Jarosław Bis scite author profile

Background: Systolic dyssynchrony is present in a considerable number of patients with heart failure (HF) undergoing coronary artery bypass grafting (CABG). Surgical revascularization offers an optimal setting for totally epicardial cardiac resynchronization therapy (CRT) system implantation. Aim: To assess the efficacy of totally epicardial CRT implantation during CABG, in patients with HF. Methods: Twenty three patients with HF and dyssynchrony underwent totally epicardial CRT system implantation during CABG. This randomised, single-blind, cross-over study compared clinical and echocardiographic parameters during two periods: 3 months of active CRT (CRT+) and 3 months of inactive CRT (CRT−) pacing. Results: Twenty two patients underwent randomisation and completed both study periods. In the CRT+ group more patients improved by two NYHA classes (p = 0.028), had a longer 6-minute walk test distance (p = 0.047) and better quality of life (p = 0.003) compared with the CRT− group. Echocardiography revealed an improved LV ejection fraction (p b 0.001), smaller LV end-systolic volume (p = 0.04), reduced mitral regurgitation (p = 0.026) and improved LV synchrony in the CRT+ group compared with the CRT− group. Conclusion: CRT delivered by a totally epicardial system implanted during CABG is associated with additional improvement of clinical and echocardiographic parameters in patients with HF and systolic dyssynchrony.

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Surgical correction of aortic regurgitation using a HAART 300™ rigid aortic ring: A novel method to standardize aortic valve repair

Gocoł

Jasiński

Hudziak

et al. 2020

Cardiol J.

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The Role of Deep Hypothermia in Cardiac Surgery

Gocoł

Hudziak

Bis

et al. 2021

IJERPH

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Hypothermia is defined as a decrease in body core temperature to below 35 °C. In cardiac surgery, four stages of hypothermia are distinguished: mild, moderate, deep, and profound. The organ protection offered by deep hypothermia (DH) enables safe circulatory arrest as a prerequisite to carrying out cardiac surgical intervention. In adult cardiac surgery, DH is mainly used in aortic arch surgery, surgical treatment of pulmonary embolism, and acute type-A aortic dissection interventions. In surgery treating congenital defects, DH is used to assist aortic arch reconstructions, hypoplastic left heart syndrome interventions, and for multi-stage treatment of infants with a single heart ventricle during the neonatal period. However, it should be noted that a safe duration of circulatory arrest in DH for the central nervous system is 30 to 40 min at most and should not be exceeded to prevent severe neurological adverse events. Personalized therapy for the patient and adequate blood temperature monitoring, glycemia, hematocrit, pH, and cerebral oxygenation is a prerequisite and indispensable part of DH.

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Jarosław Bis

Permanent pacemaker implantation after cardiac surgery: Optimization of the decision making process

Coronary artery bypass grafting with concomitant cardiac resynchronisation therapy in patients with ischaemic heart failure and left ventricular dyssynchrony☆

Totally epicardial cardiac resynchronization therapy system implantation in patients with heart failure undergoing CABG

Surgical correction of aortic regurgitation using a HAART 300™ rigid aortic ring: A novel method to standardize aortic valve repair

The Role of Deep Hypothermia in Cardiac Surgery

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