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Ultra long term outcomes in adult survivors of tetralogy of Fallot and the effect of pulmonary valve replacement Dobson R1,2, Danton M2, Walker N2, Tzemos,

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Presentation on theme: "Ultra long term outcomes in adult survivors of tetralogy of Fallot and the effect of pulmonary valve replacement Dobson R1,2, Danton M2, Walker N2, Tzemos,"— Presentation transcript:

1 Ultra long term outcomes in adult survivors of tetralogy of Fallot and the effect of pulmonary valve replacement Dobson R1,2, Danton M2, Walker N2, Tzemos, N1,Walker H2 1Institute of Cardiovascular and Medical Sciences, University of Glasgow 2Scottish Adult Congenital Cardiac Service, Golden Jubilee National Hospital

2 Part 1 Introduction

3 The problem Survival to adulthood of infants with tetralogy of Fallot (ToF) now exceeds 90% in modern cohorts1,2 Form a significant proportion of the workload of adult CHD services The ability of post-ToF repair interventions to modify the long term prognosis for these patients has not been fully defined 1Ide et al 2009, 2Park et al 2010

4 Objective To define the long term outcomes of adult survivors of ToF with respect to Survival, functional capacity and adverse events The effect of pulmonary valve replacement on clinical and functional outcome

5 Part 2 METHODOLOGY

6 Data collection National centralized model for ACHD care in Scotland
Computerised database Electronic records were where possible corroborated with op notes and medical certificate of cause of death

7 Methods Overall survival analysis; KM curve compared to age and gender matched controls Morbidity outcomes Ventricular arrhythmia Atrial arrhythmia Device (pacemaker or ICD) Reintervention and PVR Current functional status (clinical / CPET / CMR data)

8 Part 3 RESULTS

9 Baseline characteristics
376 patients (male:female 59:41) post ToF repair who survived to at least age 16 Mean age at repair 5.2 years (SD 7.3); median 3 years Mean follow-up from repair 28.3 years (SD 9.4)

10 Era of repair

11 Temporal trends in median age at repair*
*Excluded 1950s and 2000s as too few patients in each category

12 ToF subtypes and repair details
Variable % Subtype Classical ToF-PA, ToF absent pulmonary valve, ToF-AVSD Unknown 93.6 4.1 1.3 Palliative shunt 1 >1 65.4 29.0 5.6 Repair Infundibular resection Transannular patch VSD closure and pulmonary homograft 19.1 30.1 5.9 45.0

13 Overall survival lower than general population
Log rank test p <0.001 Tetralogy cohort Control group

14 Deaths 15 patients died at a mean age of 49 +/- SD 13.7 years
Cause of death Heart failure (5) Postoperative – PVR (3)* Sepsis (3) Sudden (2) Stroke (1) Malignancy (1) *From 166 PVR procedures

15 Multivariate analysis for death
Variable HR 95% CI P-value Older age at repair 1.11 1.04 – 1.19 0.003 Male gender 5.64 1.08 – 29.49 0.041 Nonclassical ToF 13.43 2.51 – 71.92 0.002 QRS duration* 1.07 1.02 – 1.11 *Univariate mode only

16 Quality of life NYHA class Median peak VO2 69.5% predicted
II: 5.3% III: 0.5% Median peak VO2 69.5% predicted Social deprivation score = 4.1 Scottish population mean 4; p=0.51 Total Fertility Rate 0.18 (1.61 for national data 2013)

17 MRI n=181 RV volumes RV ejection fraction

18 CPET n=169 % predicted VO2max VE/VCO2 slope

19 RVEF versus peak VO2 Spearman’s rho 0.226 p = 0.013

20 Reintervention Procedure N PVR 166 Surgical 147 Percutaneous 19
2 3 110 14 Percutaneous 19 17 Early revision 24 AVR/root replacement Tricuspid valve 8 Balloon pulmonary angioplasties

21 Historical trends in repeat intervention

22 Freedom from repeat intervention
Total reintervention PVR

23 Multivariate analysis for reintervention
Variable HR 95% CI P-value Any reintervention Transannular patch 1.72 1.23 – 2.39 0.001 Nonclassical ToF 2.95 1.57 – 5.54 Older age at repair 0.96 0.92 – 1.00 0.008 PVR only 1.79 1.26 – 2.56 4.22 2.16 – 8.25 <0.001 0.92 0.87 – 0.96

24 PVR and survival Log rank test p = 0.539 PVR group Severe PR group

25 The effect of PVR on RV size and function
Indexed RVEDV ml/m2 RV ejection fraction % P < 0.001 P = 0.154 N=17

26 The effect of PVR on exercise performance
Peak VO2 as % predicted VE/VCO2 slope P = 0.623 P = 0.050 N=16

27 Prevalence of arrhythmia
Atrial arrhythmia in 13.3%, ventricular arrhythmia in 3.4% Therapy 12.8% on regular antiarrhythmics 5.1% ICD 2.1% had radiofrequency ablation

28 Freedom from arrhythmia

29 Multivariate analysis for arrhythmia
Atrial arrhythmia Older age at repair conferred hazard ratio of 1.10 (95% CI 1.07 – 1.13) p = <0.001 No significant variables identified for ventricular arrhythmia

30 Device insertion (pacemaker or ICD)
9% of patients overall Device type Pacemaker in 4% (VVI 0.8% and DDD in 3.2%) ICD in 4.8% CRT-D in 0.3%

31 Freedom from device insertion

32 Part 4 SUMMARY

33 Mortality Long term (>30 years) survival remains excellent
For patients who survive to age >16 Heart failure is the main cause of death Older age at repair, non-classical forms of ToF, and male gender confer increased risk

34 Morbidity Arrhythmia is common
High rates of repeat intervention, mainly PVR, performed with low mortality PVR reduces RV volumes but does not improve exercise capacity

35 Limitations and future directions
Single center retrospective cohort Functional data is cross-sectional for a heterogenous group Historical loss of follow-up – patients geographically remote from surgical center may still be under the radar Creation of an international registry will enable far more powerful and robust analysis of prognosis and intervention

36 Part 4 QUESTIONS


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