Door-to-balloon Time in Cardiovascular Emergency Care in a Hospital of Northern Brazil

Amoras, Tárcio Sadraque Gomes; Rodrigues, Taymara Barbosa; Menezes, Cláudia Ribeiro; Zaninotto, Christielaine Venzel; Tavares, Roseneide dos Santos

doi:10.36660/ijcs.20190104

Abstract

Background

The use of an adequate door-to-balloon time (≤ 90 minutes) is crucial in improving the quality of care provided to patients with ST-segment elevation myocardial infarction (STEMI).

Objective

To determine the door-to-balloon time in the management of STEMI patients in a cardiovascular emergency department in a hospital of northern Brazil.

Methods

This was a cross-sectional study based on review of medical records. A total of 109 patients with STEMI admitted to the emergency department of a referral cardiology hospital in Pará State, Brazil, between May 2017 and December 2017. Correlations of the door-to-balloon time with length of hospital stay and mortality rate were assessed, as well as whether the time components of the door-to-balloon time affected the delay in performing primary percutaneous coronary intervention. Quantitative variables were analyzed by Spearman correlation and the G test was used for categorical variables. A p<0.05 was set as statistically significant.

Results

Median door-to-balloon time was 104 minutes. No significant correlation was found between door-to-balloon time and length of hospital stay or deaths, but significant correlations were found between door-to-balloon time and door-to-ECG time (p<0.001) and ECG-to-activation (of an interventional cardiologist) time (p<0.001).

Conclusion

The door-to-balloon time was longer the recommended and was not correlated with the length of hospital stay or in-hospital mortality. Door-to-ECG time and ECG-to-activation time contributed to the delay in performing the primary percutaneous coronary intervention. Int J Cardiovasc Sci. 2020; [online].ahead print, PP.0-0

Myocardial Infarction; Angioplasty, Balloon, Coronary; Admitting Department, Hospital; Time to Treatment; Quality Indicators; Health Care

Introduction

Primary percutaneous coronary intervention (PCI) is the safest strategy for the treatment of ST-segment elevation myocardial infarction (STEMI).¹1. Santos ES, Trindade PHDM, Moreira HG. Tratado Dante Pazzanese de Emergências Cardiovasculares. São Paulo: Atheneu;2016. According to the Brazilian Society of Cardiology (SBC) and the American Heart Association guidelines, the time from arrival at the initial hospital to the time of the first balloon inflation during primary PCI, defined as door-to-balloon time, should be within 90 minutes.²2. Piegas LS, Timerman A, Feitosa GS, Nicolau JC, Mattos LAP, Andrade MD et al. V Diretriz da Sociedade Brasileira de Cardiologia sobre Tratamento do Infarto Agudo do Miocárdio com Supradesnível do Segmento ST. Arquivos Brasileiro de Cardiologia

In Brazil, adherence to health care guidelines by healthcare centers is still lower than expected,³3. Wang R, Neuenschwander FC, Filho AL, Moreira CM, Santos ES, Reis HJL, et al. Uso de Intervenções Baseadas em Evidências na Síndrome Coronária Aguda − Subanálise do Registro ACCEPT. Arq Bras Cardiol.2014;102(4):319-26. resulting in a suboptimal performance of these services, compromising the quality of care and safety of patients.²2. Piegas LS, Timerman A, Feitosa GS, Nicolau JC, Mattos LAP, Andrade MD et al. V Diretriz da Sociedade Brasileira de Cardiologia sobre Tratamento do Infarto Agudo do Miocárdio com Supradesnível do Segmento ST. Arquivos Brasileiro de Cardiologia,⁴4. Moreira MVF, Ribeiro LA, Alves EE, Neuenschwander FC, Rabelo RR, Filho UL; et al. Há relação entre custos hospitalares e tempo porta-balão? Rev Bras Cardiol Invas. 2015; 23(3):195-200. Current scientific evidence indicates that adherence to good clinical practice guidelines leads to better performance, reducing morbidity and mortality, length of hospital stay, and costs with STEMI patients, in addition to improve patients’ safety and satisfaction.⁵5. Campos HAB, MVF Moreira, EE Alves, R Wang, ACM Bedeti, FC Neuenschwander, et al. Impacto da adoção de processos de trabalho hospitalares na redução do tempo porta-balão. Rev Bras Cardiol Invas. 2017;25(1-4):7-11.

6. Chao CC, Chen YC, Shih CM, Hou SK, Seethala RR, Aisiku IP, et al. Smartphone transmission of electrocardiography images to reduce time of cardiac catheterization laboratory activation. J Chin Med Assoc.. 2018;81(6):505-10.-⁷7. Chen FC, Lin YR, Kung CT, Cheng CI, Li CJ. The Association between Door-to-Balloon Time of Less Than 60 Minutes and Prognosis of Patients Developing ST Segment Elevation Myocardial Infarction and Undergoing Primary Percutaneous Coronary Intervention. BioMed Res Int. 2017;2017:1910934.

