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Shock. 2016 Dec;46(6):609-622.

Searching For the Optimal Fluid to Restore Microcirculatory Flow Dynamics After Haemorrhagic Shock: A Systematic Review of Preclinical Studies.

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1
*National Institute of Health Research, Surgical Reconstruction and Microbiology Research Centre, Queen Elizabeth Hospital, Birmingham, UK †School of Health and Population Sciences, College of Medical and Dental Sciences, University of Birmingham, Birmingham, UK ‡Kings College Hospital NHS Foundation Trust, London, UK.

Abstract

BACKGROUND:

Increased microcirculatory flow and perfusion has been reported to improve clinical outcomes following shock. The optimal resuscitation fluid to restore the flow dynamics of the microcirculation is unknown. This review summarizes the preclinical literature to inform the direction and most important hypotheses for future clinical interventional studies.

METHODS:

Standard systematic review methodology was utilized, and registered with the Collaborative Approach to Meta Analysis and Review of Animal Data from Experimental Studies (CAMARADES). Medline and Embase (via OVID SP) and SCOPUS were searched for all preclinical studies of haemorrhagic shock that compared fluid resuscitation of any kind (e.g., blood products, crystalloids, colloids, or haemoglobin based oxygen carriers) to another fluid or haemorrhage only, and reported at least one microcirculatory physical endpoint (such as flow rate, velocity, vessel diameter, functional capillary density, or glycocalyx thickness). Risk of bias was assessed using the Systematic Review Centre for Laboratory animal Experimentation (SYRCLE) tool. Translatability was also assessed for each study based on the most common recommendations.

RESULTS:

There were 3,103 potential studies of interest, of which 71 studies fulfilled all eligibility criteria. There were 62 rodent, 5 canine, and 4 porcine studies. Flow rate, velocity, and vessel diameter were the most commonly reported endpoints. Studies reported the importance of the presence of haemoglobin, as well as osmotic potential and viscosity in providing optimal restoration of microcirculatory flow dynamics. Others reported the restoration of the endothelial glycocalyx and attenuation of inflammation as important properties for the choice of fluid. All studies were at potential risk of bias due to unclear randomization, concealment, and blinding. There were important threats to translatability for all studies.

CONCLUSION:

The ideal resuscitation fluid for restoration of the microcirculation following haemorrhagic shock is likely to contain a preparation of haemoglobin, favor higher oncotic potential, and viscosity, protect and reconstitute the endothelium, and attenuate inflammation. These hypotheses that are derived from preclinical research warrant further exploration in the clinical context.

PMID:
27465755
DOI:
10.1097/SHK.0000000000000687
[Indexed for MEDLINE]

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