Remote Monitoring of Heart Failure: A Single-Center Experience

In this interview, Jonathan Rosman, MD, FACC, FHRS talks about his approach to remote monitoring of congestive heart failure (CHF).

Tell us about your practice.

I joined Cardiac Arrhythmia Service, located in South Florida, after completing my EP fellowship 6 years ago at Brigham and Women’s Hospital. I have 2 partners, Dr. Murray Rosenbaum and Dr. Martin Kloosterman. We also have 2 physician assistants. We have a research coordinator and are involved in clinical studies. Our practice is limited to electrophysiology, and we have a large referral network from general cardiologists in the area. 

Why is remote monitoring important?

Remote monitoring is associated with a morbidity and mortality benefit for patients with pacemakers and defibrillators.^1-3 By monitoring patients on a daily basis, we are able to immediately diagnose and treat arrhythmias and device/lead-related problems. If we discover atrial fibrillation, we start the patient on anticoagulation right away, then have them follow up in our office or with their cardiologist. If we find a ventricular arrhythmia, we start antiarrhythmic medications over the phone or admit the patient to the hospital to prevent recurrent VT and ICD shocks. If we see lead- or device-related issues, we immediately arrange appropriate care to prevent inappropriate ICD shocks or loss of pacemaker function. Remote monitoring has revolutionized the practice of cardiac electrophysiology and has markedly improved patient outcomes.^1-2

How have you incorporated remote monitoring into your practice?

Remote monitoring maximizes our group’s efficiency. We can manage and treat more patients by reducing the number of in-office visits needed for patients followed remotely. We currently remotely monitor 850 patients with implantable defibrillators, 750 patients with implantable loop recorders, and 400 patients with pacemakers. We also have 300 patients in our remote heart failure monitoring program. We have 2 technicians who download and review transmissions on a daily basis. Transmissions that require review are evaluated by a physician, and after a plan of care has been established, the transmission and note are scanned into the EMR. A physician or physician assistant will contact the patient by phone to review the information and plan of care. We are a team of secretaries, technicians, nurses, physician assistants, and physicians all working together to optimize patient care for our remote monitoring program.

Describe remote monitoring for heart failure.

Implantable defibrillators can monitor intrathoracic impedance. The lungs are located between the RV lead and defibrillator, and by measuring the resistance between them, the defibrillator can assess pulmonary fluid status. Conduction is faster through water; therefore, lower intrathoracic impedance (lower resistance) suggests pulmonary fluid accumulation. Low intrathoracic impedance values precede clinical signs and symptoms of congestive heart failure.^4-5 Studies show that patients with low intrathoracic impedance measurements are at increased near-term risk of CHF hospitalization.^4-6 By remotely monitoring changes in intrathoracic impedance, we can potentially prevent heart failure exacerbations and hospitalizations.

Have studies demonstrated a clinical benefit for heart failure monitoring?

Studies have consistently demonstrated the predictive nature of low intrathoracic impedance and the increased risk of CHF exacerbation and hospitalization.^6-7 However, the utilization of this data to improve clinical outcomes is not well established.⁸ The DOT-HF study evaluated whether intrathoracic impedance values could be utilized to decrease hospitalizations.⁹ Patients received an audible alert to a decrease in intrathoracic impedance. Results showed an increase in hospitalizations in the treatment group compared with the control group. However, the presence of an audible alert and the lack of remote monitoring may have impacted these results. Heart failure treatment and hospitalizations in DOT-HF were often driven by the audible alert, even in the absence of clinical symptoms. Similarly, the LIMIT-CHF study studied the presence of an audible alert to low intrathoracic impedance to reduce CHF hospitalizations.¹⁰ Every patient with an audible alert was instructed to increase their diuretic dose for a week. There was no difference in outcome between the two groups. However, patients were treated solely based on an alert, even in the absence of clinical symptoms. 

How does your approach differ from prior studies?

How do patients and cardiologists feel about your approach to remote heart failure monitoring? 

References

1. Mittal S, Piccini JP, Snell J, et al. Improved survival in patients enrolled promptly into remote monitoring following cardiac implantable electronic device implantation. J Interv Card Electrophysiol. 2016;10:1-8.
2. Landolina M, Perego GB, Lunati M, et al. Remote monitoring reduces healthcare use and improves quality of care in heart failure patients with implantable defibrillators: the evolution of management strategies of heart failure patients with implantable defibrillators (EVOLVO) study. Circulation. 2012;125(24):2985-2992.
3. Slotwiner D, Varma N, Akar JG, et al. HRS Expert Consensus Statement on remote interrogation and monitoring for cardiovascular electronic implantable devices. Heart Rhythm. 2015;12(17)e69-e100.
4. Cowie MR, Sarkar S, Koehler J, et al. Development and validation of an integrated diagnostic algorithm derived from parameters monitored in implantable devices for identifying patients at risk for heart failure hospitalization in an ambulatory setting. Eur Heart J. 2013;34(31):2472-2480.
5. Yu CM, Wang L, Chau E, et al. Intrathoracic impedance monitoring in patients with heart failure correlation with fluid status and feasibility of early warning preceding hospitalization. Circulation. 2005;112(6):841-848.
6. Small RS, Wickemeyer W, Germany R, et al. Changes in intrathoracic impedance are associated with subsequent risk of hospitalizations for acute decompensated heart failure: clinical utility of implanted device monitoring without a patient alert. J Card Fail. 2009;15(6):475-481.
7. Whellan DJ, Ousdigian KT, Al-Khatib SM, et al. Combined heart failure device diagnostics identify patients at higher risk of subsequent heart failure hospitalizations: results from PARTNERS HF (Program to Access and Review Trending Information and Evaluate Correlation to Symptoms in Patients With Heart Failure) study. J Am Coll Cardiol. 2010;55(17):1803-1810.
8. Van Veldhuisen DJ, Maass AH. Telemonitoring of outpatients with heart failure: a search for the holy grail? Circulation. 2012;125:2965-2967.
9. Van Veldhuisen DJ, Braunschweig F, Conraads V, et al. Intrathoracic impedance monitoring, audible patient alerts, and outcome in patients with heart failure. Circulation. 2011;124(16):1719-1726.
10. Domenichini G, Rahneva T, Diab IG, et al. The lung impedance monitoring in treatment of chronic heart failure (the LIMIT-CHF study). Europace. 2016;18(9):428-435.
11. Rosman J, Rosenbaum M, Kloosterman EM. A Patient-centered Educational Approach To Intrathoracic Impedance Remote Monitoring Can Reduce Hospitalizations. J Inn Card Rhythm Man. 2016;7(10)296-249.