Door-to-balloon time has been used worldwide as an indicator of quality of care, helping to monitor the achievement of aims and goals of health care,³3. Wang R, Neuenschwander FC, Filho AL, Moreira CM, Santos ES, Reis HJL, et al. Uso de Intervenções Baseadas em Evidências na Síndrome Coronária Aguda − Subanálise do Registro ACCEPT. Arq Bras Cardiol.2014;102(4):319-26.

4. Moreira MVF, Ribeiro LA, Alves EE, Neuenschwander FC, Rabelo RR, Filho UL; et al. Há relação entre custos hospitalares e tempo porta-balão? Rev Bras Cardiol Invas. 2015; 23(3):195-200.-⁵5. Campos HAB, MVF Moreira, EE Alves, R Wang, ACM Bedeti, FC Neuenschwander, et al. Impacto da adoção de processos de trabalho hospitalares na redução do tempo porta-balão. Rev Bras Cardiol Invas. 2017;25(1-4):7-11. foster the strengthening of analytical capacity of the teams involved in the management of patients with STEMI and make it as close to ideal as possible.⁸8. Byrne J. Reducing time to reperfusion for ST elevation myocardial infarction patients by a simple process change in the Emergency Department. BMJ Qual Improv Rep.2014;3(1):pii u204753.v.2063 [internet]. 2014 jun [acesso em 23 dezembro 2018]; 3 (1). Disponível em: https://bmjopenquality.bmj.com/content/3/1/u204753.w2063.full.pdf.
https://bmjopenquality.bmj.com/content/3...

Therefore, the present study aimed to measure door-to-balloon time and correlate it to the number of deaths and length of hospital stay. We also evaluated whether time intervals of the door-to-balloon time influence on delayed primary reperfusion (wire crossing) at the emergency department of a cardiology hospital in the State of Pará, Brazil.

Methods

This was a cross sectional cohort study based on review of medical records. Patients of both sexes, aged ≥ 18 years, with confirmed diagnosis of STEMI were included. All patients had undergone reperfusion within 12 hours after precordial pain and were hospitalized at the emergency department of Gaspar Viana General Hospital Foundation (FHCGV) between May and December 2017. The HCGV is a referral center for heart disease in Pará, Brazil, and the only public hospital for medium and highly complex heart diseases, heading the health care line of myocardial infarction patients among the 144 cities of the state. A total of 109 patients were included in the study.

The following data and variables were systematically collected: age, sex, ethnicity, geographic origin, risk factors, length of hospital stay, number of deaths, and door-to-balloon time and its components.

Since May 2017, to monitor the quality of care provided to STEMI patients in FHCGV, door-to-balloon time and its component times have been prospectively measured using a checklist completed by the staff. The following times were measured: door-to-ECG time (Δt1), time between the electrocardiography test (ECG) and activation of an interventional cardiologist (Δt2) (ECG-to-activation time), time for patient preparation (activation-to-patient preparation) (Δt3), time between patient preparation and beginning of reperfusion (Δt4), time between beginning of reperfusion and balloon inflation (Δt5), time between activation and arrival of an interventional cardiologist at the cath laboratory (Δt6) (Figure 1).

Figure 1
– Representation of the events in the management of patients with acute myocardial infarction with ST-segment elevation, the door-to-balloon time and its components (∆t)

Data collection was conducted after the study was approved by the Ethics Committee of the FHCGV (approval number 2.527.630).

Outcome Measures

Door-to-balloon time was described as a numerical variable and defined as a primary outcome. The proportion of patients with adequate door-to-balloon time (≤ 90 minutes), and the components (∆t) of the door-to-balloon time were registered as secondary outcomes.

Door-to-balloon time was defined as the time from patient’s arrival at the hospital to the time of mechanical reperfusion of the culprit coronary artery. The first balloon inflation during the primary PCI. “Door” was defined as the time of registration of the patient in the emergency department. “Balloon” was defined as the exact time of mechanical reperfusion of the coronary artery during PCI, determined by the interventional cardiologist.

Statistical Analysis

Statistical analysis was performed using the Statistical Package for the Social Sciences (SPSS) software, version 22. Continuous variables with normal distribution were described as mean and standard deviation and those without a normal distribution were described as median and interquartile range. Normality of data distribution was verified using the Kolmogorov-Smirnov test. Associations between variables were assessed by Spearman correlation (for quantitative variables) and the G-test for categorical variables. The G-test was chosen as it makes no assumptions about the size of the classes. The level of significance was set at 5%.

