Water and electrolyte
38,191 views
51 slides
Apr 25, 2017
Slide 1 of 51
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
About This Presentation
it explains the distribution of water in various compartments. how it is balanced in our body or regulated. with its disorders of water metabolism.
Slide Content
Fluid & Electrolyte Balance
Dr. N. Sivaranjani,MD biochem
Asstprof.
Dr. N. Sivaranjani,MD biochem
Asstprof.
60%ofbodyconsistsoffluid
Intracellularspace
Extracellularspace
Distribution of water in different body water
compartments depends on the solute
content of each
compartment
Osmolality of the intra and
extra-cellular fluid is the same, but
there is marked difference in the
solute content.
Dr. N. Sivaranjani 3
Intracellularspace
Extracellularspace
Distribution of water in different body water
compartments depends on the solute
content of each
compartment
Osmolality of the intra and
extra-cellular fluid is the same, but
there is marked difference in the
solute content.
Dr. N. Sivaranjani 3
Distribution of Body Water
Intravascular
Interstitial
IntracellularICF
ECF
Na+
K+
Cl-
Essential for normal cell function
Provides medium for metabolic processes
spaces between cells
plasma-arteries, veins, capillaries
Cerebrospinal fluid, Pleural spaces, Synovial spaces
Peritoneal fluid spaces
Transcellular
1 L
Dr. N. Sivaranjani 4
Intravascular
Interstitial
IntracellularICF
ECF
Na+
K+
Cl-
Essential for normal cell function
Provides medium for metabolic processes
spaces between cells
plasma-arteries, veins, capillaries
Cerebrospinal fluid, Pleural spaces, Synovial spaces
Peritoneal fluid spaces
Transcellular
1 L
Dr. N. Sivaranjani 4
Fluid composition varies with body fat, age and gender
75% water
ECF=45%,ICF=30%
65% water,
ECF= 25%, ICF = 40%
Adult female
50% water,
ECF=10-15%,
ICF=40%
fat cells contain little
water and lean tissue is
rich in water, the more
obese the person, the
smaller the percentage
of total body water. Dr. N. Sivaranjani 5
75% water
ECF=45%,ICF=30%
65% water,
ECF= 25%, ICF = 40%
Adult female
50% water,
ECF=10-15%,
ICF=40%
fat cells contain little
water and lean tissue is
rich in water, the more
obese the person, the
smaller the percentage
of total body water. Dr. N. Sivaranjani 5
Human life is suspended in a saline solution having a salt concentration of 0.9%
Body fluids must remain fairly constant with regard to amount of H
2O & specific electrolytes
Primary component of body fluid: Water
Women lower % body water than men
Total body water decreases with age
Dr. N. Sivaranjani
6
Body fluids must remain fairly constant with regard to amount of H
2O & specific electrolytes
Primary component of body fluid: Water
Women lower % body water than men
Total body water decreases with age
Dr. N. Sivaranjani
6
How importance is water
Water provides a medium for transporting nutrientsto cells and
wastes from cells and for transporting substances such as hormones,
enzymes, blood platelets, and red and white blood cells
Water facilitates cellular metabolism and proper cellular chemical
functioning
Water acts as a solventfor electrolytes and nonelectrolytes
Helps maintain normal body temperature
Facilitates digestionand promotes elimination
Acts as a tissue lubricant
Component in all body cavities [parietal, pleural… fluids]
Water is the
principal body
fluid which is
essential for
life.
Dr. N. Sivaranjani 7
Water provides a medium for transporting nutrientsto cells and
wastes from cells and for transporting substances such as hormones,
enzymes, blood platelets, and red and white blood cells
Water facilitates cellular metabolism and proper cellular chemical
functioning
Water acts as a solventfor electrolytes and nonelectrolytes
Helps maintain normal body temperature
Facilitates digestionand promotes elimination
Acts as a tissue lubricant
Component in all body cavities [parietal, pleural… fluids]
Water is the
principal body
fluid which is
essential for
life.
