LINET in cooperation with TIMPEL is proud to bring you records of an interesting webinars with respected doctors - Marcelo Amato, Michal Otahal, Mikulas Mlcek.
Amato Marcelo, Prof., M.D., Ph.D., initiated his medical studies in 1980 at the Faculdade de Medicina da Universidade de São Paulo, with a specialization in Pneumology and Intensive Care Medicine at the Pulmonary Division of the Hospital das Clínicas. In 1996 he successfully finished his doctoral post-graduation. In 1996 and 1997 he finished Postdoctoral training in Minneapolis, working at the Lab. of Prof. John Marini and in Rotterdam, with Prof. Lachmann. In 2008 he obtained his professorship at the University of São Paulo, Pulmonary Department. His main areas of research are Protective Mechanical Ventilation, Electrical Impedance Tomography, Technological Solutions for Mechanical Ventilation.
Mlcek Mikulas is the Deputy Director of the Experimental Physiology Lab and the Head of the Medical Simulation Center for the First Faculty of Medicine at Charles University in Prague. He graduated from Charles University where he obtained a Ph.D. from the Department of Physiology. His thesis topic was based on computational modeling of the cardiac electrical field and excitation-contraction coupling. Since then, Dr. Mlcek's scientific interest has moved to experimental physiology focusing on interactions of the cardiopulmonary system. The major research models that he has been using over the past 10 years include acute respiratory distress (ARDS), extracorporeal membranous oxygenation (ECMO) and cardiopulmonary resuscitation. He has published over 35 papers based on his research in scientific journals. As an Assistant Professor, Dr. Mlcek lectures and runs seminars and labs in Human Physiology. In addition, he helps design and run specialized post-graduate courses aimed at ventilation therapy and trauma management in the Medical Simulation Centre.
Otahal Michal is head of the Intensive Care Unit in the Department of Anaesthesia and Intensive Care for Charles University and General University Hospital. In 1998 he graduated from the Third Faculty of Medicine at Charles University in Prague. He then started practicing medicine in the Department of Anaesthesiology and Intensive Care Medicine for the Faculty Hospital Královské Vinohrady (FNKV) and moved to his current position in 2007. Michal is also engaged in research concerning critical respiratory failure therapy and positioning.
Electrical Impedance Tomography (EIT) makes use of high frequency, low intensity electric signals, to provide live images of the breathing lung showing pulmonary performance in real time.
Download: Brochure Enlight 2100
Discover LINET Intensive Care solution and meet our team at virtual room 2 where we will speak about Bed-positioning to Enhance Lung Protection.
The Multicare CCU hospital bed is an ideal solution for the demanding critical care environment. The healthcare bed helps to maintain vital signs and ensures that the patient is treated safely and effortlessly.
Symbioso as Integrated Low Air Loss system is designed to work in collaboration with the Multicare bed. Symbioso has double therapy modes, MicroClimate Management (MCM) and Constant Low Pressure (CLP). This system is a perfect solution for ICU units because of surface benefits and integration with one of the most advanced ICU beds on the market.
New smart technology for the prevention of pressure ulcers. The mattress is equipped with a whole range of sophisticated functions which enhance the therapeutic and preventive effect of the optimised pressure.The system detects when the patient has entered the bed. OptiCare is fully compatible with ICU beds – Multicare and Eleganza 5.
The Virtuoso Pro mattress system has been designed to meet the most demanding nursing needs when caring for patients with a risk of pressure ulcers.
Eleganza 4 is an electrically positionable bed – designed especially for Critical Care settings. The bed platform gives you flexible and customised solutions to keep all care activities and all special patient needs together with an open architecture of different technical features. You can choose the right bed for each care and medical application, patient conditions and budget.