Results

Characteristics of the Sample

Most patients (78.9%) were male; 64.2% self-identified as “pardo”. Mean age was 61 ± 10.88 years and 69.7% came from the metropolitan area of the city of Belem, Brazil. Among the risk factors for acute myocardial infarction, 63.3% of patients were hypertensive, and 53.2% of the sample were smokers. Mean time from symptom onset to hospital arrival was approximately 6 ± 3.116 horas. In 48.4% of the cases, there was lesion of the anterior wall. In-hospital mortality was 8.3% and mean length of hospital stay was 7.77 ± 11.94 days. Other clinical characteristics are listed in Table 1.

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Table 1
– Characteristics of the sample

Mean and median door-to-balloon time was 115 ± 55.3 minutes and 104 minutes, respectively. Time components of the door-to-balloon time are described in Table 2.

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Table 2
– Door-to-balloon time and its components in the management of patients with acute myocardial infarction with ST-segment elevation. Time in minutes, presented as median and interquartile range (IQR) (n=109)

Median door-to-balloon time was 121 minutes and 78 minutes for those cases where door-to-balloon time was > 90 minutes (62.4%) and ≤ 90 minutes (37.6%), respectively (Figure 2).

Figure 2
– Distribution of patients according to Door-to-Balloon Time> or ≤ 90 minutes, Belém-Pará, 2018 (n = 109)

Both door-to-ECG time (Δt1) and ECG-to-activation time (Δt2) were significantly correlated (p<0.001) with door-to-balloon time. No statistical correlation was found between door-to-balloon time and length of hospital stay or in-hospital mortality.

Discussion

In the present study, most patients with STEMI were male. According to current evidence, cardiovascular diseases are more prevalent in men than women.¹1. Santos ES, Trindade PHDM, Moreira HG. Tratado Dante Pazzanese de Emergências Cardiovasculares. São Paulo: Atheneu;2016.,³3. Wang R, Neuenschwander FC, Filho AL, Moreira CM, Santos ES, Reis HJL, et al. Uso de Intervenções Baseadas em Evidências na Síndrome Coronária Aguda − Subanálise do Registro ACCEPT. Arq Bras Cardiol.2014;102(4):319-26.In addition, men tend to seek medical care less often than women, due to greater difficulty in identifying and facing possible health problems, in accepting changes in lifestyle and talking about problems. Therefore, in general, instead of seeking preventive medical services, men go to the doctor when disease is already established and there is little chance of recovery, leading to irreversible changes in health and quality of life.⁹9. Oliveira LS, Costa DN, Oliveira DML, Almeida HOC, Mendonça IO. Indicadores de qualidade nos serviços de urgência hospitalar. Ciências Biológicas Saúde Unit.2018;4(3):173-88.,¹⁰10. Silveira CLG, Melo VFC, Barreto AJR. Atenção à saúde do homem na atenção primária em saúde: uma revisão integrativa.Rev enferm UFPE (on line) ;2017;11(supl.3):1528-9.

Age of the study population ranged from 60 to 69 years, with mean of 61 ± 10.88 years. Studies have shown that this is the age range of patients who suffer an acute myocardial infarction, due to development of atherosclerotic plaque on the coronary artery wall. Development of early fibroatheroma starts in adolescence and second decade of life and continues throughout life. Advanced atheroma occurs in individuals older than 55 years of age. At this stage, a thin fibrous cap, formed by the activity of proteolytic enzymes, may rupture, exposing the thrombogenic arterial wall, leading to thrombosis.¹¹11. Brunori EHFR, Lopes CT, Cavalcante AMRZ, Santos VB, Lopes JL, Barros ALBL. Associação de fatores de risco cardiovasculares com as diferentes apresentações da síndrome coronariana aguda. Ver Latino Am Enfermagem. 2014;22(4):538-46.

Hypertension, smoking, alcohol consumption and diabetes mellitus were identified as risk factors for acute myocardial infarction. This is in line with the results reported by a regional study by Costa,¹²12. Costa MO. Perfil epidemiológico e fatores de risco de pacientes com diagnóstico de infarto agudo do miocárdio em um hospital de referência cardiológica em Belém-PA [Monografia]. Belém: Universidade do Estado do Pará; 2014. showing that 71.6% of patients with acute myocardial infarction had hypertension, 71.5% were smokers or ex-smokers, and 45.5% had diabetes mellitus. Also, in a nationwide study on STEMI patients by Wang et al.,³3. Wang R, Neuenschwander FC, Filho AL, Moreira CM, Santos ES, Reis HJL, et al. Uso de Intervenções Baseadas em Evidências na Síndrome Coronária Aguda − Subanálise do Registro ACCEPT. Arq Bras Cardiol.2014;102(4):319-26. the main modifiable risk factors identified were hypertension (78.8%), dyslipidemia (57.9%) and diabetes mellitus (37.5%), among others.

