ABSTRACT

Objective

To develop and test a beat-to-beat blood pressure monitoring device during coronary angiography, and compare it with invasive blood pressure monitoring.

Methods

Twenty-eight patients with an indication for hemodynamic study were selected for this investigation, and kept in supine position. Before starting the coronary angiography, they were instructed about the use of the left radial bracelet for beat-to-beat blood pressure monitoring.

Results

There was a significant difference between the time required for the catheterization laboratory team to acquire the first invasive blood pressure reading and the time to obtain the first beat-to-beat reading (11.1±5.1 and 1.5±1.8, respectively; p<0.0001). The intraclass correlation coefficients (95%CI) of systolic and diastolic blood pressures were 0.897 (0.780-0.952) and 0.876 (0.734-0.942), indicating good reproducibility.

Conclusion

This study showed the process to develop a beat-to-beat blood pressure monitoring device. When compared to invasive blood pressure monitoring, there were no significant differences between the two methods. This technique may play a promising coadjuvant role when combined with invasive monitoring during coronary angiography procedures.

Coronary angiography; Blood pressure; Validation; Monitoring, physiologic

RESUMO

Objetivo

Desenvolver e validar um equipamento para monitorização de pressão arterial batimento a batimento, durante a realização de coronariografia, e comparar com as medidas de pressão arterial invasiva obtidas.

Métodos

Foram selecionados 28 pacientes com indicação de estudo hemodinâmico, que permaneceram em decúbito dorsal horizontal e, antes do início da coronariografia, foram orientados quanto ao uso da pulseira radial esquerda para monitorização da pressão arterial batimento a batimento.

Resultados

Houve diferença significativa entre o tempo necessário para a equipe de hemodinâmica adquirir a primeira medida da pressão arterial invasiva e o tempo da primeira medida da pressão arterial batimento a batimento (11,1±5,1 e 1,5±1,8, respectivamente; p<0,0001). Os coeficientes de correlação intraclasse (IC95%) da pressão arterial sistólica e da diastólica foram 0,897 (0,780-0,952) e 0,876 (0,734-0,942), indicando boa reprodutibilidade.

Conclusão

Este estudo demonstrou o processo de desenvolvimento de um equipamento para avaliação da pressão arterial batimento a batimento. Quando comparado com a pressão arterial invasiva, não foram encontradas diferenças significativas entre as duas medidas. Essa técnica pode constituir ferramenta coadjuvante promissora, associada à monitorização invasiva, durante procedimentos de coronariografia.

Angiografia coronária; Pressão sanguínea; Validação; Monitorização fisiológica

INTRODUCTION

Blood pressure (BP) variations can occur in short time intervals, secondary to cardiopulmonary reflexes,⁽¹1. Shepherd JT, Mancia G. Reflex control of the human cardiovascular system. Rev Physiol Biochem Pharmacol. 1986;105:1-99.⁾ neurohormonal,⁽²2. Lohmeier TE, Iliescu R. The baroreflex as a long-term controller of arterial pressure. Physiology (Bethesda). 2015;30(2):148-58. Review.⁾ sleep-related⁽³3. Alex R, Manchikatla S, Machiraju K, Altuwaijri E, Watenpaugh DE, Zhang R, et al. Effect of apnea duration on apnea induced variations in cerebral blood flow velocity and arterial blood pressure. Conf Proc IEEE Eng Med Biol Soc. 2014;2014:270-3.⁾ and even behavioral factors.⁽⁴4. Parati G, Ochoa JE, Lombardi C, Bilo G. Assessment and management of blood-pressure variability. Nat Rev Cardiol. 2013;10(3):143-55. Review. Erratum in: Nat Rev Cardiol. 2014;11(6):314.⁾ Currently, there is a lot of interest around non-manual BP monitoring methods, since automating this process can contribute to optimizing staff time, and offer greater comfort to patients. In addition, BP readings acquired using automatic methods are comparable to manual readings.⁽¹1. Shepherd JT, Mancia G. Reflex control of the human cardiovascular system. Rev Physiol Biochem Pharmacol. 1986;105:1-99.^,22. Lohmeier TE, Iliescu R. The baroreflex as a long-term controller of arterial pressure. Physiology (Bethesda). 2015;30(2):148-58. Review.⁾

