of 153 medical records of patients who underwent surgery due to trauma showed that 94% of them were not given drug prophylaxis. Although 100% of the patients had indication for prophylaxis, bring classified as medium and high risk for DVT, only 6% of them received it. Besides that, prescription was inadequate in most cases. Only 2.61% of the medical records were in accordance with SBACV guidelines for prophylaxis.

Geerts et al. found a high prevalence of thrombotic events in patients admitted to a trauma unity in Canada. A cohort study was performed with 716 patients who did not receive DVT prophylaxis. Among 88 patients presenting tibia fracture, 66 (77%) had thrombotic events. Among 74 patients with femoral fracture, 50 (80%) presented thrombi. The authors concluded that venous thrombosis is a common complication in patients who suffer major trauma, and an adequate prophylaxis is highly recommended13. In our study, we found that few patients were given prophylaxis, which makes them more prone to thromboembolic events.

The prolonged time of surgery is also a risk factor for the development of DVT. In our analysis, mean surgery length of time was 146.38 minutes. According to Barros-Sena and Genestra, 25% of patients submitted to major surgeries, lasting over 60 minutes, develop DVT21.

One possible reason for not performing an adequate prophylaxis is the risk of major bleeding during surgical procedures due to the use of anticoagulant agents22. However, in a systematic review of literature addressing the complications of DVT prophylaxis in cases of trauma showed a 2 to 4% risk of major bleeding with the use of LMWH in proper dosage8.

In this same study, DVT prophylaxis with LMWH is considered to be level of evidence A in trauma patients8. Geerts et al. compared the safety and efficacy of unfractionated heparin in lower dosage and LMWH for trauma patients, and showed that the risk of bleeding for both drugs was low (1 to 3%). They concluded, therefore, that prophylaxis must be given to victims of major trauma, and indicated LMWH as the drug of choice23.

Besides surgeons' insecurity, the high cost is a reason for not using DVT prophylaxis. However, the cost-benefit relation is proven positive, for social and financial consequences of thromboembolic events are more significant24. Difficulties in risk stratification may also explain that19,24.

There is also a mechanic method of prophylaxis that consists of intermittent pneumatic compression or the use of elastic stockings. It is indicated as DVT prophylaxis and their use may be isolated in low-risk patients. Medium and high-risk patients, on the other hand, should be given drug prophylaxis in conjunction with the stockings9. Mechanical prevention may be an anternative for patients with risk of bleeding25.

Based on the sample analyzed, the authors conclude that DVT prophylaxis in medium and high-risk patients undergoing trauma surgery was underused, and often inadequate.

References

5. Mukherjee D, Lidor AO, Chu KM et al. Postoperative venous thromboembolism rates vary significantly after different types of major abdominal operations. J Gastrointest Surg. 2008;12(11):2015-22.

6. Espinoza AMU. Tromboprofilaxis en el paciente quirúrgico. Rev Chil Anes. 2008;37(1):9-20.

7. Bendinelli C, Balogh Z. Postinjury thromboprophylaxis. Curr Opin Crit Care. 2008;14(6):673-8.

8. Datta I, Ball CG, Rudmik L et al. Complications related to deep venous thrombosis prophylaxis in trauma: a systematic review of the literature. J Trauma Manag Outcomes. 2010;4:1.

9. Normas de orientação clínica para a prevenção, o diagnóstico e o tratamento da trombose venosa profunda. J Vasc Bras. 2005;4(3):205-20.

10. Drumond DAF, Abrantes WL. Tipos de trauma - o politraumatizado. In: Freire E, editor. Trauma: a doença dos séculos. São Paulo: Atheneu; 2001. p. 451-9.

11. Knudson MM, Ikossi DG, Khaw L et al. Thromboembolism after trauma. An analysis of 1602 episodes from the American college of surgeons national trauma data bank. Ann Surg. 2004;240(3):490-6.

12. Venet C, Berger C, Tardy B et al. Prevention of venous thromboembolism in polytraumatized patients. Epidemiology and importance. Presse Med. 2000;29(2):68-75.