Modifiable risk factors such as systemic arterial hypertension, diabetes mellitus, smoking habit, dyslipidemia, obesity, alcohol consumption and psychosocial distress are more common in individuals with lower socioeconomic status; among the indicators of socioeconomic status, educational attainment is the one with the best correlation with the frequency and severity of cardiovascular risk factors.¹³13. Martin RSS, Godoy I, Franco RJS, Martin LC, Martins AS. Influência do nível socioeconômico sobre os fatores de risco cardiovascular. J Bras Med. 2014; 102(2):34-7.

Door-to-balloon time was longer than the recommended (90 minutes) in 62.4% of the cases. In a multicenter study conducted in public and private hospitals in Brazil, Wang et al.,³3. Wang R, Neuenschwander FC, Filho AL, Moreira CM, Santos ES, Reis HJL, et al. Uso de Intervenções Baseadas em Evidências na Síndrome Coronária Aguda − Subanálise do Registro ACCEPT. Arq Bras Cardiol.2014;102(4):319-26. found that 64.04% of 633 patients with STEMI showed a door-to-balloon time longer than 90 minutes. Dharma et al.,¹⁴14. Dharma S, Siswanto BB, Firdaus I, Dakota I, Andriantoro H, Wardeh AJ, et al. Temporal Trends of System of Care for STEMI: Insights from the Jakarta Cardiovascular Care Unit Network System. PLoS One. 2014;9(2):e86665. in a study carried out in Jakarta, Indonesia, reported that 51.3% of 263 STEMI patients had an inadequate door-to-balloon time. These findings emphasize the difficulty in achieving a satisfactory door-to-balloon time in the management of STEMI patients.

More successful results in door-to-balloon time were detected in studies performed in centers where this parameter has been studied for a longer time, as in the United States, Europe and Asia.⁵5. Campos HAB, MVF Moreira, EE Alves, R Wang, ACM Bedeti, FC Neuenschwander, et al. Impacto da adoção de processos de trabalho hospitalares na redução do tempo porta-balão. Rev Bras Cardiol Invas. 2017;25(1-4):7-11.,¹⁵15. Coyne CJ, Testa N, Desai S, Lagrone J, Chang R, Zheng L, et al. Improving Door-to-balloon Time by Decreasing Door-to-ECG time for Walk-in STEMI Patients. West J Emerg Med. 2015; 16(1):184-9.,¹⁶16. Chen H, Liu J, Xiang D, Qin W, Zhou M, Tian Y, et al. Coordinated Digital-Assisted Program Improved Door-to-Balloon Time for Acute Chest Pain Patients. Int Heart J. 2016;57(3):310-6. More challenging targets such as a door-to-balloon time shorter than 60 minutes¹⁷17. Nguyen B, Fennessy M, Leya F, Nowak W, Ryan M, Freeberg S, et al. Comparison of Primary Percutaneous Coronary Intervention in Patients With ST-Elevation Myocardial Infarction during and Prior to Availability of na In-House STEMI System: Early Experience and Intermediate Outcomes of the HARRT Program for Achieving Routine D2B Times <60 Minutes. Cathet Cardiovasc Interv. 2015;86(2):186-92.were achieved by some authors such as Mentias et al.,¹⁸18. Mentias A, Raza MQ, Barakat AF, Youssef D, Raymond R, Menon V, et al. Effect of Shorter Door-to-Balloon Times Over 20 Years on Outcomes of Patients With Anterior ST-Elevation Myocardial Infarction Undergoing Primary Percutaneous Coronary Intervention. Am J Cardiol. 2017;120(8):1254-9. who reported a median door-to-balloon time of 38 minutes.