Dr. N. Sivaranjani 7
Intake and output of water
Factors that Dictate Body Water Requirement
1)Amount needed to give the proper osmotic concentration
2)Amount needed to replace water lost excretion
Normal Routes of water gain and loss
INTAKE OUTPUTml/day ml/day
Exogenous :-
Fluid intake 1,500
Food 700
Endogenous :-
Metabolism 300
TOTAL 2,500
Insensible loss (skin + lung)850
Feces 150
Urine (kidney) 1,500
TOTAL 2,500
Factors that Dictate Body Water Requirement
1)Amount needed to give the proper osmotic concentration
2)Amount needed to replace water lost excretion
Normal Routes of water gain and loss
INTAKE OUTPUTml/day ml/day
Exogenous :-
Fluid intake 1,500
Food 700
Endogenous :-
Metabolism 300
TOTAL 2,500
Insensible loss (skin + lung)850
Feces 150
Urine (kidney) 1,500
TOTAL 2,500
Dr. N. Sivaranjani 9
Regulation of Body Fluid Compartments
Diffusion
Molecules →from an area of ↑concentration to an area of ↓
concentration
Osmosis
is the movement of water through a semipermeable membrane to a
higher concentration of solutes.
Active Transport
is movement of substance across permeable membrane and gradient;
requires energy and pump.
Filtration
H
2O & dissolved substances →from an area of high hydrostatic
pressure to an area of low hydrostatic pressure
Dr. N. Sivaranjani 10
Diffusion
Molecules →from an area of ↑concentration to an area of ↓
concentration
Osmosis
is the movement of water through a semipermeable membrane to a
higher concentration of solutes.
Active Transport
is movement of substance across permeable membrane and gradient;
requires energy and pump.
Filtration
H
2O & dissolved substances →from an area of high hydrostatic
pressure to an area of low hydrostatic pressure
Dr. N. Sivaranjani 10
Diffusion
High Solute ConcentrationLow Solute Concentration
Fluid
Solutes
Dr. N. Sivaranjani 11
High Solute ConcentrationLow Solute Concentration
Fluid
Solutes
Dr. N. Sivaranjani 11
Osmosis
Fluid
High Solution
Concentration,
Low Fluid
Concentration
Low Solute
Concentration,
High Fluid
Concentration
Controls body fluid movement between
ICF & ECF
Dr. N. Sivaranjani 12
Fluid
High Solution
Concentration,
Low Fluid
Concentration
Low Solute
Concentration,
High Fluid
Concentration
Controls body fluid movement between
ICF & ECF
Dr. N. Sivaranjani 12
Dr. N. Sivaranjani
13
13
Dr. N. Sivaranjani 14
Osmotic Pressure
The amount of hydrostatic pressure required to stop the flow of
water by osmosis
Osmolality
reflects the concentration of fluid that affects the movement of
water between fluid compartments by osmosis
Dr. N. Sivaranjani 15
The amount of hydrostatic pressure required to stop the flow of
water by osmosis
Osmolality
reflects the concentration of fluid that affects the movement of
water between fluid compartments by osmosis
Dr. N. Sivaranjani 15
Osmolality :Number of osmoticallyactive particles present per
kilogram of water.
Osmolarity: Number of osmoticallyactive particles present per litreof
water.
Electrolytes: Electrolytes are substances whose molecules dissociate into
ions when placed in solution
Ions : An ion is an atom or group of atoms with an electrical
charge.
Dr. N. Sivaranjani 16
kilogram of water.
Osmolarity: Number of osmoticallyactive particles present per litreof
water.
Electrolytes: Electrolytes are substances whose molecules dissociate into
ions when placed in solution
Ions : An ion is an atom or group of atoms with an electrical
charge.
Dr. N. Sivaranjani 16
Normal plasma Osmolality = 285-292 mOsm/kg
Plasma osmolality can be measured directly using the osmometer
or indirectly as the concentration of effective osmoles
Osmolality =2(Na
+
) + 2(K
+
) + Urea + Glucose, mmol/L.
Plasma osmolality (mmol/kg) = 2x Plasma Na
+
(mmol/l)
Estimated by doubling serum Na concentration
Clinical uses :-diagnosis of disorders of water and electrolyte
balance and NKHC
Osmolality increases–Hyperglycemia, DKA, NKHC, Hypernatremia with water
loss (DI)
Decreased –Hyponatremia–water and Na gain (CCF), SIADH.
