Improved delivery of rate‐adaptive pacing using an impedance‐derived contractility sensor in high‐intensity exercise: A case report.

MLA

Procter, William Thomas Christopher, et al. “Improved Delivery of Rate‐adaptive Pacing Using an Impedance‐derived Contractility Sensor in High‐intensity Exercise: A Case Report.” Pacing & Clinical Electrophysiology, vol. 46, no. 9, Sept. 2023, pp. 1141–44. EBSCOhost, https://doi.org/10.1111/pace.14670.

APA

Procter, W. T. C., Elliott, J., Butt, A. H., Monkhouse, C., Bhuva, A. N., & Moore, P. (2023). Improved delivery of rate‐adaptive pacing using an impedance‐derived contractility sensor in high‐intensity exercise: A case report. Pacing & Clinical Electrophysiology, 46(9), 1141–1144. https://doi.org/10.1111/pace.14670

Chicago

Procter, William Thomas Christopher, James Elliott, Abdul H Butt, Christopher Monkhouse, Anish N. Bhuva, and Philip Moore. 2023. “Improved Delivery of Rate‐adaptive Pacing Using an Impedance‐derived Contractility Sensor in High‐intensity Exercise: A Case Report.” Pacing & Clinical Electrophysiology 46 (9): 1141–44. doi:10.1111/pace.14670.