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Premature Ventricular Complexes: Assessing Burden Density in a Large National Cohort to Better Define Optimal ECG Monitoring Duration.
BACKGROUND: Premature ventricular contractions (PVCs) burden is a risk factor for heart failure and cardiovascular death in patients with structural heart disease. Long-term ECG monitoring can have a significant impact on PVC burden evaluation by further defining PVC distribution patterns.
OBJECTIVE: This study aimed to ascertain the optimal duration of ECG monitoring to characterize PVC burden and understand clinical characteristics associated with frequent PVCs and NSVT in a large US cohort.
METHODS: Commercial data (iRhythm's Zio patch) from June 2011 to April 2022 were analyzed. Inclusion criteria were age >18 years, PVC burden ≥5%, and wear period ≥13 days. PVC burden cutoffs were determined based on AHA/ACC/HRS guidelines for very frequent PVCs (10,000-20,000 over 24 hours). Patients were categorized by PVC densities : Low (<10%), Moderate (10% to <20%) and High (≥20%). Mean measured error was assessed at baseline and daily until wear period's end for overall PVC Burden and different PVC densities.
RESULTS: Analysis of 106,705 patch monitors revealed a study population with mean age of 70.6±14.6 years; 33.6% female. PVC burden was higher in males and those >65 years of age. PVC burden mean error decreased from 2.9% at 24 hours to 1.3% at 7 days, and 0.7% at 10 days. Number of VT episodes per patient increased with increasing PVC burden (p<0.0001).
CONCLUSION: Extending ambulatory monitoring beyond 24 hours to 7 days or more, improves accuracy of assessing PVC burden. VT frequency and duration vary based on initial PVC density, highlighting the need for prolonged cardiac monitoring.
OBJECTIVE: This study aimed to ascertain the optimal duration of ECG monitoring to characterize PVC burden and understand clinical characteristics associated with frequent PVCs and NSVT in a large US cohort.
METHODS: Commercial data (iRhythm's Zio patch) from June 2011 to April 2022 were analyzed. Inclusion criteria were age >18 years, PVC burden ≥5%, and wear period ≥13 days. PVC burden cutoffs were determined based on AHA/ACC/HRS guidelines for very frequent PVCs (10,000-20,000 over 24 hours). Patients were categorized by PVC densities : Low (<10%), Moderate (10% to <20%) and High (≥20%). Mean measured error was assessed at baseline and daily until wear period's end for overall PVC Burden and different PVC densities.
RESULTS: Analysis of 106,705 patch monitors revealed a study population with mean age of 70.6±14.6 years; 33.6% female. PVC burden was higher in males and those >65 years of age. PVC burden mean error decreased from 2.9% at 24 hours to 1.3% at 7 days, and 0.7% at 10 days. Number of VT episodes per patient increased with increasing PVC burden (p<0.0001).
CONCLUSION: Extending ambulatory monitoring beyond 24 hours to 7 days or more, improves accuracy of assessing PVC burden. VT frequency and duration vary based on initial PVC density, highlighting the need for prolonged cardiac monitoring.
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