Dr. N. Sivaranjani 17
Plasma osmolality can be measured directly using the osmometer
or indirectly as the concentration of effective osmoles
Osmolality =2(Na
+
) + 2(K
+
) + Urea + Glucose, mmol/L.
Plasma osmolality (mmol/kg) = 2x Plasma Na
+
(mmol/l)
Estimated by doubling serum Na concentration
Clinical uses :-diagnosis of disorders of water and electrolyte
balance and NKHC
Osmolality increases–Hyperglycemia, DKA, NKHC, Hypernatremia with water
loss (DI)
Decreased –Hyponatremia–water and Na gain (CCF), SIADH.
Dr. N. Sivaranjani 17
The difference in measured osmolality and calculated osmolality
called OsmolarGap.(normal -numerically similar)
Increase in osmoticallyactive substances–Ethanol,
Mannitol, neutral and cationic amino acids.
Fractional water content of plasma is reduced –
hyperlipidemia or hyperproteinemia.
Dr. N. Sivaranjani 18
called OsmolarGap.(normal -numerically similar)
Increase in osmoticallyactive substances–Ethanol,
Mannitol, neutral and cationic amino acids.
Fractional water content of plasma is reduced –
hyperlipidemia or hyperproteinemia.
Dr. N. Sivaranjani 18
In a healthy state, the osmotic pressure of ECF, mainly due to Na+ ions, is
equal to the osmotic pressure of ICF which is predominantly due to K+ ions
Dr. N. Sivaranjani
19
equal to the osmotic pressure of ICF which is predominantly due to K+ ions
Dr. N. Sivaranjani
19
Tonicity -measure of transport of water across the biological system causing
change in cell volume.
0.9% Normal Saline
Dr. N. Sivaranjani
20
change in cell volume.
0.9% Normal Saline
Dr. N. Sivaranjani
20
0.9% Normal Saline
Dr. N. Sivaranjani
21
Dr. N. Sivaranjani
21
(0.45% NS)
< concentration of solutes as plasma
Causes H
2O to move into cells & swell
(hemolysis)
Dr. N. Sivaranjani
22
< concentration of solutes as plasma
Causes H
2O to move into cells & swell
(hemolysis)
Dr. N. Sivaranjani
22
(3% NS)
> concentration of solutes as plasma
Causes H
2O to draw out of cell
(shrink)
Mannitol–treatment of cerebral
edema.
Dr. N. Sivaranjani
23
> concentration of solutes as plasma
Causes H
2O to draw out of cell
(shrink)
Mannitol–treatment of cerebral
edema.
Dr. N. Sivaranjani
23
Dr. N. Sivaranjani
24
24
ELECTROLYTES
Substances whose molecules dissociate into ions
(charged particles) when placed into water
Cations: positively-charged
Anions: negatively-charged
Sodium–major cationof ECF
Chloride-major anionof ECF
Potassium–major cationof ICF
Phosphate –major anionof ICF
Dr. N. Sivaranjani 25
Substances whose molecules dissociate into ions
(charged particles) when placed into water
Cations: positively-charged
Anions: negatively-charged
Sodium–major cationof ECF
Chloride-major anionof ECF
Potassium–major cationof ICF
Phosphate –major anionof ICF
Dr. N. Sivaranjani 25
ELECTROLYTE Composition
Electrolyte Conc Plasma (mEq/L) ICF
Sodium, Na
+
142 10
Potassium, K
+
5 150
Calcium, Ca
++
5 2
Magnesium, Mg
++
3 40
(155)
Chloride, Cl
-
103 2
Bicarbonate, HCO
3
-
27 10
Biphosphate, HPO
4
-
2 140
Sulfate, SO
4
-2
1 5
Protein 16 40
Organic acids 6 5
(155)
Dr. N. Sivaranjani 26
Electrolyte Conc Plasma (mEq/L) ICF
Sodium, Na
+
142 10
