Volume contraction is a decrease in the volume of

body fluid Body fluids, bodily fluids, or biofluids, sometimes body liquids, are liquids within the Body (biology), body of an organism. In lean healthy adult men, the total body water is about 60% (60–67%) of the total Human body weight, body weight; it ...

, including the dissolved substances that maintain osmotic balance ( osmolytes). The loss of the water component of body fluid is specifically termed

dehydration In physiology, dehydration is a lack of total body water that disrupts metabolic processes. It occurs when free water loss exceeds intake, often resulting from excessive sweating, health conditions, or inadequate consumption of water. Mild deh ...

By body fluid compartment

Volume contraction is more or less a loss of

extracellular fluid In cell biology, extracellular fluid (ECF) denotes all body fluid outside the cells of any multicellular organism. Total body water in healthy adults is about 50–60% (range 45 to 75%) of total body weight; women and the obese typically ha ...

(ECF) and/or

intracellular fluid The human body and even its individual body fluids may be conceptually divided into various fluid compartments, which, although not literally fascial compartment, anatomic compartments, do represent a real division in terms of how portions of the ...

(ICF).

ECF volume contraction

Volume contraction of extracellular fluid is directly coupled to and almost proportional to volume contraction of

blood plasma Blood plasma is a light Amber (color), amber-colored liquid component of blood in which blood cells are absent, but which contains Blood protein, proteins and other constituents of whole blood in Suspension (chemistry), suspension. It makes up ...

, which is termed

hypovolemia Hypovolemia, also known as volume depletion or volume contraction, is a state of abnormally low extracellular fluid in the body. This may be due to either a loss of both salt and water or a decrease in blood volume. Hypovolemia refers to the loss ...

.TheFreeDictionary.com --> hypovolemia
Citing Saunders Comprehensive Veterinary Dictionary, 3 ed. Retrieved on July 2, 2009 Thus, it primarily affects the

circulatory system In vertebrates, the circulatory system is a system of organs that includes the heart, blood vessels, and blood which is circulated throughout the body. It includes the cardiovascular system, or vascular system, that consists of the heart ...

, potentially causing

hypovolemic shock Hypovolemic shock is a form of Shock (circulatory), shock caused by severe hypovolemia (insufficient blood volume or extracellular fluid in the body). It can be caused by severe dehydration or blood loss. Hypovolemic shock is a medical emergency ...

. ECF volume contraction or hypovolemia is usually the type of volume contraction of primary concern in emergency, since ECF is approximately half the volume of ICF and is the first to be affected in e.g.

bleeding Bleeding, hemorrhage, haemorrhage or blood loss, is blood escaping from the circulatory system from damaged blood vessels. Bleeding can occur internally, or externally either through a natural opening such as the mouth, nose, ear, urethr ...

. Volume contraction is sometimes even used synonymously with

ICF volume contraction

Volume contraction of intracellular fluid may occur after substantial fluid loss, since it is much larger than ECF volume, or loss of

potassium Potassium is a chemical element; it has Symbol (chemistry), symbol K (from Neo-Latin ) and atomic number19. It is a silvery white metal that is soft enough to easily cut with a knife. Potassium metal reacts rapidly with atmospheric oxygen to ...

(K⁺) ''see section below''. ICF volume contraction may cause disturbances in various organs throughout the body.

Dependence on lost solutes

Na⁺ loss approximately correlates with fluid loss from ECF, since Na⁺ has a much higher concentration in ECF than ICF. In contrast, K⁺ has a much higher concentration in ICF than ECF, and therefore its loss rather correlates with fluid loss from ICF, since K⁺ loss from ECF causes the K⁺ in ICF to diffuse out of the cells, dragging water with it by

osmosis Osmosis (, ) is the spontaneous net movement or diffusion of solvent molecules through a selectively permeable membrane, selectively-permeable membrane from a region of high water potential (region of lower solute concentration) to a region of ...

Estimation

When the body loses fluids, the amount lost from ICF and ECF, respectively, can be estimated by measuring volume and

amount of substance In chemistry, the amount of substance (symbol ) in a given sample of matter is defined as a ratio () between the particle number, number of elementary entities () and the Avogadro constant (). The unit of amount of substance in the International ...

sodium Sodium is a chemical element; it has Symbol (chemistry), symbol Na (from Neo-Latin ) and atomic number 11. It is a soft, silvery-white, highly reactive metal. Sodium is an alkali metal, being in group 1 element, group 1 of the peri ...

(Na⁺) and

(K⁺) in the lost fluid, as well as estimating the body composition of the person. 1. To calculate an estimation, the total amount of substance in the body before the loss is first estimated:

n_b = Osm_b \times TBW_b

where: *n_b = Total amount of substance before fluid loss *Osm_b = Body

osmolarity Osmotic concentration, formerly known as osmolarity, is the measure of solute concentration, defined as the number of osmoles (Osm) of solute per litre (L) of solution (osmol/L or Osm/L). The osmolarity of a solution is usually expressed as Osm/ ...

before loss (almost equal to plasma osmolality of 275-299 milli-osmoles per kilogram) *TBW_b = Total body water before loss (approximately 60% of body weight, or using tritiated water or deuterium) 2. The total amount of substance in the body after the loss is then estimated:

n_a = n_b - n_ - n_

where: *n_a = Total amount of substance after fluid loss *n_b = Total amount of substance before fluid loss *n_{lost Na+} = Amount of substance of lost sodium *n_{lost K+} = Amount of substance of lost potassium 3. The new osmolarity becomes:

Osm_a = \frac

where: *Osm_a = Body

after loss *n_a = Total amount of substance after fluid loss *TBW_b = Total body water before loss *V_lost = Volume of lost fluid 4. This osmolarity is evenly distributed in the body, and is used to estimate the new volumes of ICF and ECF, respectively:

V_ = \frac = \frac

where: *V_{ICF a} = Intracellular fluid volume after fluid loss *n_{ICF a} = Amount of substance in ICF after fluid loss *Osm_a = Body osmolarity after loss *V_{ICF b} = Intracellular fluid volume before fluid loss (approximately 40% of body weight, or subtracting ECF from TBW) *Osm_b = Body

before loss (almost equal to plasma osmolality of 275-299 milli-osmoles per kilogram) *n_{lost K+} = Amount of substance of lost potassium In homologous manner:

V_ = \frac = \frac

where: *V_{ECF a} = Extracellular fluid volume after fluid loss *n_{ECF a} = Amount of substance in ECF after fluid loss *V_{ECF b} = Extracellular fluid volume before fluid loss (approximately 20% of body weight, or by using inulin) *Osm_b = Body

before loss (almost equal to plasma osmolality of 275-299 milli-osmoles per kilogram) *n_{lost K+} = Amount of substance of lost potassium 5. The volume of lost fluid from each compartment:

V_ = V_ - V_

V_ = V_ - V_

where: *V_{I/ECF b} = Intra/Extra-cellular fluid volume before fluid loss *V_{I/ECF a} = Intra/Extra-cellular fluid volume after fluid loss

References