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NEUROSONOLOGY AND CEREBRAL HEMODYNAMICS
Official Journal of the Bulgarian Society of Neurosonology and Cerebral Hemodynamics
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Search Results for “search_doc_txt.php” – NEUROSONOLOGY AND CEREBRAL HEMODYNAMICS
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cardiopulmonary
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1.
NEUROSONOLOGY AND CEREBRAL HEMODYNAMICS, vol. 2, 2012, No. 2
,
,
,
2010 International Consensus on
Cardiopulmonary
Resuscitation and Emergency Cardiovascular Care Science with Treatment Recommendations.
ttiger B, Drajer S, Lim S, Nolan J.
2010 International Consensus on Cardiopulmonary Resuscitation and Emergency Cardiovascular Care Science with Treatment Recommendations.
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2.
NEUROSONOLOGY AND CEREBRAL HEMODYNAMICS, vol. 9, 2013, No. 2
,
,
,
To a lesser degree, TCD has also been used to evaluate cerebral autoregulatory capacity, monitor cerebral circulation during
cardiopulmonary
bypass and carotid endarterectomy, to diagnose brain death and for monitoring of cerebral hemodynamics in neurotrauma.
It has been frequently employed for the clinical evaluation of cerebral vasospasm following subarachnoid hemorrhage (SAH).
To a lesser degree, TCD has also been used to evaluate cerebral autoregulatory capacity, monitor cerebral circulation during cardiopulmonary bypass and carotid endarterectomy, to diagnose brain death and for monitoring of cerebral hemodynamics in neurotrauma.
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We monitored maximum blood flow velocities of bilateral middle cerebral arteries using the transcranial doppler (Multi-Dop T, Oxford Medical) at four periods: after induction of anestesia, during
cardiopulmonary
bypass, during antegrade cerebral perfusion and after termination of
cardiopulmonary
bypass.
Ten patients (mean age of 52±8,3 years) were monitored.
We monitored maximum blood flow velocities of bilateral middle cerebral arteries using the transcranial doppler (Multi-Dop T, Oxford Medical) at four periods: after induction of anestesia, during cardiopulmonary bypass, during antegrade cerebral perfusion and after termination of cardiopulmonary bypass.
Also we used trascranial doppler monitoring with embol detection.
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Maximum blood flow velocity decreased symmetrical in all patients during
cardiopulmonary
bypass and antegrade cerebral perfusion of hypotermic circulation arrest.
Maximum blood flow velocity decreased symmetrical in all patients during cardiopulmonary bypass and antegrade cerebral perfusion of hypotermic circulation arrest.
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Vmax composed 82±13,7 cm/s after induction of anestesia, during
cardiopulmonary
bypass – 33±5,8 cm/s, during antegrade cerebral perfusion – 46±11,6 cm/s, after termination of
cardiopulmonary
bypass – 80±10,9 cm/s.
Vmax composed 82±13,7 cm/s after induction of anestesia, during cardiopulmonary bypass – 33±5,8 cm/s, during antegrade cerebral perfusion – 46±11,6 cm/s, after termination of cardiopulmonary bypass – 80±10,9 cm/s.
During cardiopulmonary bypass maximum blood velocity decreased significantly. No neurologic deficit was observed in any patient after operation.
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During
cardiopulmonary
bypass maximum blood velocity decreased significantly.
Vmax composed 82±13,7 cm/s after induction of anestesia, during cardiopulmonary bypass – 33±5,8 cm/s, during antegrade cerebral perfusion – 46±11,6 cm/s, after termination of cardiopulmonary bypass – 80±10,9 cm/s.
During cardiopulmonary bypass maximum blood velocity decreased significantly.
No neurologic deficit was observed in any patient after operation.
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3.
NEUROSONOLOGY AND CEREBRAL HEMODYNAMICS, vol. 10, 2014, No. 1
,
,
,
Cardiopulmonary
Resuscitation
Cardiopulmonary Resuscitation
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Cardiopulmonary
Resuscitation after Cardiac Arrest -
Cardiopulmonary Resuscitation after Cardiac Arrest -
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cardiopulmonary
resuscitation, cardiac arrest, predictors, survival
cardiopulmonary resuscitation, cardiac arrest, predictors, survival
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The present review article provides contemporary perspectives on the sudden cardiac arrest and presents the modern concepts and approaches for successful outcome after
cardiopulmonary
resuscitation.
The present review article provides contemporary perspectives on the sudden cardiac arrest and presents the modern concepts and approaches for successful outcome after cardiopulmonary resuscitation.
lt is focused on prognostic factors of survival and determination of an adequate multidisciplinary therapeutic approach.
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The wide medical community started recognizing and promoting the technique combining the artificial respiration and chest compressions being a key part of
cardiopulmonary
resuscitation (CPR) after cardiac arrest in the middle of 20th century.
The wide medical community started recognizing and promoting the technique combining the artificial respiration and chest compressions being a key part of cardiopulmonary resuscitation (CPR) after cardiac arrest in the middle of 20th century.
The modern treatment related to development of CPR technique is a result of increasing the knowledge about the cardiac arrest (CА). Different terms are used in the modern medicine which comprehension is enriched constantly and their meaning should be known for the clinical practice.
