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https://doi.org/10.26800/LV-142-5-6-27

Haemodynamic monitoring: from invasive monitoring to personalised medicine

Stjepan Barišin ; Klinika za anesteziologiju, reanimatologiju i intenzivnu medicinu Stomatološkog fakulteta u Zagrebu, Klinička bolnica Dubrava, Referentni centar Ministarstva zdravstva za hemodinamski nadzor u intenzivnom liječenju kirurških bolesnika
Helena Ostović ; Klinika za anesteziologiju, reanimatologiju i intenzivnu medicinu Stomatološkog fakulteta u Zagrebu, Klinička bolnica Dubrava, Referentni centar Ministarstva zdravstva za hemodinamski nadzor u intenzivnom liječenju kirurških bolesnika
Ivan Gospić ; Klinika za anesteziologiju, reanimatologiju i intenzivnu medicinu Stomatološkog fakulteta u Zagrebu, Klinička bolnica Dubrava, Referentni centar Ministarstva zdravstva za hemodinamski nadzor u intenzivnom liječenju kirurških bolesnika
Viktor Đuzel ; Sveučilišne bolnice Barking, Havering i Redbridge, NHS Trust, London, Ujedinjeno Kraljevstvo
Ana Barišin ; Poliklinika Medikol, Zagreb
Igor Grubješić ; Klinika za anesteziologiju, intenzivnu medicinu i liječenje boli, Medicinski fakultet Sveučilišta u Rijeci, KBC Rijeka, Rijeka
Miroslav Župčić ; Klinika za anesteziologiju, intenzivnu medicinu i liječenje boli, Medicinski fakultet Sveučilišta u Rijeci, KBC Rijeka, Rijeka

Puni tekst: hrvatski, pdf (395 KB) str. 148-154 preuzimanja: 36* citiraj
APA 6th Edition
Barišin, S., Ostović, H., Gospić, I., Đuzel, V., Barišin, A., Grubješić, I. i Župčić, M. (2020). Hemodinamski monitoring: od invazivnog nadzora do personaliziranog pristupa. Liječnički vjesnik, 142 (5-6), 148-154. https://doi.org/10.26800/LV-142-5-6-27
MLA 8th Edition
Barišin, Stjepan, et al. "Hemodinamski monitoring: od invazivnog nadzora do personaliziranog pristupa." Liječnički vjesnik, vol. 142, br. 5-6, 2020, str. 148-154. https://doi.org/10.26800/LV-142-5-6-27. Citirano 13.08.2020.
Chicago 17th Edition
Barišin, Stjepan, Helena Ostović, Ivan Gospić, Viktor Đuzel, Ana Barišin, Igor Grubješić i Miroslav Župčić. "Hemodinamski monitoring: od invazivnog nadzora do personaliziranog pristupa." Liječnički vjesnik 142, br. 5-6 (2020): 148-154. https://doi.org/10.26800/LV-142-5-6-27
Harvard
Barišin, S., et al. (2020). 'Hemodinamski monitoring: od invazivnog nadzora do personaliziranog pristupa', Liječnički vjesnik, 142(5-6), str. 148-154. https://doi.org/10.26800/LV-142-5-6-27
Vancouver
Barišin S, Ostović H, Gospić I, Đuzel V, Barišin A, Grubješić I i sur. Hemodinamski monitoring: od invazivnog nadzora do personaliziranog pristupa. Liječnički vjesnik [Internet]. 2020 [pristupljeno 13.08.2020.];142(5-6):148-154. https://doi.org/10.26800/LV-142-5-6-27
IEEE
S. Barišin, et al., "Hemodinamski monitoring: od invazivnog nadzora do personaliziranog pristupa", Liječnički vjesnik, vol.142, br. 5-6, str. 148-154, 2020. [Online]. https://doi.org/10.26800/LV-142-5-6-27

Sažetak
Continuous monitoring of cardiac output (CO) and maintenance of normovolaemia are the primary aims of haemodynamic (HD) optimization in every critical care patient. Previously, invasive monitoring and intermittent thermodilution with pulmonary artery catheterization were the main methods for determining CO.
However, the methods more commonly used today are either minimally invasive or non-invasive. Minimally invasive methods of transpulmonary thermodilution (TD) in CO monitoring analyze the pulse pressure curve and are divided into older, calibrated and newer, non-calibrated systems. Dynamic parameters such as stroke volume variation (SVV) and pulse pressure variation (PPV) which can be continuously monitored, are far more precise in determining the optimal goal-directed volume therapy (GDVT) in comparison to the traditional static parameters
such as CVP and PCWP. Modern non-invasive continuous methods, that are still not fully validated in clinical circumstances are: applanation tonometry, plethysmography, partial CO2 rebreathing technique, and
pulse wave transit time measurements of CO. Thoracic electrical bioimpedance and bioreactance uses a weak alternating current, and through the phasic variations in the charge of the current during a systolic cycle, enables continuous analysis of the stroke volume (SV) curve. It is known that volume administration will not increase SV in roughly 50% of critically ill patients (fluid non-responders), therefore, prior to volume administration, through continuous SV/CO monitoring, it is important to assess whether a patient will have an adequate haemodynamic response to fluid administration (responders). There are some methods available for predicting the response to fluid administration, like measurement of variation in the diameter of the superior and inferior vena cava, the end-expiratory occlusion test, respiratory systolic variation test, SVV and PPV. The passive leg raising
(PLR) test has the highest predictive score in dynamic assessment of the volume status in a haemodynamically unstable patient.

Ključne riječi
HEMODYNAMIC MONITORING – methods; HEMODYNAMICS – physiology; CARDIAC OUTPUT – physiology; STROKE VOLUME – physiology; MONITORING, INTRAOPERATIVE – methods; THERMODILUTION – methods; CRITICAL ILLNESS – therapy; BLOOD VOLUME; FLUID THERAPY; ARTERIAL PRESSSURE

Hrčak ID: 240264

URI
https://hrcak.srce.hr/240264

[hrvatski]

Posjeta: 79 *