Detección de fibrilación auricular extrahospitalario por smartwatches: Una revisión sistemática

Detection of extra-hospital atrial fibrillation with smartwatches diseases: a systematic review

Autores/as

DOI:

https://doi.org/10.59085/2789-7818.2022.46

Palabras clave:

Fibrilación atrial extrahospitalaria, cardiología, smartwatch

Resumen

La utilización contemporánea de smartwatches presenta como principio viable y accesible al monitoreo extrahospitalario de condiciones fisiológicas en las que utilizan, incluso sus alteraciones, como la fibrilación auricular(1–8). El objetivo del presente trabajo se centra en explorar informaciones sobre como los relojes electrónicos pueden auxiliar en la identificación previa de fibrilación auricular, utilizando datos obtenidos en los grandes vehículos de informaciones médicas internacionales computadorizadas, como PubMed, Scielo, Science.gov y Capes Gov Br, seleccionando materiales convergentes al tema tratado. El estudio ha arrojado resultados positivos al encontrar artículos relacionados al uso de la fotopletismografía en la detección de fibrilación auricular, evidenciando la identificación de la arritmia por el uso extrahospitalario favorable de los mencionados dispositivos. Las informaciones limitadas al respecto generan la necesidad de más estudios sobre el tema.

Palabras clave: Fibrilación atrial extrahospitalaria, cardiología, smartwatch.

 

Abstract

The contemporary use of smartwatches has presented as a viable and accessible principle the out-of-hospital monitoring of physiological conditions of those who use them, including their alterations, such as atrial fibrillation (1–8). The objective of this work is to focus on exploring information on how electronic watches can help in the prior identification of atrial fibrillation. Being, data from constant literature in the great international computerized medical information vehicles, such as PubMed, Scielo, Science.gov and Capes Gov Br. Where materials that converged on the exposed question were chosen. The study was positive in finding articles that were in tune with their criticisms of the use of photoplethysmography in the detection of atrial fibrillation, as well as the limitations and the need for more advances in studies on the subject. Being favorable to the outpatient use of the devices in the identification of the arrhythmia.

Keywords: Out-of-hospital atrial fibrillation, cardiology, smartwatch.

Descargas

Los datos de descargas todavía no están disponibles.

Citas

(1) Prasitlumkum N, Cheungpasitporn W, Chokesuwattanaskul A, Thangjui S, Thongprayoon C, Bathini T, et al. Diagnostic accuracy of smart gadgets/wearable devices in detecting atrial fibrillation: A systematic review and meta-analysis. Archives of Cardiovascular Diseases. 2021 Jan;114(1):4–16.

(2) Lakkireddy D. Diagnostic Utility of Smartwatch Technology for Atrial Fibrillation Detection – A Systematic Analysis. Journal of Atrial Fibrillation. 2020 Oct 31;13(6).

(3) Avram R, Ramsis M, Cristal AD, Nathan V, Zhu L, Kim J, et al. Validation of an algorithm for continuous monitoring of atrial fibrillation using a consumer smartwatch. Heart Rhythm. 2021 Sep;18(9):1482–90.

(4) Aschbacher K, Yilmaz D, Kerem Y, Crawford S, Benaron D, Liu J, et al. Atrial fibrillation detection from raw photoplethysmography waveforms: A deep learning application. Heart Rhythm O2. 2020 Apr;1(1):3–9.

(5) Chang PC, Wen MS, Chou CC, Wang CC, Hung KC. Atrial fibrillation detection using ambulatory smartwatch photoplethysmography and validation with simultaneous holter recording. American Heart Journal. 2022 May; 247:55–62.

(6) Tison GH, Sanchez JM, Ballinger B, Singh A, Olgin JE, Pletcher MJ, et al. Passive Detection of Atrial Fibrillation Using a Commercially Available Smartwatch. JAMA Cardiology. 2018 May 1;3(5):409.

(7) Dörr M, Nohturfft V, Brasier N, Bosshard E, Djurdjevic A, Gross S, et al. The WATCH AF Trial: SmartWATCHes for Detection of Atrial Fibrillation. JACC: Clinical Electrophysiology. 2019 Feb;5(2):199–208.

(8) Mutke MR, Brasier N, Raichle C, Ravanelli F, Doerr M, Eckstein J. Comparison and Combination of Single-Lead ECG and Photoplethysmography Algorithms for Wearable-Based Atrial Fibrillation Screening. Telemedicine and e-Health. 2021 Mar 1;27(3):296–302.

(9) Farreras R et al. Medicina Interna. 19th ed. Vol. Vol.1. Espana : Elsevier; 2020. 435–457 p.

(10) Isakadze N, Martin SS. How useful is the smartwatch ECG? Trends in Cardiovascular Medicine. 2020 Oct 1;30(7):442–8.

(11) Mota M. Interação Humano-Computador [Internet]. https://www.sbc.org.br/14-comissoes/390-interacao-humano-computador

(12) Revista Uruguaya. Lo mejor del Congreso ACC 2021. Revista Uruguaya de Cardiología. 2021 Mar 17;36.

(13) Saavedra A et al. Mobile Application for the Monitoring of Patients with Diabetes Problems through Devices Based on Spectrophotometry [Internet]. https://www.researchgate.net/publication/338256098_Mobile_Application_for_the_Monitoring_of_Patients_with_Diabetes_Problems_through_Devices_Based_on_Spectrophotometry

(14) Costa LH, et al. REDES GSM, GPRS, EDGE E UMTS [Internet]. https://www.gta.ufrj.br/ensino/eel879/trabalhos_vf_2008_2/ricardo/index.html

(15) Lara R. Pulso de luz: como relógios são capazes de medir os batimentos cardíacos? - 08/06/2021 - UOL TILT [Internet]. https://www.uol.com.br/tilt/noticias/redacao/2021/06/08/pulso-de-luz-como-relogios-sao-capazes-de-medir-os-batimentos-cardiacos.htm

(16) Carneiro L. Tecnologia da Informação e a Medicina: Redes Neurais, Neurociência e Inteligência Artificial na Medicina [Internet]. http://timedicina.blogspot.com/2009/10/redes-neurais-neurociencia-e.html

Publicado

15-03-2023

Cómo citar

Ferreira, J. F., & Sande Rolon, V. Y. . (2023). Detección de fibrilación auricular extrahospitalario por smartwatches: Una revisión sistemática: Detection of extra-hospital atrial fibrillation with smartwatches diseases: a systematic review. Epicentro - Revista De Investigación Ciencias De La Salud, 2(4), 40–49. https://doi.org/10.59085/2789-7818.2022.46

Artículos más leídos del mismo autor/a