OBJECTIVE: To compare external and internal jugular venous pressures to monitor pulmonary artery pressure during the Fontan procedure. BACKGROUND: During the Fontan procedure, the internal jugular vein is used to assess pulmonary artery pressure. The risk of venous thrombosis in the low-pressure Fontan circuit may compromise the long-term success of cavopulmonary anastomosis. This study compared external and internal jugular venous pressures, femoral venous pressure, and actual pulmonary artery pressure during the Fontan procedure. METHOD: 32 children undergoing a single-stage Fontan on cardiopulmonary bypass were monitored for mean external and internal jugular venous pressures and femoral venous pressure pre- and post-cardiopulmonary bypass. Pulmonary artery pressure was also recorded directly after cardiopulmonary bypass. The pressure data were analyzed using analysis of variance, and the coefficient of correlation was found. RESULTS: The differences between external jugular, internal jugular, and femoral venous pressure pre-cardiopulmonary bypass, and between the 3 venous pressures and the pulmonary artery pressure after cardiopulmonary bypass were found to be non-significant. The coefficient of correlation of external jugular venous pressure and internal jugular venous pressure was 0.8163 (p < 0.0001) pre-cardiopulmonary bypass, and 0.6465 (p = 0.0001) post-cardiopulmonary bypass. CONCLUSION: The external jugular venous pressure correlates well with both internal jugular venous pressure and femoral venous pressure as a marker of pulmonary artery pressure in children undergoing the Fontan procedure. The use of external jugular venous pressure may also preclude the risk of thrombosis.
OBJECTIVE: To compare external and internal jugular venous pressures to monitor pulmonary artery pressure during the Fontan procedure. BACKGROUND: During the Fontan procedure, the internal jugular vein is used to assess pulmonary artery pressure. The risk of venous thrombosis in the low-pressure Fontan circuit may compromise the long-term success of cavopulmonary anastomosis. This study compared external and internal jugular venous pressures, femoral venous pressure, and actual pulmonary artery pressure during the Fontan procedure. METHOD: 32 children undergoing a single-stage Fontan on cardiopulmonary bypass were monitored for mean external and internal jugular venous pressures and femoral venous pressure pre- and post-cardiopulmonary bypass. Pulmonary artery pressure was also recorded directly after cardiopulmonary bypass. The pressure data were analyzed using analysis of variance, and the coefficient of correlation was found. RESULTS: The differences between external jugular, internal jugular, and femoral venous pressure pre-cardiopulmonary bypass, and between the 3 venous pressures and the pulmonary artery pressure after cardiopulmonary bypass were found to be non-significant. The coefficient of correlation of external jugular venous pressure and internal jugular venous pressure was 0.8163 (p < 0.0001) pre-cardiopulmonary bypass, and 0.6465 (p = 0.0001) post-cardiopulmonary bypass. CONCLUSION: The external jugular venous pressure correlates well with both internal jugular venous pressure and femoral venous pressure as a marker of pulmonary artery pressure in children undergoing the Fontan procedure. The use of external jugular venous pressure may also preclude the risk of thrombosis.