Potassium, K
+
5 150
Calcium, Ca
++
5 2
Magnesium, Mg
++
3 40
(155)
Chloride, Cl
-
103 2
Bicarbonate, HCO
3
-
27 10
Biphosphate, HPO
4
-
2 140
Sulfate, SO
4
-2
1 5
Protein 16 40
Organic acids 6 5
(155)
Dr. N. Sivaranjani 26
Functions of Electrolytes
Promote neuromuscular irritability
Regulate acid and base balance
Regulate distribution of body fluids among body
fluid compartments
Dr. N. Sivaranjani 27
Promote neuromuscular irritability
Regulate acid and base balance
Regulate distribution of body fluids among body
fluid compartments
Dr. N. Sivaranjani 27
are regulated together
kidneys play a predominant role
major regulatory factors are the hormones -Aldosterone,
ADH and
Renin angiotensin
Atrial natriuretic peptide
Hypothalamic regulation -Stimulates thirst and ADH release
Pituitary regulation -Releases ADH
Adrenal cortical regulation –Releases Aldosterone
Renal regulation -Primary organs for regulating fluid and electrolyte balance
Selective reabsorption of water and electrolytes
Renal tubules are sites of action of ADH and aldosterone
Electrolyte and water balance
Dr. N. Sivaranjani 28
kidneys play a predominant role
major regulatory factors are the hormones -Aldosterone,
ADH and
Renin angiotensin
Atrial natriuretic peptide
Hypothalamic regulation -Stimulates thirst and ADH release
Pituitary regulation -Releases ADH
Adrenal cortical regulation –Releases Aldosterone
Renal regulation -Primary organs for regulating fluid and electrolyte balance
Selective reabsorption of water and electrolytes
Renal tubules are sites of action of ADH and aldosterone
Electrolyte and water balance
Dr. N. Sivaranjani 28
Synthesis Action Action on sodium
and water
Aldosterone secreted by the zona
glomerulosa
of the adrenal cortex
regulates the
Na+ →K+ exchange and
Na+ →H+ exchange at
the renal tubules.
Sodium and water
retention
Anti-Diuretic
Hormone (ADH)
Under control of
hypothalamus, posterior
pituitary releases ADH
increase the water
reabsorption by the renal
tubules.
Retention of
water
Renin-
Angiotensin
System
release of reninby the
juxtaglomerular cells
Angiotensin-IIBP by
vasoconstriction of the
arterioles.
It alsostimulates
aldosterone production
Retention of
sodium and water
Atrial natriuretic
peptides
stimulation of atrial
stretchreceptors
Inhibit renin and
aldosteronesecretion –
cause elimination of sodium
Increasesurinary
excretion of
sodium.
Dr. N. Sivaranjani 29
and water
Aldosterone secreted by the zona
glomerulosa
of the adrenal cortex
regulates the
Na+ →K+ exchange and
Na+ →H+ exchange at
the renal tubules.
Sodium and water
retention
Anti-Diuretic
Hormone (ADH)
Under control of
hypothalamus, posterior
pituitary releases ADH
increase the water
reabsorption by the renal
tubules.
Retention of
water
Renin-
Angiotensin
System
release of reninby the
juxtaglomerular cells
Angiotensin-IIBP by
vasoconstriction of the
arterioles.
It alsostimulates
aldosterone production
Retention of
sodium and water
Atrial natriuretic
peptides
stimulation of atrial
stretchreceptors
Inhibit renin and
aldosteronesecretion –
cause elimination of sodium
Increasesurinary
excretion of
sodium.
