Microcirculatory perfusion disturbances following cardiopulmonary bypass: a systematic review

Os, Matthijs M den; Brom, Charissa E. van den; Leeuwen, Anoek L I van; Dekker, Nicole

doi:10.1186/s13054-020-02948-w

Cited by 35 publications

(32 citation statements)

References 52 publications

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“…Microcirculatory perfusion disturbances in patients undergoing cardiac surgery with CPB were previously shown by our group and others [5][6][7][8]. Unexpectedly, we did not find a more detrimental effect of cardiac surgery with CPB on sublingual microcirculatory perfusion in obese compared to lean patients.…”

Section: Discussionsupporting

confidence: 73%

“…Microcirculatory perfusion disturbances are commonly present in patients undergoing cardiac surgery with cardiopulmonary bypass (CPB) [ 5 , 6 , 7 , 8 ] and are associated with the development of multiple organ failure [ 9 ]. Several perioperative aspects are known to affect microvascular function [ 10 ], such as anesthetics [ 5 , 11 , 12 ], surgical stress, vasoactive drugs, and fluid therapy [ 10 ].…”

Section: Introductionmentioning

confidence: 99%

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Comparison of Microcirculatory Perfusion in Obese and Non-Obese Patients Undergoing Cardiac Surgery with Cardiopulmonary Bypass

Boly

Venhuizen

Dekker

et al. 2021

JCM

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Obesity is a frequent comorbidity among patients undergoing cardiac surgery with cardiopulmonary bypass (CPB). Cardiac surgery with CPB impairs microcirculatory perfusion, which is associated with multiple organ failure. As microvascular function is frequently compromised in obese patients, we studied whether cardiac surgery with CPB has a more detrimental effect on microcirculatory perfusion in obese patients. Sublingual microcirculatory perfusion was measured with sidestream dark field (SDF) imaging in obese patients (body mass index ≥32 kg/m2; n = 14) without type II diabetes mellitus and in lean patients (BMI 20–25 kg/m2; n = 22) undergoing cardiac surgery with CPB. CPB reduced systolic blood pressure and mean arterial pressure more profoundly in lean compared with obese patients (SBP: 38% vs. 18%; MAP: 11% vs. 8%, p < 0.05), and both restored after weaning from CPB. No differences were present in intraoperative glucose, hematocrit, hemoglobin, lactate, and blood gas values between obese and lean patients. Microcirculatory perfusion did not differ between obese and lean patients the day before surgery. CPB decreased microcirculatory perfusion with 9% in both groups, but this was only significant in lean patients (p < 0.05). Three days following surgery, microcirculatory perfusion was restored in both groups. In conclusion, microcirculatory perfusion was equally disturbed during cardiac surgery with CPB in metabolically healthy obese patients compared to lean patients.

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Section: Discussionsupporting

confidence: 73%

Section: Introductionmentioning

confidence: 99%

Comparison of Microcirculatory Perfusion in Obese and Non-Obese Patients Undergoing Cardiac Surgery with Cardiopulmonary Bypass

Boly

Venhuizen

Dekker

et al. 2021

JCM

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“…However, a recent review has documented impaired micro-vascular integrity as a consequence of CPB during cardiac surgery [50]. By use of sublingual microcirculatory measurements, numerous reports have documented impaired micro-circulatory perfusion with subsequent reduction of functional capillary density, and these changes may last 24 h after CPB [50]. The reduction in functional capillary density after CPB shear great similarities with those taking place during hypothermia with spontaneous circulation mentioned above.…”

Section: Adequacy Of Extracorporeal Rewarming For Macro-and Micro-vesmentioning

confidence: 98%

“…Extracorporeal circulation has evolved to become the method of choice for rewarming patients with hypothermic cardiac arrest. However, a recent review has documented impaired micro-vascular integrity as a consequence of CPB during cardiac surgery [50]. By use of sublingual microcirculatory measurements, numerous reports have documented impaired micro-circulatory perfusion with subsequent reduction of functional capillary density, and these changes may last 24 h after CPB [50].…”

Section: Adequacy Of Extracorporeal Rewarming For Macro-and Micro-vesmentioning

confidence: 99%

Effects of Rewarming with Extracorporeal Membrane Oxygenation to Restore Oxygen Transport and Organ Blood Flow After Hypothermic Cardiac Arrest in a Porcine Model.