Different from other Brazilian studies,⁴4. Moreira MVF, Ribeiro LA, Alves EE, Neuenschwander FC, Rabelo RR, Filho UL; et al. Há relação entre custos hospitalares e tempo porta-balão? Rev Bras Cardiol Invas. 2015; 23(3):195-200.,¹¹11. Brunori EHFR, Lopes CT, Cavalcante AMRZ, Santos VB, Lopes JL, Barros ALBL. Associação de fatores de risco cardiovasculares com as diferentes apresentações da síndrome coronariana aguda. Ver Latino Am Enfermagem. 2014;22(4):538-46. the present study did not show the relationship of door-to-balloon with length of hospital stay and mortality rate. For example, Moreira et al.,⁴4. Moreira MVF, Ribeiro LA, Alves EE, Neuenschwander FC, Rabelo RR, Filho UL; et al. Há relação entre custos hospitalares e tempo porta-balão? Rev Bras Cardiol Invas. 2015; 23(3):195-200. investigated the correlation of hospital costs and other variables with the door-to-balloon time (n=141 patients) and did not find any significant difference in the mean length of hospital stay or clinical outcomes between the groups with a door-to-balloon time longer than 90 minutes and those with a door-to-balloon time shorter than 90 minutes. Santos et al.,¹⁹19. Santos FG, Campanharo CRV, Lopes MCBT, Okuno MFP, Batista REA, et al. Avaliação da qualidade do atendimento ao paciente com síndrome coronariana aguda no serviço de emergência. Ver Eletrr Enf. 2015;17(4):1-9. evaluated the quality of care provided to patients with acute coronary syndrome (ACS) at the emergency department and did not find an association between the quality indicators for ACS (including the door-to-balloon time), and occurrence of complications or death. However, different findings have been reported in international studies, indicating that a reduction in the door-to-balloon time reduces the length of hospital stay, the risk of in-hospital mortality, and even post-discharge mortality at 30 days, one year and three years.⁷7. Chen FC, Lin YR, Kung CT, Cheng CI, Li CJ. The Association between Door-to-Balloon Time of Less Than 60 Minutes and Prognosis of Patients Developing ST Segment Elevation Myocardial Infarction and Undergoing Primary Percutaneous Coronary Intervention. BioMed Res Int. 2017;2017:1910934.,¹⁶16. Chen H, Liu J, Xiang D, Qin W, Zhou M, Tian Y, et al. Coordinated Digital-Assisted Program Improved Door-to-Balloon Time for Acute Chest Pain Patients. Int Heart J. 2016;57(3):310-6.,¹⁸18. Mentias A, Raza MQ, Barakat AF, Youssef D, Raymond R, Menon V, et al. Effect of Shorter Door-to-Balloon Times Over 20 Years on Outcomes of Patients With Anterior ST-Elevation Myocardial Infarction Undergoing Primary Percutaneous Coronary Intervention. Am J Cardiol. 2017;120(8):1254-9.,²⁰20. Tsukui T, Sakakura K, Taniguchi Y, Yamamoto K, Wada H, Momomura S, et al. Determinants of short and long door-to-balloon time in current primary percutaneous coronary interventions. Heart and Vessels . 2018;33(5):498-506.,²¹21. Puymirat E, Caudron J, Steg PG, Lemesle G, Cottin Y, Coste P, et al. Prognostic impact of non-compliance with guidelines-recommended times to reperfusion therapy in ST-elevation myocardial infarction. The FAST-MI 2010 registry. Eur Heart J Acute Cardiovasc Care. 2017;6(1):26-33.

Regarding other component times of the door-to-balloon time that may have influenced the primary outcome, door-to-ECG time (Δt1) and ECG-to-activation time (Δt2) showed a significant correlation (p<0.001) with door-to-balloon time. These two intervals represent the first in-hospital stages of care provided to STEMI patients, and in our sample, they contributed to the delay in primary mechanical reperfusion. Some studies have pointed out that delays in emergency services are associated with difficulties related to the staff, equipment and facility, impaired communication in the hospital setting, and lack of priority care.⁵5. Campos HAB, MVF Moreira, EE Alves, R Wang, ACM Bedeti, FC Neuenschwander, et al. Impacto da adoção de processos de trabalho hospitalares na redução do tempo porta-balão. Rev Bras Cardiol Invas. 2017;25(1-4):7-11.,⁸8. Byrne J. Reducing time to reperfusion for ST elevation myocardial infarction patients by a simple process change in the Emergency Department. BMJ Qual Improv Rep.2014;3(1):pii u204753.v.2063 [internet]. 2014 jun [acesso em 23 dezembro 2018]; 3 (1). Disponível em: https://bmjopenquality.bmj.com/content/3/1/u204753.w2063.full.pdf.
https://bmjopenquality.bmj.com/content/3... ,²²22. Mendes SIR. A pessoa com enfarte agudo do miocárdio no serviço de urgência: da triagem ao tratamento [Dissertação].Coimbra: Escola Superior de Enfermagem de Coimbra; 2017.

Campos et al.,⁵5. Campos HAB, MVF Moreira, EE Alves, R Wang, ACM Bedeti, FC Neuenschwander, et al. Impacto da adoção de processos de trabalho hospitalares na redução do tempo porta-balão. Rev Bras Cardiol Invas. 2017;25(1-4):7-11. showed a reduction in door-to-balloon time from 144 minutes to 70 minutes after implementation of a communication code, a 24-hor screening protocol and presence of a cardiologist at the emergency department of the hospital. Also, pre-hospital electrocardiogram, improvement in the communication between the emergency staff and interventional cardiologists and use of technology in patient data transmission, early activation and direct transfer to the cath laboratory result in a significant reduction in the door-to-balloon time.²³23. Chen KC, Yin WH, Young MS, Wei J. In-Hospital Tele-ECG Triage and Interventional Cardiologist Activation of the Infarct Team for STEMI Patients is Associated with Improved Late Clinical Outcomes. Acta Cardiol Sin.2016;32(4):428-38.