On the other hand, in some clinical situations, small variations in BP may occur suddenly and have great relevance, such as in vasovagal reflex, bleedings and cardiac arrhythmias, among others. Most automatic devices have been validated for focal measurements and, very often, there is a delay in the documentation of rapid BP variations. In Brazil, there are no devices for beat-to-beat peripheral arterial tonometry that have been tested and validated for clinical use; therefore, continuous BP monitoring can contribute to the follow-up of these patients.⁽⁴4. Parati G, Ochoa JE, Lombardi C, Bilo G. Assessment and management of blood-pressure variability. Nat Rev Cardiol. 2013;10(3):143-55. Review. Erratum in: Nat Rev Cardiol. 2014;11(6):314.⁾

Arterial tonometry is performed by a transducer positioned on the radial artery, detecting the pulse wave and calculating systolic and diastolic BP, updating values at every heart beat, continuously and non-invasively.⁽⁵5. Meidert AS, Saugel B. Techniques for non-invasive monitoring of arterial blood pressure. Front Med (Lausanne). 2018;4:231.⁾

During coronary angiography procedures, invasive BP monitoring is mandatory for early detection of hemodynamic changes and complications of the procedure. Beat-to-beat BP monitoring devices with an accuracy comparable to that of invasive BP monitoring may contribute to hemodynamic monitoring during invasive and non-invasive procedures.

OBJECTIVE

To develop and validate a beat-to-beat blood pressure monitoring device to be used during coronary angiography, and compare its readings to those obtained by invasive blood pressure monitoring.

METHODS

Study population

We selected 28 consecutive patients with ordered hemodynamic studies, coming from secondary care services, according to the capacity planning center of the Interventional Cardiology Department of a teaching hospital in the city of São Paulo (SP), in the period between February and September 2016. We enrolled patients of both sexes, aged over 18 years, with an indication for elective coronary angiography due to suspected coronary artery disease. Patients with body mass index (BMI) above 40kg/m², history of thrombosis of the upper limbs (UL), previous amputation of the left upper limb (LUL), significant skin abnormalities, asymmetrical pulses, arrhythmias, emergency procedures, and those with hemodynamic instability were excluded.

Development of the device

Prototype

Three sessions were held to discuss the requirements and develop the prototype in partnership with clinical engineering researchers of the Technological Innovation Center, at Hospital Israelita Albert Einstein , based on the principles of peripheral arterial tonometry adapted for the left radial artery. At this stage, the conceptual project of the bracelet was developed ( Figure 1 ).

Enhancement of the left radial bracelet

At this stage, pre-tests were conducted to verify the feasibility of the measurements and any discomfort when wearing the bracelet. Problems related with ergonomic factors, physical aspects and variations resulting from changing positions were recognized and corrected at this time.

Software development

The presentation of data, including heart rate and systolic and diastolic blood pressure values, was defined to ensure easy visualization.

Familiarization sessions

Meetings were held with the team to provide the pieces of information they needed, and train them on the proper use of the device, and to start the clinical testing stage.

All stages were conducted in the presence of the medical, nursing and clinical engineering staff.

Clinical tests

Clinical trial protocol

Study subjects were instructed to come to the Interventional Cardiology Department with a companion and after fasting for 8 hours. Patients were kept in supine position; before the coronary angiography, they were instructed on the use of the left radial bracelet for beat-to-beat BP monitoring. The bracelet was put on according to the greatest signal strength obtained for the radial pulse. Patients were instructed not to move their left upper limb during the procedure.

After puncturing the femoral or right radial artery and verifying invasive BP using a pressure transducer (TEB SP12 – SP12/32, serial number: 06081004), we calibrated the peripheral arterial tonometry system.

Continuous BP and heart rate monitoring was kept throughout the procedure, even during contrast injection. Blood pressure measurements were collected at six timepoints, during the coronary angiography, at regular intervals, and the data were compared with simultaneous measurements obtained by the invasive system.

Statistical analysis

We used the software Statistical Package for the Social Science (SPSS), version 20.0, and Stata^®, for data analysis. The reproducibility between the two measurements was assessed by the intraclass correlation. To facilitate visualization of the two measurements, we plotted Bland-Altman charts. Additionally, we presented Pearson correlations to assess the linear association between the two results. Data were expressed as mean and standard deviation for quantitative variables. Categorical variables were presented as percentages. To compare the means of the two measurements, we used the Student’s t test for paired samples. Linear regression models were adjusted to verify the existence of any interaction of the systolic pressure measured with the device and BMI, diabetes or hypertension, with the systolic pressure measured by the invasive method. The same was done for diastolic BP. Both the Student’s t test and the linear regression assumed a normal distribution of the data, which was verified by the Kolmogorov-Smirnov test. The significance level was set at p<0.05.