Dr. N. Sivaranjani 29
DECREASED FLUID VOLUME
Stimulation of thirst
center in hypothalamus
Increase in thirst
↑ intake of water
INCREASES PLASMA OSMOLALITY
Dr. N. Sivaranjani 30
Stimulation of thirst
center in hypothalamus
Increase in thirst
↑ intake of water
INCREASES PLASMA OSMOLALITY
Dr. N. Sivaranjani 30
Posterior pituitary
gland
Osmoreceptorsin
hypothalamus + ↑Osmolarity
↑ADH
Kidney
↑H
2O reabsorption
↑vascular volume and
↓osmolarity
Stress, hypoglycaemia,
Anestheticagents, Heat,
Nicotine, Antineoplastic
agents, Narcotics,
Surgery
ANTIDIURETIC HORMONE REGULATION MECHANISMS
Fluid
volume
Increase permeability of renal
collecting ducts to water by
binding to V2 receptors –
cause insertion of water
channels to luminal
membrane
gland
Osmoreceptorsin
hypothalamus + ↑Osmolarity
↑ADH
Kidney
↑H
2O reabsorption
↑vascular volume and
↓osmolarity
Stress, hypoglycaemia,
Anestheticagents, Heat,
Nicotine, Antineoplastic
agents, Narcotics,
Surgery
ANTIDIURETIC HORMONE REGULATION MECHANISMS
Fluid
volume
Increase permeability of renal
collecting ducts to water by
binding to V2 receptors –
cause insertion of water
channels to luminal
membrane
Juxtaglomerular cells↓Serum Sodium
↓Blood volume
↓Blood Pressure
↓renal blood flow Angiotensin I
Distal renal
tubules
Angiotensin II
Adrenal Cortex↑Sodium reabsorption (H2O
resorbed with sodium)
Angiotensinogen in
plasma
RENIN
Angiotensin-
converting enzyme
ALDOSTERONE
Via vasoconstriction of arterial smooth muscle
ALDOSTERONE -RENIN-ANGIOTENSIN SYSTEM
Increases Blood Pressure
↓Blood volume
↓Blood Pressure
↓renal blood flow Angiotensin I
Distal renal
tubules
Angiotensin II
Adrenal Cortex↑Sodium reabsorption (H2O
resorbed with sodium)
Angiotensinogen in
plasma
RENIN
Angiotensin-
converting enzyme
ALDOSTERONE
Via vasoconstriction of arterial smooth muscle
ALDOSTERONE -RENIN-ANGIOTENSIN SYSTEM
Increases Blood Pressure
INCREASED BLOOD VOLUME ,
INCRESED BLOOD PRESSURE
ATRIAL NATRIURETIC PEPTIDE RELEASE
Reducesin thirst
Decreased intake of water
STIMULATION OF ATRIAL STRETCH RECEPTORS
Inhibits release of ADH
Diuresis –increase urine output
Inhibits release of
Aldosterone
Decreases Na reabsorption
Natriuresis–Na excretion
INCRESED BLOOD PRESSURE
ATRIAL NATRIURETIC PEPTIDE RELEASE
Reducesin thirst
Decreased intake of water
STIMULATION OF ATRIAL STRETCH RECEPTORS
Inhibits release of ADH
Diuresis –increase urine output
Inhibits release of
Aldosterone
Decreases Na reabsorption
Natriuresis–Na excretion
Dr. N. Sivaranjani
34
34
Volume Disorders 2°Alteration in Sodium Balance
ECF Expansion
Isotonic IncN N Water and Na retention –Edema-2̊Cardiac failure
2̊ Hyper-aldosteronismdue to hypoalbunemia.
Hypertonic IncDec IncNa retention due to excess mineralocorticoid –
cushing’ssyndrome or conn’ssyndrome
Hypotonic IncIncDec water retention due to ADH excess or
Glomerular dysfuncion
Volume ECF ICF Conditions
Disorder Vol. Vol. Osmolality
ECF Expansion
Isotonic IncN N Water and Na retention –Edema-2̊Cardiac failure
2̊ Hyper-aldosteronismdue to hypoalbunemia.
Hypertonic IncDec IncNa retention due to excess mineralocorticoid –
cushing’ssyndrome or conn’ssyndrome
Hypotonic IncIncDec water retention due to ADH excess or
Glomerular dysfuncion
Volume ECF ICF Conditions
Disorder Vol. Vol. Osmolality
ECF Contraction
Isotonic Dec N Normal loss of Na & water
common cause –loss of GIT fluid
SI obstruction, SI fistulae, paralytic ileus
Hypertonic Dec Dec Increased water depletion
Diarrhea –Commonest cause
Diabetes insipidus-rare
Hypotonic Dec Inc Decreased sodium depletion
infusion of IV fluids with low Na-dextrose
aldosterone deficiency-Addison’s disease
Volume ECF ICF Conditions
Disorder Vol. Vol. Osmolality
Isotonic Dec N Normal loss of Na & water
common cause –loss of GIT fluid
SI obstruction, SI fistulae, paralytic ileus
Hypertonic Dec Dec Increased water depletion
Diarrhea –Commonest cause
Diabetes insipidus-rare
Hypotonic Dec Inc Decreased sodium depletion
infusion of IV fluids with low Na-dextrose
aldosterone deficiency-Addison’s disease
Volume ECF ICF Conditions
Disorder Vol. Vol. Osmolality
•Dehydration •Fluid Overload
Dr. N. Sivaranjani 37
Dr. N. Sivaranjani 37
Dehydration/ water depletion
Pure (tissue) water loss –less common
Depletion of Na and water –more common
and hypovolemia to sodium loss and thus loss of blood volume.