13. Geerts WH, Code KI, Jay RM et al. A prospective study of venous thromboembolism after major trauma. NEJM. 1994;15(331):1601-6.

14. Franco RM, Simezo V, Bortoleti RR et al. Profilaxia para tromboembolismo venoso em um hospital de ensino. J Vasc Bras. 2006;5(2):131-8.

15. Nathens MB, McMurray MK, Cuschieri J et al. The practice of venous thromboembolism prophylaxis in the major trauma patient. J Trauma. 2007;62(3):557-63.

16. Viterbo JF, Tavares MJ. Profilaxia e tratamento da tromboembolia pulmonar per-operatória. Acta Med Port. 2005;18:209-20.

17. Gillies TE, Ruckley CV, Nixon SJ. Still missing the boat with fatal pulmonary embolism. Br J Surg. 1996;83:1394-5.

18. Anderson FA, Zayaruzny M, Heit JA et al. Estimated annual numbers of US acute-care hospital patients at risk for venous thromboembolism. Am J Hematol. 2007;82(9):777-82.

19. Engelhorn ALV, Garcia ACF, Cassou MF, Birckholz L, Engelhorn CA. Profilaxia da trombose venosa profunda: estudo epidemiológico em um hospital escola. J Vasc Bras. 2002;1(2):97-102.

20. Garcia ACF, Souza BV, Volpato DE, et al. Realidade do uso da profilaxia para trombose venosa profunda: da teoria à prática. J Vasc Bras. 2005;4(1):35-41.

21. Barros-Sena MA, Genestra M. Profilaxia da trombose venosa profunda em pós-operatório de cirurgias ortopédicas em um hospital de traumato-ortopedia. Rev Bras Hematol Hemoter. 2008;30(1):29-35.

22. Clagett GP, Anderson FA Jr, Heit J et al. Prevention of venous thromboembolism. Chest. 1995;108:312-34.

23. Geerts WH, Jay RM, Code KI et al. A comparison of low-dose heparin with low-molecular-weight heparin as prophylaxis against venous thromboembolism after major trauma. NEJM. 1996;335:701-7.

24. Pitta GBB, Leite TL, Silva MDC et al. Avaliação da utilização de profilaxia da trombose venosa profunda em um hospital escola. J Vasc Bras. 2007;6(4):344-51.

25. Machado NLB, Leite TL, Pitta, GBB. Freqüência da profilaxia mecânica para trombose venosa profunda em pacientes internados em uma unidade de emergência de Maceió. J Vasc Bras. 2008;7(4):333-40.

Correspondence

Submitted on: July 13, 2011.

Accepted on: November 21, 2011.

Financial support: none.

Conflict of interest: nothing to declare.

