Clinical Application of the Fluid Challenge Approach in Goal-Directed Fluid Therapy: What Can We Learn From Human Studies?

Francisco José Teixeira-Neto,Alexander Valverde

doi:10.3389/fvets.2021.701377

Francisco José Teixeira-Neto, Alexander Valverde

Open Access

https://doi.org/10.3389/fvets.2021.701377

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Abstract

Resuscitative fluid therapy aims to increase stroke volume (SV) and cardiac output (CO) and restore/improve tissue oxygen delivery in patients with circulatory failure. In individualized goal-directed fluid therapy (GDFT), fluids are titrated based on the assessment of responsiveness status (i.e., the ability of an individual to increase SV and CO in response to volume expansion). Fluid administration may increase venous return, SV and CO, but these effects may not be predictable in the clinical setting. The fluid challenge (FC) approach, which consists on the intravenous administration of small aliquots of fluids, over a relatively short period of time, to test if a patient has a preload reserve (i.e., the relative position on the Frank-Starling curve), has been used to guide fluid administration in critically ill humans. In responders to volume expansion (defined as individuals where SV or CO increases ≥10–15% from pre FC values), FC administration is repeated until the individual no longer presents a preload reserve (i.e., until increases in SV or CO are <10–15% from values preceding each FC) or until other signs of shock are resolved (e.g., hypotension). Even with the most recent technological developments, reliable and practical measurement of the response variable (SV or CO changes induced by a FC) has posed a challenge in GDFT. Among the methods used to evaluate fluid responsiveness in the human medical field, measurement of aortic flow velocity time integral by point-of-care echocardiography has been implemented as a surrogate of SV changes induced by a FC and seems a promising non-invasive tool to guide FC administration in animals with signs of circulatory failure. This narrative review discusses the development of GDFT based on the FC approach and the response variables used to assess fluid responsiveness status in humans and animals, aiming to open new perspectives on the application of this concept to the veterinary field.

Highlights

Patients that are critically ill or that are undergoing major surgery are frequently presented with inadequate tissue oxygen delivery due to poor circulating volume
In patients admitted with signs of circulatory failure, fluid resuscitation guided by a fluid challenge approach has the potential to improve patient outcome
Considering the principle of “less is more,” to minimize the risk of fluid overload, it has been recognized that smaller volumes of fluids, or mini-fluid challenges, may allow identification of responders to volume expansion induced by a standard fluid challenge

Summary

Introduction

Patients that are critically ill or that are undergoing major surgery are frequently presented with inadequate tissue oxygen delivery due to poor circulating volume. Under these conditions, rapid volume expansion via intravenous fluid administration should optimize tissue perfusion but such benefit is not without risks. According to guidelines published in veterinary medicine, when signs of circulatory failure/hypovolemia are present, aggressive fluid administration can be initiated via rapid administration of isotonic crystalloids using 25% of the “shock dose” (15–20 ml/kg in dogs and 10 mL/kg in cats), while monitoring the patient’s the response (e.g., blood pressure, capillary refill time, lung sounds) [2]. There are opened questions regarding the goals and endpoints that should guide volume resuscitation in animals

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