24. Sardi GL, Loh JP, Torguson R, Satler LF, Waksman R. Real-time, two-way interaction during ST-segment elevation myocardial infarction management improves door-to-balloon times. Cardiovas Revasc Med.2014;15(5):263-8.

25. Takeuchi I, Fujita H, Yanagisawa T, Sato N, Mizutani T, Hattori J, et al. Impact of Doctor Car With Mobile Cloud ECG in Reducing Door-to-Balloon Time of Japanese ST-Elevation Myocardial Infarction Patients. Int Heart J. 2015;56(2):170-3.-²⁶26. Kawakami S, Tahara Y, Noguchi T, Yagi N, Kataoka Y, Asaumi Y, et al. Time to Reperfusion in ST-Segment Elevation Myocardial Infarction Patients With vs. Without Pre-Hospital Mobile Telemedicine 12-Lead Electrocardiogram Transmission. Circulation J.2016;80(7):1624-33.

This study put the time-to-door time on view; however, its limitation was the fact that it was a one-center study, which limits the generalization of the results.

Conclusions

In our study, door-to-balloon time in the management of STEMI patients was longer than recommended. We did not find a correlation of the door-to-balloon time with the length of hospital stay or in-hospital mortality rate. Door-to-ECG time and ECG-to-activation of a cardiologist contributed to a delay in mechanical reperfusion. These findings indicate the need for monitoring the time components of the door-to-balloon time in the management of STEMI patients in order to reduce the obstacles to a timely coronary intervention by PCI. In this way, proper measures can be implemented to achieve an adequate door-to-balloon time, according to current guidelines on STEMI, thereby promoting a high quality of care to these patients.

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Table 3
– Correlation between door-to-balloon time and its components (n=109)