Dr. N. Sivaranjani 38
Pure (tissue) water loss –less common
Depletion of Na and water –more common
and hypovolemia to sodium loss and thus loss of blood volume.
Dr. N. Sivaranjani 38
Causes of water depletion :
Decreased intake of water –
•Inadequate water supply
•Mechanical obstruction for drinking
•Impaired response of thirst center –Comatose patient
Increased loss of water –
•Increased renal loss of water –RTA, DI
•Increased loss of water from skin –Burns,
excessive sweating
•Increased loss through lungs –hyperventilation
•Increased loss of gut –vomiting,diarrhea
Dr. N. Sivaranjani 39
Decreased intake of water –
•Inadequate water supply
•Mechanical obstruction for drinking
•Impaired response of thirst center –Comatose patient
Increased loss of water –
•Increased renal loss of water –RTA, DI
•Increased loss of water from skin –Burns,
excessive sweating
•Increased loss through lungs –hyperventilation
•Increased loss of gut –vomiting,diarrhea
Dr. N. Sivaranjani 39
Earliest Detectable Signs
low BP
Dry skin and mucous membranes
Sunken eye balls, fontanels
Circulatory Failure (coolness, mottling of
extremities)
Loss of skin elasticity
Delayed cap refill
lethargy , confusion and coma
Dr. N. Sivaranjani 40
low BP
Dry skin and mucous membranes
Sunken eye balls, fontanels
Circulatory Failure (coolness, mottling of
extremities)
Loss of skin elasticity
Delayed cap refill
lethargy , confusion and coma
Dr. N. Sivaranjani 40
Skin turgorassessment –this
assessment can be done on the forearm.
Skin that does not flatten immediately
after release is called “tenting”, an
example of fluid volume deficit.
Dry and cracked lips
Sunken eyes
Thirstand
discomfort
Dr. N. Sivaranjani 41
assessment can be done on the forearm.
Skin that does not flatten immediately
after release is called “tenting”, an
example of fluid volume deficit.
Dry and cracked lips
Sunken eyes
Thirstand
discomfort
Dr. N. Sivaranjani 41
Loss of Skin
Elasticity due
to dehydration
Dr. N. Sivaranjani 42
Elasticity due
to dehydration
Dr. N. Sivaranjani 42
Dr. N. Sivaranjani 43
Manifestations of ECF Deficit (Dehydration)
Signs & Symptoms
Weight loss
Blood pressure drop
Delayed capillary refill
Oliguria
Sunken fontanel
Decreased skin turgor
Physiologic Basis
Decreased fluid vol.
Inadequate circ. Blood
Decreased vascular volume
Inadequate kidney circ.
Decreased fluid volume
Decreased interstitial fluid
Dr. N. Sivaranjani 44
Signs & Symptoms
Weight loss
Blood pressure drop
Delayed capillary refill
Oliguria
Sunken fontanel
Decreased skin turgor
Physiologic Basis
Decreased fluid vol.
Inadequate circ. Blood
Decreased vascular volume
Inadequate kidney circ.
