Equine Fluid Therapy is the first reference to draw equine-specific fluid therapy information together into a single, comprehensive resource. Offering current information unique to horses on the research and practice of fluid, electrolyte, and acid-base disorders, the book is designed to be clinically oriented yet thorough, providing detailed strategies tailored to equine practice. With information ranging from physiology and acid-base balance to fluid therapy for specific conditions, Equine Fluid Therapy covers fluid treatments in both adult horses and foals, highlighting the unique physiologic features, conditions, and differences in foals.

Well-illustrated throughout, the book begins with an overview of the physiology of fluids, electrolytes, and acid-base, then moves into practical information including equipment, monitoring techniques, fluid choices, and potential complications. A final section offers chapters on blood transfusions, colloids, parenteral nutrition, and hemodynamic monitoring. Equine Fluid Therapy is an essential reference for equine practitioners, specialists, and researchers.

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Yes, you can access Equine Fluid Therapy by C. Langdon Fielding, K. Gary Magdesian, C. Langdon Fielding, K. Gary Magdesian in PDF and/or ePUB format, as well as other popular books in Medicine & Equine Veterinary Science. We have over one million books available in our catalogue for you to explore.

Information

Publisher

Wiley-Blackwell

Year

2014

ISBN

9781118928172

Edition

Topic

Medicine

Subtopic

Equine Veterinary Science

Section 1
Physiology of fluids, electrolytes, and acid–base

Chapter 1
Body water physiology

C. Langdon Fielding

Loomis Basin Equine Medical Center, Penryn, CA, USA

Introduction

The topic of fluid therapy usually focuses on the ideal fluid type and rate that should be administered to equine patients for specific clinical conditions. While the remainder of this textbook addresses these important questions, a brief introduction to the distribution of administered fluids is needed as a basis from which to interpret subsequent chapters. Specifically, concepts including the physiologic fluid spaces, effective osmolality, and oncotic pressure are important foundations to understand prior to important foundations to understand prior to formulating a fluid therapy plan.

Physiologic fluid spaces

The physiologic fluid spaces are typically divided into total body water (TBW), extracellular fluid volume (ECFV), and intracellular fluid volume (ICFV) as shown in Figure 1.1. It is important to remember that these fluid spaces are both physiologic (not anatomic) and dynamic. They represent a volume estimate at a point in time and therefore are constantly changing based on a number of physiological principles. Much of the attention in clinical medicine is focused on the ECFV; blood sampling for laboratory testing comes from this fluid space.

c1-fig-0001 — **Figure 1.1** Relationship between total body water (TBW), extracellular fluid volume (ECFV), and intracellular fluid volume (ICFV) in a normal horse. Diagram represents a simplified “single cell” model.

Total body water (TBW)

Total body water represents the total volume of water within the animal. Values in adult horses have ranged from 0.55 to 0.77 L/kg depending on the measurement technique used (Dugdale et al., 2011; Fielding et al., 2004; Latman et al., 2011). A consensus from most of the research would suggest that a typical horse has a volume of TBW between 60 and 70% of its weight. A value of 2/3 is often used by many textbooks and is easy to remember. The majority of studies determining TBW have used deuterium oxide dilution, but this is not practical in a clinical setting. Acute changes in body weight are likely the best determination of changes in TBW in sick horses and foals. Monitoring of weight change should be done frequently (1–2 times per day if possible), in order to recognize acute loss or gain of body water.

Extracellular fluid volume (ECFV)

Extracellular fluid volume represents the volume of TBW that is not contained within the cells. This includes the plasma volume (PV), interstitial volume (IV), and transcellular compartments (gastrointestinal tract, joint fluid, etc.). The ECFV has also been measured using a number of different dilution techniques and reported values in adult horses have ranged from 0.21 to 0.29 L/kg (Dugdale et al., 2011; Fielding et al., 2004; Forro et al., 2000). A good approximation of the ECFV is about 1/3 of TBW.

In addition to evaluating fluid balance, monitoring the size of the ECFV is clinically useful in determining the dosage of some medications. In disease states, the ECFV is the space from which fluid losses often occur (e.g. sodium-rich fluid loss in diarrhea); it is also the space where fluids are administered and often remain (i.e. intravenous isotonic crystalloids). Three techniques that have been used clinically to monitor changes in the ECFV are bioelectrical impedance analysis (BIA), sodium dilution, and volume kinetics (Fielding et al., 2008; Forro et al., 2000; Zdolsek et al., 2012).

Plasma volume is easier to estimate as compared to the other fluid spaces and has been reported as 0.052 to 0.063 L/kg in healthy adult horses (Marcilese et al., 1964). Clinical monitoring of the PV is essential as excessive expansion or contraction can lead to clinical derangements such as edema and shock, respectively. Changes in packed cell volume (PCV) over time may give an indication of PV alterations, but the role of splenic contraction makes the use of this measurement somewhat complicated in horses. Total plasma protein concentration may be a more useful tool for monitoring PV; however, abnormal protein losses can make interpretation problematic.

Intracellular fluid volume (ICFV)

Intracellular fluid volume is the volume of fluid contained within the cells. It is usually estimated as the difference between TBW and the ECFV. Bioimpedance technology has been used to make estimates of this fluid space in horses, but dilution techniques cannot be easily applied to the ICFV. Reported values for ICFV are between 0.356 and 0.458 L/kg in horses (Dugdale et al., 2011; Fielding et al., 2004; Forro et al., 2000). Monitoring of the ICFV is typically not performed in clinical practice, but BIA may offer the best assessment available at this time.

Physiologic fluid spaces in foals

Physiologic fluid spaces in newborn foals have been described (Table 1.1). In general, there is an increased size of the ECFV and TBW as compared to adults (Fielding et al., 2011; Spensley et al., 1987). Values of TBW in newborn foals appear to be larger (0.74 L/kg) as compared to adults, which is consistent with other species (Fielding et al., 2011). Estimations of ECFV in foals are also significantly larger than in adults and have been reported to be between 0.36 and 0.40 L/kg in newborn foals; this decreases to 0.290 L/kg in foals at 24 weeks of age (Fielding et al., 2011; Spensley et al., 1987). The PV was estimated to be 0.090 L/kg (Fielding et al., 2011; Spensley et al., 1987), which represents an increase as compared to adults. Interestingly, the ICFV of foals is approximately 0.38 L/kg, which is similar to that in adult horses (Fielding et al., 2011). The ratio of ICFV to ECFV is approximately 1:1 in newborn foals as compared to adults with a ratio of approximately 2:1 (Figure 1.2).

Table 1.1 Physiologic fluid spaces in horses and foals.

Fluid space	Adult horse(L/kg)	Neonatal foal(L/kg)
Total body water	0.55–0.77	0.74
Extracellular fluid volume	0.21–0.29	0.36–0.40
Intracellular fluid volume	0.36–0.46	0.38
Plasma volume	0.052–0.063	0.09

c1-fig-0002 — **Figure 1.2** The relative sizes of the intracellular fluid volume, extracellular fluid volume and total body water in adults and foals.

These differences in physiologic fluid spaces in foals alter the volume of distribution for common medications that have a high degree of water solubility (i.e. aminoglycoside antibiotics). This is one reason why the dosing of some medications differs in neonates as compared to adult horses. Fluid therapy plans must also take into consideration the different fluid...

Cover
Dedication page
Title page
Copyright page
List of contributors
Preface
Section 1: Physiology of fluids, electrolytes, and acid–base
Section 2: Fluid therapy
Section 3: Special topics
Index
End User License Agreement