Author's contributions

Conception and design: CAH, JN, APDI, LSAS, MOH and NCW

Analysis and interpretation: JN, APDI and MOH

Data collection: JN, APDI, LSAS, MOH, NCW

Writing the article: JN, APDI, LSAS, MOH, NCW

Critical revision of the article: JN, APDI, LSAS, MOH and NCW

Final approval of the article*: CAH, JN, APDI, LSAS, MOH and NCW

Statistical analysis: JN and MOH

Overall responsibility: CAH

  • 5. Mukherjee D, Lidor AO, Chu KM et al. Postoperative venous thromboembolism rates vary significantly after different types of major abdominal operations. J Gastrointest Surg. 2008;12(11):2015-22.
  • 6. Espinoza AMU. Tromboprofilaxis en el paciente quirúrgico. Rev Chil Anes. 2008;37(1):9-20.
  • 7. Bendinelli C, Balogh Z. Postinjury thromboprophylaxis. Curr Opin Crit Care. 2008;14(6):673-8.
  • 8. Datta I, Ball CG, Rudmik L et al. Complications related to deep venous thrombosis prophylaxis in trauma: a systematic review of the literature. J Trauma Manag Outcomes. 2010;4:1.
  • 9. Normas de orientação clínica para a prevenção, o diagnóstico e o tratamento da trombose venosa profunda. J Vasc Bras. 2005;4(3):205-20.
  • 10. Drumond DAF, Abrantes WL. Tipos de trauma - o politraumatizado. In: Freire E, editor. Trauma: a doença dos séculos. São Paulo: Atheneu; 2001. p. 451-9.
  • 11. Knudson MM, Ikossi DG, Khaw L et al. Thromboembolism after trauma. An analysis of 1602 episodes from the American college of surgeons national trauma data bank. Ann Surg. 2004;240(3):490-6.
  • 12. Venet C, Berger C, Tardy B et al. Prevention of venous thromboembolism in polytraumatized patients. Epidemiology and importance. Presse Med. 2000;29(2):68-75.
  • 13. Geerts WH, Code KI, Jay RM et al. A prospective study of venous thromboembolism after major trauma. NEJM. 1994;15(331):1601-6.
  • 14. Franco RM, Simezo V, Bortoleti RR et al. Profilaxia para tromboembolismo venoso em um hospital de ensino. J Vasc Bras. 2006;5(2):131-8.
  • 15. Nathens MB, McMurray MK, Cuschieri J et al. The practice of venous thromboembolism prophylaxis in the major trauma patient. J Trauma. 2007;62(3):557-63.
  • 16. Viterbo JF, Tavares MJ. Profilaxia e tratamento da tromboembolia pulmonar per-operatória. Acta Med Port. 2005;18:209-20.
  • 17. Gillies TE, Ruckley CV, Nixon SJ. Still missing the boat with fatal pulmonary embolism. Br J Surg. 1996;83:1394-5.
  • 18. Anderson FA, Zayaruzny M, Heit JA et al. Estimated annual numbers of US acute-care hospital patients at risk for venous thromboembolism. Am J Hematol. 2007;82(9):777-82.
  • 19. Engelhorn ALV, Garcia ACF, Cassou MF, Birckholz L, Engelhorn CA. Profilaxia da trombose venosa profunda: estudo epidemiológico em um hospital escola. J Vasc Bras. 2002;1(2):97-102.
  • 20. Garcia ACF, Souza BV, Volpato DE, et al. Realidade do uso da profilaxia para trombose venosa profunda: da teoria à prática. J Vasc Bras. 2005;4(1):35-41.
  • 21. Barros-Sena MA, Genestra M. Profilaxia da trombose venosa profunda em pós-operatório de cirurgias ortopédicas em um hospital de traumato-ortopedia. Rev Bras Hematol Hemoter. 2008;30(1):29-35.
  • 22. Clagett GP, Anderson FA Jr, Heit J et al. Prevention of venous thromboembolism. Chest. 1995;108:312-34.
  • 23. Geerts WH, Jay RM, Code KI et al. A comparison of low-dose heparin with low-molecular-weight heparin as prophylaxis against venous thromboembolism after major trauma. NEJM. 1996;335:701-7.
  • 24. Pitta GBB, Leite TL, Silva MDC et al. Avaliação da utilização de profilaxia da trombose venosa profunda em um hospital escola. J Vasc Bras. 2007;6(4):344-51.
  • 25. Machado NLB, Leite TL, Pitta, GBB. Freqüência da profilaxia mecânica para trombose venosa profunda em pacientes internados em uma unidade de emergência de Maceió. J Vasc Bras. 2008;7(4):333-40.
  • Juliana Nardelli
    Rua Nicaraguá, 2.077 - apto. 402 - Bacacheri
    CEP 82515-260 - Curitiba (PR), Brazil
    E-mail:
  • *
    All authors have read and approved the final version submitted to J Vasc Bras.
    Graph 1. Number of patients who received prophylaxis according to deep vein thrombosis risk.
  • Publication Dates

    • Publication in this collection
      17 July 2012
    • Date of issue
      June 2012

    History

    • Received
      13 July 2011
    • Accepted
      21 Nov 2011
    Sociedade Brasileira de Angiologia e de Cirurgia Vascular (SBACV) Rua Estela, 515, bloco E, conj. 21, Vila Mariana, CEP04011-002 - São Paulo, SP, Tel.: (11) 5084.3482 / 5084.2853 - Porto Alegre - RS - Brazil
    E-mail: secretaria@sbacv.org.br