References

¹
Santos ES, Trindade PHDM, Moreira HG. Tratado Dante Pazzanese de Emergências Cardiovasculares. São Paulo: Atheneu;2016.
²
Piegas LS, Timerman A, Feitosa GS, Nicolau JC, Mattos LAP, Andrade MD et al. V Diretriz da Sociedade Brasileira de Cardiologia sobre Tratamento do Infarto Agudo do Miocárdio com Supradesnível do Segmento ST. Arquivos Brasileiro de Cardiologia
³
Wang R, Neuenschwander FC, Filho AL, Moreira CM, Santos ES, Reis HJL, et al. Uso de Intervenções Baseadas em Evidências na Síndrome Coronária Aguda − Subanálise do Registro ACCEPT. Arq Bras Cardiol.2014;102(4):319-26.
⁴
Moreira MVF, Ribeiro LA, Alves EE, Neuenschwander FC, Rabelo RR, Filho UL; et al. Há relação entre custos hospitalares e tempo porta-balão? Rev Bras Cardiol Invas. 2015; 23(3):195-200.
⁵
Campos HAB, MVF Moreira, EE Alves, R Wang, ACM Bedeti, FC Neuenschwander, et al. Impacto da adoção de processos de trabalho hospitalares na redução do tempo porta-balão. Rev Bras Cardiol Invas. 2017;25(1-4):7-11.
⁶
Chao CC, Chen YC, Shih CM, Hou SK, Seethala RR, Aisiku IP, et al. Smartphone transmission of electrocardiography images to reduce time of cardiac catheterization laboratory activation. J Chin Med Assoc.. 2018;81(6):505-10.
⁷
Chen FC, Lin YR, Kung CT, Cheng CI, Li CJ. The Association between Door-to-Balloon Time of Less Than 60 Minutes and Prognosis of Patients Developing ST Segment Elevation Myocardial Infarction and Undergoing Primary Percutaneous Coronary Intervention. BioMed Res Int. 2017;2017:1910934.
⁸
Byrne J. Reducing time to reperfusion for ST elevation myocardial infarction patients by a simple process change in the Emergency Department. BMJ Qual Improv Rep.2014;3(1):pii u204753.v.2063 [internet]. 2014 jun [acesso em 23 dezembro 2018]; 3 (1). Disponível em: https://bmjopenquality.bmj.com/content/3/1/u204753.w2063.full.pdf
» https://bmjopenquality.bmj.com/content/3/1/u204753.w2063.full.pdf
⁹
Oliveira LS, Costa DN, Oliveira DML, Almeida HOC, Mendonça IO. Indicadores de qualidade nos serviços de urgência hospitalar. Ciências Biológicas Saúde Unit.2018;4(3):173-88.
¹⁰
Silveira CLG, Melo VFC, Barreto AJR. Atenção à saúde do homem na atenção primária em saúde: uma revisão integrativa.Rev enferm UFPE (on line) ;2017;11(supl.3):1528-9.
¹¹
Brunori EHFR, Lopes CT, Cavalcante AMRZ, Santos VB, Lopes JL, Barros ALBL. Associação de fatores de risco cardiovasculares com as diferentes apresentações da síndrome coronariana aguda. Ver Latino Am Enfermagem. 2014;22(4):538-46.
¹²
Costa MO. Perfil epidemiológico e fatores de risco de pacientes com diagnóstico de infarto agudo do miocárdio em um hospital de referência cardiológica em Belém-PA [Monografia]. Belém: Universidade do Estado do Pará; 2014.
¹³
Martin RSS, Godoy I, Franco RJS, Martin LC, Martins AS. Influência do nível socioeconômico sobre os fatores de risco cardiovascular. J Bras Med. 2014; 102(2):34-7.
¹⁴
Dharma S, Siswanto BB, Firdaus I, Dakota I, Andriantoro H, Wardeh AJ, et al. Temporal Trends of System of Care for STEMI: Insights from the Jakarta Cardiovascular Care Unit Network System. PLoS One. 2014;9(2):e86665.
¹⁵
Coyne CJ, Testa N, Desai S, Lagrone J, Chang R, Zheng L, et al. Improving Door-to-balloon Time by Decreasing Door-to-ECG time for Walk-in STEMI Patients. West J Emerg Med. 2015; 16(1):184-9.
¹⁶
Chen H, Liu J, Xiang D, Qin W, Zhou M, Tian Y, et al. Coordinated Digital-Assisted Program Improved Door-to-Balloon Time for Acute Chest Pain Patients. Int Heart J. 2016;57(3):310-6.
¹⁷
Nguyen B, Fennessy M, Leya F, Nowak W, Ryan M, Freeberg S, et al. Comparison of Primary Percutaneous Coronary Intervention in Patients With ST-Elevation Myocardial Infarction during and Prior to Availability of na In-House STEMI System: Early Experience and Intermediate Outcomes of the HARRT Program for Achieving Routine D2B Times <60 Minutes. Cathet Cardiovasc Interv. 2015;86(2):186-92.
¹⁸
Mentias A, Raza MQ, Barakat AF, Youssef D, Raymond R, Menon V, et al. Effect of Shorter Door-to-Balloon Times Over 20 Years on Outcomes of Patients With Anterior ST-Elevation Myocardial Infarction Undergoing Primary Percutaneous Coronary Intervention. Am J Cardiol. 2017;120(8):1254-9.
¹⁹
Santos FG, Campanharo CRV, Lopes MCBT, Okuno MFP, Batista REA, et al. Avaliação da qualidade do atendimento ao paciente com síndrome coronariana aguda no serviço de emergência. Ver Eletrr Enf. 2015;17(4):1-9.
²⁰
Tsukui T, Sakakura K, Taniguchi Y, Yamamoto K, Wada H, Momomura S, et al. Determinants of short and long door-to-balloon time in current primary percutaneous coronary interventions. Heart and Vessels . 2018;33(5):498-506.
²¹
Puymirat E, Caudron J, Steg PG, Lemesle G, Cottin Y, Coste P, et al. Prognostic impact of non-compliance with guidelines-recommended times to reperfusion therapy in ST-elevation myocardial infarction. The FAST-MI 2010 registry. Eur Heart J Acute Cardiovasc Care. 2017;6(1):26-33.
²²
Mendes SIR. A pessoa com enfarte agudo do miocárdio no serviço de urgência: da triagem ao tratamento [Dissertação].Coimbra: Escola Superior de Enfermagem de Coimbra; 2017.
²³
Chen KC, Yin WH, Young MS, Wei J. In-Hospital Tele-ECG Triage and Interventional Cardiologist Activation of the Infarct Team for STEMI Patients is Associated with Improved Late Clinical Outcomes. Acta Cardiol Sin.2016;32(4):428-38.
²⁴
Sardi GL, Loh JP, Torguson R, Satler LF, Waksman R. Real-time, two-way interaction during ST-segment elevation myocardial infarction management improves door-to-balloon times. Cardiovas Revasc Med.2014;15(5):263-8.
²⁵
Takeuchi I, Fujita H, Yanagisawa T, Sato N, Mizutani T, Hattori J, et al. Impact of Doctor Car With Mobile Cloud ECG in Reducing Door-to-Balloon Time of Japanese ST-Elevation Myocardial Infarction Patients. Int Heart J. 2015;56(2):170-3.
²⁶
Kawakami S, Tahara Y, Noguchi T, Yagi N, Kataoka Y, Asaumi Y, et al. Time to Reperfusion in ST-Segment Elevation Myocardial Infarction Patients With vs. Without Pre-Hospital Mobile Telemedicine 12-Lead Electrocardiogram Transmission. Circulation J.2016;80(7):1624-33.

