WATER AND ELECTRPLYTE BALANCE 1.pdf

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Fluid, Electrolyte Balance 1
AND BALANCE OF POTASSIUM
DR SADIA HAROON
UGS MODULE
SECOND YEAR MBBS
DATE 20.7.24

© 2011 Pearson Education, Inc.
Learning objective

a. Identify routes of water balance from the
body.

b. Describe a fluid balance and imbalance

c. Explain dehydration and its effect on the
osmotic concentration of plasma.
d. What are functions of potassium.

e. And its abnormalities
Water & Body Fluids

Functions of water:
Transport
Structural support for molecules
Participates in metabolic reactions
Solvent
Lubricant & shock absorber
Body temperature regulation
Maintains blood volume & blood
pressure
Water & The Body Fluids

Water balance
Intracellular fluid-within the cells
Extracellular fluid-outside the
cells
Interstitial fluid
Plasma

Copyright 2005 Wadsworth Group, a division of Thomson Learning
 FLUID CONTENT OF THE BODY

Varies with age, sex, adipose
tissue
Females 45-50% TBW
Males 50-60% TBW
Infants 77% TBW
Water & Body Fluids

Water Balance
-Intake/output = 2.5 liters/day
-Regulated by hypothalamus & kidneys
-Carefully controlled by:
1. Intake (liquid, foods, metabolic water)
affected by thirst & satiety
2. Output (losses via kidneys, skin, lungs,
feces) affected by blood salts, volume &
blood pressure
How The Body Regulates Blood Volume

Copyright 2005 Wadsworth Group, a division of Thomson Learning
Water & Body Fluids
Recommendations:
-Needs vary according to type of food
eaten, temperature, humidity, activity
level, etc.
-General rule: 1–1.5 ml/kcal expended
Example: if 2000 kcal “burned” then
2-3 liters suggested; >8 cups from fluids
and the rest comes from food &
metabolic water
-Urine should be pale yellow
-Caffeine & alcohol act as diuretics so
not
good water substitutes
Fluid & Electrolyte Balance

Electrolytes – salts that dissolve in water,
forming ions
Dissociation of salt in water
Ions
Cations- + charged particles
Anions- - charged particles
Electrolyte solution

Copyright 2005 Wadsworth Group, a division of Thomson Learning
Body Fluid Compartments

Extracellular fluid (ECF)
Called internal environment of body
Surrounds cells and transports substances
to and from them
Types
Plasma: Liquid part of whole blood
Interstitial fluid: Surrounds the cells
Transcellular fluid: Lymph, joint fluids,
cerebrospinal fluids, eye humors

Copyright © 2016 by Elsevier 11
BODY FLUID COMPARTMENTS

 Extracellular fluid (ECF)
 Called internal environment of body
 Surrounds cells and transports substances to and from
them
 Types
 Plasma: Liquid part of whole blood
 Interstitial fluid: Surrounds the cells
 Transcellular fluid: Lymph, joint fluids, cerebrospinal fluids,
eye humors
 Intracellular fluid (ICF)
 Largest fluid compartment
 Serves as solvent to facilitate intracellular chemical
reactions
ELECTROLYTES IN
BODY FLUID COMPARTMENTS

INTRACELLULAR EXTRACELLULAR
POTASSIUM SODIUM

MAGNESIUM CHLORIDE

PHOSPHOROUS BICARBONATE
Fluid & Electrolyte Balance

Electrolytes – salts that dissolve in water,
forming ions
Dissociation of salt in water
Ions
Cations- + charged particles
Anions- - charged particles
Electrolyte solution

Copyright 2005 Wadsworth Group, a division of Thomson Learning
Mechanisms That
Maintain Fluid Balance

Overview of fluid balance
Regulation of fluid output
 Fluid output, mainly urine volume, adjusts to fluid intake
 Antidiuretic hormone (ADH) from posterior pituitary gland acts to
increase kidney tubule reabsorption of sodium and water from tubular
urine into blood, thereby tending to increase ECF (and total body fluid)
by decreasing urine volume (Figure 19-5)

 mechanisms that adjust fluid intake.
 As long as input and output are equal, the total amount of water in the
body does not change.
 The four main sources of water output in body are: water vapor lost
when we exhale, sweat that evaporates from skin, urine output by the
kidney, and water lost in the feces.. 15
Maintain Fluid Balance (Cont.)
Regulation of fluid intake
ECF electrolyte concentration influences ECF volume
Increase in ECF increases ECF volume by increasing movement of water out of ICF
and by increasing ADH secretion, which decreases urine volume
Exchange of fluids by blood
Capillary blood pressure pushes water out of blood, into interstitial fluid; blood
protein concentration pulls water into blood from interstitial fluid; hence, these two
forces regulate plasma and interstitial fluid volume under usual conditions

The three main sources of fluid intake are: liquids we drink, water in the foods we
eat, and water formed by catabolism of nutrients (cellular respiration).

Copyright © 2016 by Elsevier 16
Fluid Imbalances

 Dehydration (Figures 19-7 and 19-8)
 Total volume of body fluids less than normal
 Interstitial fluid volume shrinks first, and then if treatment
is not given, ICF volume and plasma volume decrease
 Dehydration occurs when fluid output exceeds intake for
an extended period
 Overhydration
 Total volume of body fluids greater than normal
 Overhydration occurs when fluid intake exceeds output
 Various factors may cause this (e.g., giving excessive
amounts of intravenous fluids or giving them too rapidly
may increase intake above output)

Copyright © 2016 by Elsevier 17
Fluid Imbalances (Cont.)

Overhydration
Water intoxication may result from
rapidly drinking large volumes of water
or giving hypotonic solutions to
persons unable to dilute and excrete
urine normally

Copyright © 2016 by Elsevier 18
Electrolyte Imbalances

Homeostasis of electrolytes
Electrolyte balance related to “intake” and “output” of specific electrolytes
Sodium imbalance
Hypernatremia: Blood sodium level >145 mEq/L
Hyponatremia: Blood sodium level 5.1 mEq/L
Hypokalemia: Blood potassium level