Decreased fluid volume
Decreased interstitial fluid
Dr. N. Sivaranjani 44
Degrees of Dehydration
Mild Moderate Severe
Fluid Vol loss<50ml/kg 50-90ml/kg >100 ml/kg
Skin Color Pale Gray Mottled
Skin ElasticityDecreased Poor Very Poor
M.M. Dry Very Dry Parched
U.O. Decreased Oliguria Marked
Oliguria
BP Normal Normal or
lowered
Lowered
Pulse Normal or
Increased
Increased Rapid,
thready
Dr. N. Sivaranjani 45
Mild Moderate Severe
Fluid Vol loss<50ml/kg 50-90ml/kg >100 ml/kg
Skin Color Pale Gray Mottled
Skin ElasticityDecreased Poor Very Poor
M.M. Dry Very Dry Parched
U.O. Decreased Oliguria Marked
Oliguria
BP Normal Normal or
lowered
Lowered
Pulse Normal or
Increased
Increased Rapid,
thready
Dr. N. Sivaranjani 45
Biochemical finding :
plasma sodium –increased
urine volume –decreased
urine concentrated
Treatment :
Aim -Expand ECF volume and improve circulatory
and renal function
plenty of water
Treatment of underlying causes
Replacement of fluid deficit –
5% dextrose
plasma sodium –increased
urine volume –decreased
urine concentrated
Treatment :
Aim -Expand ECF volume and improve circulatory
and renal function
plenty of water
Treatment of underlying causes
Replacement of fluid deficit –
5% dextrose
Water intoxication / water excess /over hydration
predominant water excess
Decrease in serum Na+
Causes :
Excessive intake of water
Compulsive drinking of water –psychogenic polydypsia
Excessive administration of fluid through parental route
Impaired renal excretion of water
Severe renal failure
SIADH syndrome of inappropriate ADH
Drugs acting as vasopressin agonist
Dr. N. Sivaranjani 47
predominant water excess
Decrease in serum Na+
Causes :
Excessive intake of water
Compulsive drinking of water –psychogenic polydypsia
Excessive administration of fluid through parental route
Impaired renal excretion of water
Severe renal failure
SIADH syndrome of inappropriate ADH
Drugs acting as vasopressin agonist
Dr. N. Sivaranjani 47
SIADH–
Plasma hypo-osmolality
Normal renal , thyroid, adrenal function
Increased urine Na excretion
Dilutionalhyponatremia
Elevated serum ADH
Clinical features
Behavioral disturbances
Confusion
Headache
Muscle twitching
Convulsion
Coma
Plasma hypo-osmolality
Normal renal , thyroid, adrenal function
Increased urine Na excretion
Dilutionalhyponatremia
Elevated serum ADH
Clinical features
Behavioral disturbances
Confusion
Headache
Muscle twitching
Convulsion
Coma
Biochemical finding :
plasma sodium –decreased
decreased plasma osmolality
urine dilated
Treatment :
Treatment of underlying causes
Fluid restriction
SIADH –vasopressin antagonist
plasma sodium –decreased
decreased plasma osmolality
urine dilated
Treatment :
Treatment of underlying causes
Fluid restriction
SIADH –vasopressin antagonist
50
Edema
the accumulation of fluid within the interstitial space
Causes:
•increased hydrostatic pressure
•venous obstruction, lymphedema, CHF, renal failure
•lowered plasma osmotic pressure (protein loss)
•liver failure, malnutrition, burns
•increased capillary membrane permeability
•Inflammation, sepsis
Dr. N. Sivaranjani
Edema
the accumulation of fluid within the interstitial space
Causes:
•increased hydrostatic pressure
•venous obstruction, lymphedema, CHF, renal failure
•lowered plasma osmotic pressure (protein loss)
•liver failure, malnutrition, burns
•increased capillary membrane permeability
•Inflammation, sepsis
Dr. N. Sivaranjani
Dr. N. Sivaranjani
51
51
Tags
Categories
GeneralDownload
Download Slideshow Get the original presentation fileQuick Actions
Statistics
- Views 38,191
- Slides 51
- Favorites 53
- Age 3147 days
Related Slideshows
22
Pray For The Peace Of Jerusalem and You Will Prosper
RodolfoMoralesMarcuc
33 views
26
Don_t_Waste_Your_Life_God.....powerpoint
chalobrido8
36 views
31
VILLASUR_FACTORS_TO_CONSIDER_IN_PLATING_SALAD_10-13.pdf
JaiJai148317
33 views
14
Fertility awareness methods for women in the society
Isaiah47
30 views
35
Chapter 5 Arithmetic Functions Computer Organisation and Architecture
RitikSharma297999
29 views
5
syakira bhasa inggris (1) (1).pptx.......
ourcommunity56
30 views