Study Association

This article is part of the thesis of master submitted by Tárcio Sadraque Gomes Amoras, from Universidade do Estado do Pará and Fundação Hospital de Clínicas Gaspar Vianna.
Ethics Approval and Consent to Participate

This study was approved by the Ethics Committee of the Fundação Hospital de Clínicas Gaspar Vianna under the protocol number 82951718.3.0000.0016. All the procedures in this study were in accordance with the 1975 Helsinki Declaration, updated in 2013. Informed consent was obtained from all participants included in the study.

Sources of Funding

There were no external funding sources for this study.

Publication Dates

Publication in this collection
06 Nov 2020
Date of issue
Jan-Feb 2021

History

Received
07 June 2019
Reviewed
15 Oct 2019
Accepted
26 Jan 2020

This is an Open Access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

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[19] ¹⁹
Santos FG, Campanharo CRV, Lopes MCBT, Okuno MFP, Batista REA, et al. Avaliação da qualidade do atendimento ao paciente com síndrome coronariana aguda no serviço de emergência. Ver Eletrr Enf. 2015;17(4):1-9.

[20] ²⁰
Tsukui T, Sakakura K, Taniguchi Y, Yamamoto K, Wada H, Momomura S, et al. Determinants of short and long door-to-balloon time in current primary percutaneous coronary interventions. Heart and Vessels . 2018;33(5):498-506.

[21] ²¹
Puymirat E, Caudron J, Steg PG, Lemesle G, Cottin Y, Coste P, et al. Prognostic impact of non-compliance with guidelines-recommended times to reperfusion therapy in ST-elevation myocardial infarction. The FAST-MI 2010 registry. Eur Heart J Acute Cardiovasc Care. 2017;6(1):26-33.

[22] ²²
Mendes SIR. A pessoa com enfarte agudo do miocárdio no serviço de urgência: da triagem ao tratamento [Dissertação].Coimbra: Escola Superior de Enfermagem de Coimbra; 2017.

[23] ²³
Chen KC, Yin WH, Young MS, Wei J. In-Hospital Tele-ECG Triage and Interventional Cardiologist Activation of the Infarct Team for STEMI Patients is Associated with Improved Late Clinical Outcomes. Acta Cardiol Sin.2016;32(4):428-38.

[24] ²⁴
Sardi GL, Loh JP, Torguson R, Satler LF, Waksman R. Real-time, two-way interaction during ST-segment elevation myocardial infarction management improves door-to-balloon times. Cardiovas Revasc Med.2014;15(5):263-8.

[25] ²⁵
Takeuchi I, Fujita H, Yanagisawa T, Sato N, Mizutani T, Hattori J, et al. Impact of Doctor Car With Mobile Cloud ECG in Reducing Door-to-Balloon Time of Japanese ST-Elevation Myocardial Infarction Patients. Int Heart J. 2015;56(2):170-3.

[26] ²⁶
Kawakami S, Tahara Y, Noguchi T, Yagi N, Kataoka Y, Asaumi Y, et al. Time to Reperfusion in ST-Segment Elevation Myocardial Infarction Patients With vs. Without Pre-Hospital Mobile Telemedicine 12-Lead Electrocardiogram Transmission. Circulation J.2016;80(7):1624-33.

Variables	N = 109
Sociodemographic data
Age (years)	61.11 ± 10.879
Male sex	86 (78.9%)
Pardo ethnicity	70(64.2%)
Metropolitan area of Belem (origin)	76(69.7%)
Risk factors
Arterial hypertension	69 (63.3%)
Smoking	58 (53.2%)
Alcohol consumption	46 (42.2%)
Diabetes mellitus	32 (29.6%)
Infarction presentation
Symptom duration on admission (hours)	6 ± 3.116
Anterior wall infarction	49 (45%)
Anterior descending artery occlusion	54 (49.5%)
Right coronary artery occlusion	41 (37.6%)
Circumflex artery occlusion	10 (9.2%)
Deaths	9 (8.3%.)
Length of hospital stay (days)	7.77 ± 11.94)

Time intervals	Median (IQR)
Door-to-balloon time	104 (18 – 133)
Door-to-ECG time (Δt1)	11 (5 – 18)
ECG-to-activation time (Δt2)	10 (5 – 18)
Activation-to-patient preparation time (Δt3)	10 (5 – 15)
Patient preparation-to-PCI initiation time (Δt4)	15 (0 – 45)
PCI initiation-to-balloon time (Δt5)	20 (0 – 30)
Activation-to-arrival of the interventional cardiologist (Δt6)	25 (0 – 38)

Components of the door-to-balloon time	Spearman correlation coefficient	p-value*
Door-to-ECG time (Δt1)	0.535	< 0.001
ECG-to-activation time (Δt2)	0.521	< 0.001
Activation-to-patient preparation time (Δt3)	-0.005	0.961
Patient preparation-to-PCI initiation time (Δt4)	0.130	0.209
PCI initiation-to-balloon time (Δt5)	0.168	0.103
Activation-to-arrival of the interventional cardiologist (Δt6)	0.085	0.385