Atila Kara1, Sakir Akin, Can Ince. 1. aDepartment of Intensive Care, Erasmus MC University Hospital Rotterdam, The Netherlands bDepartment of Intensive Care, Hacettepe University Faculty of Medicine, Ankara, Turkey cDepartment of Cardiology, Erasmus Medical Center Rotterdam, Netherland.
Abstract
PURPOSE OF REVIEW: Cardiac surgery is associated with a wide range of microvascular derangements and with reduced tissue oxygenation. Although the macrohemodynamical targets during surgery may be achieved, the microcirculation may be damaged and remain dysfunctional. Direct observations of the microcirculation may enable more physiologically based approaches for diagnosis and treatment during cardiac surgery. RECENT FINDINGS: Microcirculation is the final destination of blood flow to the tissues for oxygen transport. Direct visualization of the microcirculation using hand-held microscopy can be considered the gold standard for tissue perfusion since the movement of single red blood cells can be observed and quantified. A new generation microcirculation-monitoring device is called CytoCam-Incident -Dark-Field imaging. This device has a high-resolution imaging sensor and shows approximately 30% more capillaries than the devices of the previous generations. On-pump and off-pump cardiac surgeries have induced different mechanism whose impact can be differentiated by observation of the sublingual microcirculation. Colloids may provide a better volume expansion and microcirculatory improvement than crystalloids although crytaloids may be more affective for hydration, and blood transfusions improves microcirculatory oxygenation by filling previously empty capillaries and reducing diffusion distances between oxygen carrying red blood cell and the parenchymal cells. SUMMARY: Direct visualization of the microcirculation using hand-held microscopy may provide the clinician the physiological feedback that is required for the early diagnosis and treatment of microcirculatory alterations during cardiac surgery. The coherence between the hemodynamic response of the macrocirculation and microcirculation during surgery seems to be essential.
PURPOSE OF REVIEW: Cardiac surgery is associated with a wide range of microvascular derangements and with reduced tissue oxygenation. Although the macrohemodynamical targets during surgery may be achieved, the microcirculation may be damaged and remain dysfunctional. Direct observations of the microcirculation may enable more physiologically based approaches for diagnosis and treatment during cardiac surgery. RECENT FINDINGS: Microcirculation is the final destination of blood flow to the tissues for oxygen transport. Direct visualization of the microcirculation using hand-held microscopy can be considered the gold standard for tissue perfusion since the movement of single red blood cells can be observed and quantified. A new generation microcirculation-monitoring device is called CytoCam-Incident -Dark-Field imaging. This device has a high-resolution imaging sensor and shows approximately 30% more capillaries than the devices of the previous generations. On-pump and off-pump cardiac surgeries have induced different mechanism whose impact can be differentiated by observation of the sublingual microcirculation. Colloids may provide a better volume expansion and microcirculatory improvement than crystalloids although crytaloids may be more affective for hydration, and blood transfusions improves microcirculatory oxygenation by filling previously empty capillaries and reducing diffusion distances between oxygen carrying red blood cell and the parenchymal cells. SUMMARY: Direct visualization of the microcirculation using hand-held microscopy may provide the clinician the physiological feedback that is required for the early diagnosis and treatment of microcirculatory alterations during cardiac surgery. The coherence between the hemodynamic response of the macrocirculation and microcirculation during surgery seems to be essential.
Authors: Yue Yu; Chi Peng; Zhiyuan Zhang; Kejia Shen; Yufeng Zhang; Jian Xiao; Wang Xi; Pei Wang; Jin Rao; Zhichao Jin; Zhinong Wang Journal: Front Cardiovasc Med Date: 2022-05-03
Authors: Atila Kara; Sakir Akin; Dinis Dos Reis Miranda; Ard Struijs; Kadir Caliskan; Robert J van Thiel; Eric A Dubois; Wouter de Wilde; Felix Zijlstra; Diederik Gommers; Can Ince Journal: Crit Care Date: 2016-10-25 Impact factor: 9.097
Authors: Zühre Uz; Can Ince; Philippe Guerci; Yasin Ince; Renata P Araujo; Bulent Ergin; Matthias P Hilty; Thomas M van Gulik; Bas A de Mol Journal: Perioper Med (Lond) Date: 2018-08-09
Authors: Sakir Akin; Dinis Dos Reis Miranda; Kadir Caliskan; Osama I Soliman; Goksel Guven; Ard Struijs; Robert J van Thiel; Lucia S Jewbali; Alexandre Lima; Diederik Gommers; Felix Zijlstra; Can Ince Journal: Crit Care Date: 2017-10-26 Impact factor: 9.097
Authors: Hanna Vlasov; Tatu Juvonen; Seppo Hiippala; Raili Suojaranta; Markku Peltonen; Alexey Schramko; Kaapo Arvonen; Ulla-Stina Salminen; Ilona Kleine Budde; Tiina Eränen; Maxim Mazanikov; Mihkel Meinberg; Tommi Vähäsilta; Erika Wilkman; Ville Pettilä; Eero Pesonen Journal: Trials Date: 2020-02-28 Impact factor: 2.279