Elli Tutungi scite author profile

Breakdown of short-term fractal-like behaviour of HR indicates an increased risk for adverse cardiovascular events and mortality, but the pathophysiological background for altered fractal HR dynamics is not known. Our aim was to study the effects of pharmacological modulation of autonomic function on fractal correlation properties of heart rate (HR) variability in healthy subjects. Short-term fractal scaling exponent (alpha1) along with spectral components of HR variability were analysed during the following pharmacological interventions in healthy subjects: (i) noradrenaline (NE) infusion (n=22), (ii) NE infusion after phentolamine (PHE) (n=8), (iii) combined NE + adrenaline (EPI) infusion (n=12), (iv) vagal blockade with high dose of atropine (n=10), (v) and vagal activation by low dose of atropine (n=10). Then alpha1 decreased progressively during the incremental doses of NE (from 0.85 +/- 0.250 to 0.55 +/- 0.23, P<0.0001). NE also decreased the average HR (P<0.001) and increased the high frequency spectral power (P<0.001). Vagal blockade with atropine increased the alpha1 value (from 0.82 +/- 0.22 to 1.24 +/- 0.41, P<0.05). Combined NE + EPI infusion and vagal activation with a low dose atropine did not result in any changes in alpha1, and alpha-adrenergic blockade by PHE did not completely reverse the effects of NE on alpha1. Increased levels of circulating NE result in reduction of short-term correlation properties of HR dynamics. The results suggest that coactivation of cardiac vagal outflow at the time of high levels of a circulating sympathetic transmitter explains the breakdown of fractal-like behaviour of human HR dynamics.

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Parasternal Intercostal Block With Ropivacaine for Pain Management After Cardiac Surgery: A Double-Blind, Randomized, Controlled Trial

Barr

Tutungi

Almeida

2007

Journal of Cardiothoracic and Vascular Anesthesia

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COVID ‐19 safety: aerosol‐generating procedures and cardiothoracic surgery and anaesthesia — Australian and New Zealand consensus statement

Irons

Pavey

Bennetts

et al. 2020

Medical Journal of Australia

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Introduction Coronavirus disease 2019 ( COVID ‐19) is a contagious disease that is caused by the severe acute respiratory syndrome coronavirus 2 ( SARS ‐CoV‐2). Health care workers are at risk of infection from aerosolisation of respiratory secretions, droplet and contact spread. There are a number of procedures that represent a high risk of aerosol generation during cardiothoracic surgery. It is important that adequate training, equipment and procedures are in place to reduce that risk. Recommendations We provide a number of key recommendations, which reduce the risk of aerosol generation during cardiothoracic surgery and help protect patients and staff. These include general measures such as patient risk stratification, appropriate use of personal protective equipment, consideration to delay surgery in positive patients, and careful attention to theatre planning and preparation. There are also recommended procedural interventions during airway management, transoesophageal echocardiography, cardiopulmonary bypass, chest drain management and specific cardiothoracic surgical procedures. Controversies exist regarding the management of low risk patients undergoing procedures at high risk of aerosol generation, and recommendations for these patients will change depending on the regional prevalence, risk of community transmission and the potential for asymptomatic patients attending for these procedures. Changes in management as a result of this statement This statement reflects changes in management based on expert opinion, national guidelines and available evidence. Our knowledge with regard to COVID ‐19 continues to evolve and with this, guidance may change and develop. Our colleagues are urged to follow national guidelines and institutional recommendations regarding best practices to protect their patients and themselves. Endorsed by Australian and New Zealand Society of Cardiac and Thoracic Surgeons and the Anaesthetic Continuing Education Cardiac Thoracic Vascular and Perfusion Special Interest Group.

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Circulating norepinephrine and cerebrovascular control in conscious humans

Kimmerly

Tutungi

Wilson

et al. 2003

Clin Physio Funct Imaging

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Elli Tutungi

Effects of pharmacological adrenergic and vagal modulation on fractal heart rate dynamics

Parasternal Intercostal Block With Ropivacaine for Pain Management After Cardiac Surgery: A Double-Blind, Randomized, Controlled Trial

COVID ‐19 safety: aerosol‐generating procedures and cardiothoracic surgery and anaesthesia — Australian and New Zealand consensus statement

Circulating norepinephrine and cerebrovascular control in conscious humans

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