Ethical aspects

The study was approved by the Institutional Review Board of the Universidade Federal de São Paulo (UNIFESP) under opinion 534.636, CAAE: 15481413.0.0000.5505, and all patients signed an Informed Consent Form.

RESULTS

The prototype development and bracelet enhancement stages are shown in figure 2 .

The mean age of patients was 61.5±9.9 years. Of the 28 subjects, 17 were males. The characteristics of the sample investigated are presented in table 1 . There was a significant difference between the time required for the catheterization laboratory (cath lab) team to obtain the first invasive BP reading and the first beat-to-beat BP reading (11.1±5.1 minutes versus 1.5±1.8 minutes; p<0.0001). During clinical tests, one patient (0.3%) asked for the bracelet to be removed due to pain on the left wrist. Continuous, beat-to-beat BP measurement was not lost in any of the patients during monitoring, even during contrast injection for coronary angiography.

There was no statistical difference between mean systolic BP values of the device when compared with invasive monitoring (130.73mmHg±15.95mmHg versus 128.79mmHg±16.24mmHg; p=0.305). There was no statistical difference between mean diastolic BP values of the device, when compared with invasive monitoring (78.26mmHg±13.23mmHg versus 77.57mmHg±12.54mmHg; p=0.677). The intraclass correlation coefficients (95%CI) of systolic and diastolic BP were 0.897 (0.780-0.952) and 0.876 (0.734-0.942), indicating good reproducibility.

Figures 3 and 4 show the dispersion between readings for systolic and diastolic BP.

Linear regression models did not show any interaction effect between BMI, diabetes or hypertension, both for systolic and diastolic BPs measured by the device in relation to the pressure values invasively measured. The beta values of interaction (95%CI) for systolic and diastolic BP and diabetes were, respectively, 1.78 (-0.11- 0.97) and -0.44 (-0.75-0.44). The beta values of interaction (95%CI) for systolic and diastolic BP and hypertension were, respectively, 0.76 (0.24-1.25) and -1.25 (0.98-0.17). The beta values of interaction (95%CI) for systolic and diastolic BP and BMI were, respectively, -1.69 (-0.10-0.21) and -2.93 (-0.18-0.01).

DISCUSSION

The main finding of this study was the development of a tool capable of monitoring BP beat-to-beat, with good correlation with invasive measurements. It seems to be an international consensus, and also advocated by the Multicenter Meeting on Hypertensive Crises that, once the emergency is confirmed, the situation always requires the use of injectable drugs through proper venous access, if possible using continuous infusion pumps and rigorous BP monitoring.⁽⁶6. Zampaglione B, Pascale C, Marchisio M, Cavallo-Perin P. Hypertensive urgencies and emergencies. Prevalence and clinical presentation. Hypertension. 1996; 27(1):144-7.⁾

The validation of new devices for this purpose is no novelty. Since 1980, several protocols have been proposed, but it was only in 2010 that the European Society of Hypertension published a review with the international protocol for BP measurement in adults,⁽⁷7. O’Brien E, Atkins N, Stergiou G, Karpettas N, Parati G, Asmar R, Imai Y, Wang J, Mengden T, Shennan A; Working Group on Blood Pressure Monitoring of the European Society of Hypertension. European Society of Hypertension International Protocol revision 2010 for the validation of blood pressure measuring devices in adults. Blood Press Monit. 2010;15(1):23-38. Erratum in: Blood Press Monit. 2010;15(3):171-2.⁾ which guided many clinical trials concerning technological development and validation protocols. Heusdens et al., investigated 25 consecutive patients undergoing endarterectomy and requiring BP monitoring, and compared non-invasive readings taken with a finger monitor with invasive BP readings, demonstrating a good clinical correlation.⁽⁸8. Heusdens JF, Lof S, Pennekamp CW, Specken-Welleweerd JC, de Borst GJ, van Klei WA, et al. Validation of non-invasive arterial pressure monitoring during carotid endarterectomy. Br J Anaesth. 2016;117(3):316-23.⁾ Hellman et al., looked into patients with Parkinson’s disease, with and without documented orthostatic hypotension, subjected to the Valsava maneuver using traditional methods and continuous, beat-to-beat BP monitoring. The authors demonstrated that continuous monitoring is more sensitive than traditional monitoring for diagnosis of postural hypotension in this population.⁽⁹9. Hellman AM, Shah SP, Pawlowski SM, Duda JE, Morley JF. Continuous non-invasive monitoring to detect covert autonomic dysfunction in Parkinson’s disease. Parkinsonism Relat Disord. 2015;21(7):723-8.⁾ Similar findings were reported by Langwieser et al., who studied the role of peripheral arterial tonometry in patients admitted to intensive care units, demonstrating that the technique has good accuracy when compared to invasive techniques, and can serve as an alternative for monitoring these patients.⁽¹⁰10. Langwieser N, Prechtl L, Meidert AS, Hapfelmeier A, Bradaric C, Ibrahim T, et al. Radial artery applanation tonometry for continuous noninvasive arterial blood pressure monitoring in the cardiac intensive care unit. Clin Res Cardiol. 2015;104(6):518-24.⁾ Our study, likewise, showed no significant differences between systolic and diastolic BP readings during coronary angiography.

