Anders H Christensen1,2,3, Sissel Nygaard1,2, Katrine Rolid2,4,5, Kari Nytrøen2,4, Lars Gullestad2,4,5, Arnt Fiane2,6, Erik Thaulow1,2, Gaute Døhlen1, J Philip Saul7, Vegard B B Wyller2,8. 1. Dept. of Pediatric Cardiology, Oslo University Hospital, Rikshospitalet, Oslo, Norway. 2. Faculty of Medicine, University of Oslo, Oslo, Norway. 3. Dept. of Pediatric Research, Oslo University Hospital, Rikshospitalet, Oslo, Norway. 4. Dept. of Cardiology, Oslo University Hospital, Rikshospitalet, Oslo, Norway. 5. KG Jebsen Cardiac Research Center and Center for Heart Failure Research, University of Oslo, Norway and Center for Heart Failure Research, Oslo University Hospital, Norway. 6. Dept. of Cardiothoracic Surgery, Oslo University Hospital, Rikshospitalet, Oslo, Norway. 7. Dept. of Pediatrics, West Virginia University, Morgantown, USA. 8. Dept. of Pediatrics, Akershus University Hospital, Norway.
Abstract
BACKGROUND: Heart transplantation (HTx) surgically transects all connections to the heart, including the autonomic nerves. We prospectively examined signs, timing and consequences of early sympathetic and parasympathetic sinoatrial reinnervation, as well as explored indirect evidence of afferent cardiopulmonary reinnervation. METHODS: Fifty HTx recipients were assessed at 2.5, 6 and 12 months after HTx. For comparison, 50 healthy controls were examined once. Continuous, noninvasive recordings of hemodynamic variables and heart rate variability indices were carried out at supine rest, 0.2 Hz controlled breathing, 60 degrees head-up-tilt, during the Valsalva maneuver and during handgrip isometric exercise. RESULTS: In HTx recipients, supine low-frequency heart rate variability gradually increased; supine high-frequency variability did not change; heart rate variability indices during controlled breathing remained unaltered; heart rate responses during tilt and isometric exercise gradually increased; the tachycardia response during Valsalva maneuver increased while the bradycardia response remained unchanged; and indices of baroreflex sensitivity improved. Responses remained low compared to healthy controls. A negative correlation between indices of preload and heart rate response during head-up tilt emerged at 12 months. CONCLUSIONS: Results suggest that sympathetic reinnervation of the sinoatrial node starts within 6 months after HTx and strengthens during the first year. No evidence of early parasympathetic reinnervation was found. Indirect signs of afferent reinnervation of cardiopulmonary low-pressure baroreceptors emerged at 12 months. Better sympathetic sinoatrial control improved heart rate responsiveness to orthostatic challenge and isometric exercise, as well as heart rate buffering of blood pressure fluctuations.
BACKGROUND: Heart transplantation (HTx) surgically transects all connections to the heart, including the autonomic nerves. We prospectively examined signs, timing and consequences of early sympathetic and parasympathetic sinoatrial reinnervation, as well as explored indirect evidence of afferent cardiopulmonary reinnervation. METHODS: Fifty HTx recipients were assessed at 2.5, 6 and 12 months after HTx. For comparison, 50 healthy controls were examined once. Continuous, noninvasive recordings of hemodynamic variables and heart rate variability indices were carried out at supine rest, 0.2 Hz controlled breathing, 60 degrees head-up-tilt, during the Valsalva maneuver and during handgrip isometric exercise. RESULTS: In HTx recipients, supine low-frequency heart rate variability gradually increased; supine high-frequency variability did not change; heart rate variability indices during controlled breathing remained unaltered; heart rate responses during tilt and isometric exercise gradually increased; the tachycardia response during Valsalva maneuver increased while the bradycardia response remained unchanged; and indices of baroreflex sensitivity improved. Responses remained low compared to healthy controls. A negative correlation between indices of preload and heart rate response during head-up tilt emerged at 12 months. CONCLUSIONS: Results suggest that sympathetic reinnervation of the sinoatrial node starts within 6 months after HTx and strengthens during the first year. No evidence of early parasympathetic reinnervation was found. Indirect signs of afferent reinnervation of cardiopulmonary low-pressure baroreceptors emerged at 12 months. Better sympathetic sinoatrial control improved heart rate responsiveness to orthostatic challenge and isometric exercise, as well as heart rate buffering of blood pressure fluctuations.