Nilsen

Schanche

Valkov

et al. 2021

Preprint

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Background: We recently documented that cardiopulmonary resuscitation (CPR) for hypothermic cardiac arrest maintains cardiac output (CO) and mean arterial pressure (MAP) to the same reduced level during normothermia (38°C) vs. hypothermia (27°C). Furthermore, continuous CPR at 27°C maintains CO and MAP throughout a 3-h period, and provides O2 delivery to support aerobic metabolism. The aim of the present study was to investigate the effects of extracorporeal membrane oxygenation (ECMO) rewarming to restore O2 delivery and organ blood flow. Methods: Eight male pigs were anesthetized and immersion cooled to 27°C. After induction of hypothermic cardiac arrest, CPR was started and continued for a 3-h period. Thereafter, the animals were rewarmed with ECMO. Organ blood flow was measured using microspheres. Results: After cooling with spontaneous circulation to 27°C, MAP and CO were initially reduced to 66 and 44% of baseline, respectively. By 15 min after the onset of CPR, there was a further reduction in MAP and CO to 42 and 25% of baseline, respectively, which remained unchanged throughout the rest of 3-h CPR. During CPR, O2 delivery and O2 uptake (V̇O2) fell to critical low levels, but the simultaneous small increase in lactate and a modest reduction in pH, indicated the presence of maintained aerobic metabolism. Rewarming with ECMO restored MAP, CO, O2 delivery, and blood flow to the heart and to parts of the brain, whereas flow to kidneys, stomach, liver and spleen remained significantly reduced. Conclusions: CPR for 3-h at 27°C with sustained lower levels of CO and MAP and maintained aerobic metabolism sufficient to support O2 delivery. Rewarming with ECMO restores blood flow to the heart and brain, and creates a “shockable” cardiac rhythm. Thus, like continuous CPR, ECMO rewarming plays a crucial role in “the chain of survival” when resuscitating victims of hypothermic cardiac arrest.

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“…For example, when atrial and skeletal muscle arterioles harvested from patients were examined, the contractile response elicited by vasopressin in atrial coronary vessels was increased after surgery [3] . In contrast, the responses to norepinephrine, endothelin-1, and thromboxane A2 (TXA2) were decreased [4][5][6][7] . This demonstrates a differential effect of cardiovascular surgery on vascular reactivity depending on the agonist examined and even which vascular bed is examined.…”

Section: Introductionmentioning

confidence: 99%

Microvascular dysfunction following cardioplegic arrest and cardiopulmonary bypass

Feng¹,

Kant²,

Sellke³

2021

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Cardioplegia and cardiopulmonary bypass (CP/CPB) during cardiac surgery may cause systemic microvascular dysfunction. CP/CPB is associated with significant alterations in myogenic tone, agonist-induced vasomotor response, and endothelial function in various organs and vascular beds. These alterations can result in vessel spasm, organ malperfusion, and tissue damage. This review summarizes the current state of research in this field.

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Microcirculatory perfusion disturbances following cardiopulmonary bypass: a systematic review

Cited by 35 publications

References 52 publications

Comparison of Microcirculatory Perfusion in Obese and Non-Obese Patients Undergoing Cardiac Surgery with Cardiopulmonary Bypass

Comparison of Microcirculatory Perfusion in Obese and Non-Obese Patients Undergoing Cardiac Surgery with Cardiopulmonary Bypass

Effects of Rewarming with Extracorporeal Membrane Oxygenation to Restore Oxygen Transport and Organ Blood Flow After Hypothermic Cardiac Arrest in a Porcine Model.

Microvascular dysfunction following cardioplegic arrest and cardiopulmonary bypass

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