Homeostasis and Cellular Response
Fluid and electrolyte balance
o Albumin is the major solute in the bloodstream.
o Major Solutes in body
the major solutes are albumin, sodium (Na+), potassium (K+), phosphate
(PO4−), magnesium (Mg++), calcium (Ca++), bicarbonate (HCO3−), and
glucose.
Magnesium plays an important role in enzymatic systems within the body
Calcium plays an important role in neuromuscular irritability, blood
clotting, and bone structure.
Bicarbonate is responsible for acid–base balance.
o Body fluid = solvent
Main functions of electrolytes, solutes and protein is to carry waste and
deliver nutrients and electrolytes to cells
o Intracellular Fluid
40% of total body weight
K+ is the major ion
Phosphate is an intracellular negative ion (anion)
o Extracellular Fluid
20% of total body weight in an adult
Most found in blood vessels
Contains electrolytes, oxygen, glucose, and other nutrients to be
delivered to cells, as well as cellular waste products
Na+ is major ion
o Interstitial fluid
Filtrate of blood
Located between cells and between cells and capillaries
contains water and electrolytes, mainly sodium (Na+)
o Hydrostatic pressure (PUSH)
the pushing force exerted by water in the bloodstream.
heart’s pulsatile pumping action is the source of hydrostatic pressure
o Diffusion
molecules passively spread from areas of high concentration to areas of
low concentration.
o Osmosis
molecules of a solvent to pass through a semipermeable membrane from
a less concentrated solution into a more concentrated one
o Osmotic pressure (PULL)
the pressure exerted by the solutes in solution
exerted by electrolytes, mainly sodium ions and plasma proteins
pulls water into the bloodstream from the ICF and ISF and opposes
hydrostatic pressure at all capillary membranes
, Homeostasis and Cellular Response
determined by the number of particles or their concentration within the
solution.
A solution with a greater number of particles has a higher osmotic
pressure.
Decrease is osmotic pressure = fluid moving OUT of the blood vessels in
to the ISF
High osmotic pressure = fluid movement from ICF and ISF INTO the blood
stream
Oncotic Pressure aka colloidal osmotic pressure
a type of osmotic pressure exerted specifically by albumin in the
bloodstream
Albumin attracts water and helps keep it inside the blood vessel
o Albumin Range 3.1-4.3
With reduced albumin, the oncotic pressure is low and the force
exerted by hydrostatic pressure overwhelms the oncotic
pressure edema, hypotension due to H2O not being in
circulation water is in ISF and ICF
o Osmolality
a measurement of the concentration of solutes per kg of solvent
Normal plasma osmolality is 282 to 295 milliosmoles
o Starlings Law of Capillary Forces
osmotic pressure pulls water from the ICF into the ECF at every cell–
capillary interface.
The osmotic pressure opposes the hydrostatic pressure; in healthy
conditions, each force balances out the other.
when osmotic pressure is lower than hydrostatic pressure, osmotic
pressure is overwhelmed and hydrostatic pressure is an unopposed force,
causing water to flow from the ECF to the ICF
o Tonicity he concentration of solutes in solution compared with the
bloodstream, also used to describe the various intravenous (IV) solutions
Isotonic 0.9% NaCl
Hypotonic 0.45% NaCl (half normal saline)
Hypertonic 3.0% NaCl, Mannitol
o Osmoreceptors, ADH, and thirst.
Changes in plasma osmolarity are responsible for both the sensation of
thirst and the release of ADH
High plasma osmolarity stimulates osmoreceptors in the hypothalamus
ADH released from Posterior Pituitary
osmoreceptors respond to changes in both blood osmolarity and blood
fluid volume.
When there is an increase in blood osmolarity, ICF shifts into ECF and the
cells shrink
ADH stimulates water reabsorption from the nephron tubule fluid at the
collecting duct into the bloodstream.
Fluid and electrolyte balance
o Albumin is the major solute in the bloodstream.
o Major Solutes in body
the major solutes are albumin, sodium (Na+), potassium (K+), phosphate
(PO4−), magnesium (Mg++), calcium (Ca++), bicarbonate (HCO3−), and
glucose.
Magnesium plays an important role in enzymatic systems within the body
Calcium plays an important role in neuromuscular irritability, blood
clotting, and bone structure.
Bicarbonate is responsible for acid–base balance.
o Body fluid = solvent
Main functions of electrolytes, solutes and protein is to carry waste and
deliver nutrients and electrolytes to cells
o Intracellular Fluid
40% of total body weight
K+ is the major ion
Phosphate is an intracellular negative ion (anion)
o Extracellular Fluid
20% of total body weight in an adult
Most found in blood vessels
Contains electrolytes, oxygen, glucose, and other nutrients to be
delivered to cells, as well as cellular waste products
Na+ is major ion
o Interstitial fluid
Filtrate of blood
Located between cells and between cells and capillaries
contains water and electrolytes, mainly sodium (Na+)
o Hydrostatic pressure (PUSH)
the pushing force exerted by water in the bloodstream.
heart’s pulsatile pumping action is the source of hydrostatic pressure
o Diffusion
molecules passively spread from areas of high concentration to areas of
low concentration.
o Osmosis
molecules of a solvent to pass through a semipermeable membrane from
a less concentrated solution into a more concentrated one
o Osmotic pressure (PULL)
the pressure exerted by the solutes in solution
exerted by electrolytes, mainly sodium ions and plasma proteins
pulls water into the bloodstream from the ICF and ISF and opposes
hydrostatic pressure at all capillary membranes
, Homeostasis and Cellular Response
determined by the number of particles or their concentration within the
solution.
A solution with a greater number of particles has a higher osmotic
pressure.
Decrease is osmotic pressure = fluid moving OUT of the blood vessels in
to the ISF
High osmotic pressure = fluid movement from ICF and ISF INTO the blood
stream
Oncotic Pressure aka colloidal osmotic pressure
a type of osmotic pressure exerted specifically by albumin in the
bloodstream
Albumin attracts water and helps keep it inside the blood vessel
o Albumin Range 3.1-4.3
With reduced albumin, the oncotic pressure is low and the force
exerted by hydrostatic pressure overwhelms the oncotic
pressure edema, hypotension due to H2O not being in
circulation water is in ISF and ICF
o Osmolality
a measurement of the concentration of solutes per kg of solvent
Normal plasma osmolality is 282 to 295 milliosmoles
o Starlings Law of Capillary Forces
osmotic pressure pulls water from the ICF into the ECF at every cell–
capillary interface.
The osmotic pressure opposes the hydrostatic pressure; in healthy
conditions, each force balances out the other.
when osmotic pressure is lower than hydrostatic pressure, osmotic
pressure is overwhelmed and hydrostatic pressure is an unopposed force,
causing water to flow from the ECF to the ICF
o Tonicity he concentration of solutes in solution compared with the
bloodstream, also used to describe the various intravenous (IV) solutions
Isotonic 0.9% NaCl
Hypotonic 0.45% NaCl (half normal saline)
Hypertonic 3.0% NaCl, Mannitol
o Osmoreceptors, ADH, and thirst.
Changes in plasma osmolarity are responsible for both the sensation of
thirst and the release of ADH
High plasma osmolarity stimulates osmoreceptors in the hypothalamus
ADH released from Posterior Pituitary
osmoreceptors respond to changes in both blood osmolarity and blood
fluid volume.
When there is an increase in blood osmolarity, ICF shifts into ECF and the
cells shrink
ADH stimulates water reabsorption from the nephron tubule fluid at the
collecting duct into the bloodstream.