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Cardiopulmonary
Resuscitation after Cardiac Arres
Cardiopulmonary Resuscitation after Cardiac Arres
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Cardiopulmonary
Resuscitation
Cardiopulmonary Resuscitation
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Cardiopulmonary
Resuscitation after Cardiac Arres
Cardiopulmonary Resuscitation after Cardiac Arres
read the entire text >>
Cardiopulmonary
Resuscitation after Cardiac Arres
Cardiopulmonary Resuscitation after Cardiac Arres
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Cardiopulmonary
Resuscitation after Cardiac Arres
Cardiopulmonary Resuscitation after Cardiac Arres
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Survival after
cardiopulmonary
resuscitation in the hospital.
Bedell S, Delbanco T, Cook E, Epstein F.
Survival after cardiopulmonary resuscitation in the hospital.
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Prearrest predictors of survival following in-hospital
cardiopulmonary
resuscitation: a meta-analysis.
Ebell M.
Prearrest predictors of survival following in-hospital cardiopulmonary resuscitation: a meta-analysis.
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Pre-arrest morbidity and other correlates of survival after in-hospital
cardiopulmonary
arrest.
George J, Folk B, Crecelius P, Campbell W.
Pre-arrest morbidity and other correlates of survival after in-hospital cardiopulmonary arrest.
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Validation of Factors Affecting the Outcome of
Cardiopulmonary
Arrest in a Large, Urban, Academic Medical Center.
Koldobskiy D, Groves S, Scharf S, Cowan M.
Validation of Factors Affecting the Outcome of Cardiopulmonary Arrest in a Large, Urban, Academic Medical Center.
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For the National Registry of
Cardiopulmonary
Resuscitation lnvestigators.
Nadkarni V, Larkin G, Peberdy M, Carey S, Kaye W, Mancini M, Nichol G, Lane-Truitt T, Potts J, Ornato J, Berg R.
For the National Registry of Cardiopulmonary Resuscitation lnvestigators.
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Prediction of failure to survive following in-hospital
cardiopulmonary
resuscitation: comparison of two predictive instruments.
O'Keefe S, Ebell M.
Prediction of failure to survive following in-hospital cardiopulmonary resuscitation: comparison of two predictive instruments.
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Аge and other determinants of survival after in-hospital
cardiopulmonary
resuscitation.
O'Keefe S, Redahan C, Keane P, Daly K.
Аge and other determinants of survival after in-hospital cardiopulmonary resuscitation.
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Prognostic Factors of the Results of
Cardiopulmonary
Resuscitation in a Cardiology Hospital.
Timerman А, Sauaia N, Piegas L, Ramos R, Gun C, Santos E, Bianco А, Sousa J.
Prognostic Factors of the Results of Cardiopulmonary Resuscitation in a Cardiology Hospital.
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4.
NEUROSONOLOGY AND CEREBRAL HEMODYNAMICS, vol. 12, 2016, No. 2
,
,
,
To a lesser degree, TCD has also been used to evaluate cerebral autoregulatory capacity, monitor cerebral circulation during
cardiopulmonary
bypass and carotid endarterectomy, to diagnose brain death and for monitoring of cerebral hemodynamics in neurotrauma.
Transcranial Doppler (TCD) is a relatively new, non-invasive tool, allowing for bedside monitoring to determine flow velocities indicative of changes in vascular caliber. It has been frequently employed for the clinical evaluation of cerebral vasospasm following subarachnoid hemorrhage (SAH).
To a lesser degree, TCD has also been used to evaluate cerebral autoregulatory capacity, monitor cerebral circulation during cardiopulmonary bypass and carotid endarterectomy, to diagnose brain death and for monitoring of cerebral hemodynamics in neurotrauma.
TCD is a suitable bedside method for daily assessment of the changes of intracranial pressure (ICP) by continuous monitoring of the changes of blood flow velocities and pulsatility index (PI), reflecting decreases in cerebral perfusion pressure due to increases in ICP. Growing body of literature demonstrates the usefulness of transbulbar B-mode sonography of the optic nerve for detecting increased ICP in patients requiring neurocritical care. TCD findings compatible with the diagnosis of brain death include systolic spikes without diastolic flow or with diastolic reversed flow, and no demonstrable flow in a patient in who flow had been clearly documented on a previous examination. Assessment of cerebral autoregulation using TCD blood flow velocity has been previously validated to be predictive of outcome following traumatic brain injury. The commonly used bedside methods of determining the status of autoregulation include the transient hyperemic response test, the leg-cuff deflation test and reaction to spontaneous blood pressure fluctuations.
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5.
NEUROSONOLOGY AND CEREBRAL HEMODYNAMICS, vol. 14, 2018, No. 1
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,
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Early brain embolism is related to surgical manipulation on the heart and aorta and/or to the
cardiopulmonary
bypass.
Usually in 45% of all cases the stroke onset is on the first day after the surgery, also including intraoperative incidents. In the remaining 55%, stroke occurs two or more days later.
Early brain embolism is related to surgical manipulation on the heart and aorta and/or to the cardiopulmonary bypass.
Later stages of stroke are associated with the occurrence of atrial fibrillation, myocardial infarction, low output and hypercoagulability [7].
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