On the other hand, in a study conducted by Gupta et al., looking at continuous, beat-to-beat monitoring, with intermittent BP measurements during elective cesarean sections, it was demonstrated that patients monitored with the continuous technique had lower detection of BP drops and lower use of oxytocin when compared with the group on intermittent monitoring. The authors concluded that continuous monitoring can only be used as a support to conventional monitoring.⁽¹¹11. Gupta D, Soskin V, Marjanovic M, Amhaz H, Mazumdar A. Continuous non-invasive arterial pressure device as an adjunct to recognize fluctuating blood pressures during elective cesarean section under subarachnoid blockade (SAB). Middle East J Anaesthesiol. 2016;23(4):385-400.⁾

Furthermore, the concern with the safe use of devices is nationally reinforced in the Patient Safety Program, and actually is one of the program’s goals; for this reason, tolerance to the method was also an important factor investigated in this study, where only one (3.6%) of patients reported local pain with the use of the bracelet.⁽¹²12. Brasil. Ministério da Saúde. Fundação Oswaldo Cruz. Agência Nacional de Vigilância Sanitária. Documento de referência para o Programa Nacional de Segurança do Paciente [Internet]. Brasília (DF): Ministério da Saúde; 2014 [citado 2018 Set 13]. Disponível em: http://bvsms.saude.gov.br/bvs/publicacoes/documento_referencia_programa_nacional_seguranca.pdf
http://bvsms.saude.gov.br/bvs/publicacoe... ⁾

The total monitoring time may also be a determinant factor when assessing tolerance and, indeed, in our study, the beat-to-beat monitoring time was approximately one hour, which makes it impossible to compare with monitoring methods with different duration.

The time of acquisition of the first BP reading by arterial tonometry was shorter when compared with invasive pressure monitoring (11.1±5.1 minutes versus 1.5±1.8 minutes; p<0.0001). This fact can be important in more urgent scenarios and is a promising finding for future clinical investigations. Another advantage is the fact that beat-to-beat BP monitoring remained unchanged during contrast injection, which can yield additional information during the procedure.

Also, beat-to-beat BP control can be useful in post-cardiac arrest myocardial dysfunction and in the control of hypertensive crises, since the drop in ejection fraction and increased end-diastolic pressure of the left ventricle can take place hours later, with hypotension and low cardiac output and,⁽¹³13. Gonzalez MM, Timerman S, Gianotto-Oliveira R, Polastri TF, Canesin MF, Schimidt A, et al. I Diretriz de Ressuscitação Cardiopulmonar e Cuidados Cardiovasculares de Emergência da Sociedade Brasileira de Cardiologia. Arq Bras Cardiol. 2013;101(2 Suppl 3):1-221.⁾ therefore, this control PA must be rigorous.⁽⁶6. Zampaglione B, Pascale C, Marchisio M, Cavallo-Perin P. Hypertensive urgencies and emergencies. Prevalence and clinical presentation. Hypertension. 1996; 27(1):144-7.⁾

Some limitations are worth noting: the small number of patients and the exclusion of obese patients, patients with cardiac arrhythmias and hemodynamic instability, which warrants the need for new studies. Moreover, reproducing these results in other areas is essential for understanding their usability, once the population investigated in this study was quite specific.

CONCLUSION

There was a correlation between the blood pressure readings using the invasive technique and the non-invasive, beat-to-beat blood pressure monitoring device. Also, greater agility was observed in obtaining the first blood pressure reading. Therefore, the device developed may become a promising tool for hemodynamic monitoring.

ACKNOWLEDGMENTS

To the Sociedade Beneficente Israelita Albert Einstein , for fostering the project to develop the device that was validated in this study.

The present is based on the Master’s degree thesis of Melania Aparecida Borges, financed by the Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES).

REFERENCES

Publication Dates

History