Body fluids are primarily composed of water. Water moves between intracellular and extracellular fluid compartments via osmosis in response to concentrations of solutes like sodium, potassium, and chloride. Fluid balance is maintained through ingestion of water and transport mechanisms like sodium-potassium pumps and ion channels that regulate the movement of ions and water between compartments and aid in acid-base balance. Imbalances in electrolytes like sodium can disrupt this balance and cause health issues.
It is an essential mechanism involved in fluid balance. It arises from a lack of fluids or an increase in the concentration of certain osmolites, such as salt. If the water volume of the body falls below a certain threshold or the osmolyte concentration becomes too high, the brain signals thirst
It is an essential mechanism involved in fluid balance. It arises from a lack of fluids or an increase in the concentration of certain osmolites, such as salt. If the water volume of the body falls below a certain threshold or the osmolyte concentration becomes too high, the brain signals thirst
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The Indian Dental Academy is the Leader in continuing dental education , training dentists in all aspects of dentistry and
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it's very nice to me for preparing this presentation for medical student who interesting to understanding the value of body fluid and how it's regulated
Professor Mridul M. Panditrao, deals with this basic, complicated but very important topic for not only post- graduates but also for under-graduates. Various complicated issues have been discussed in detail, mainly from clinical point of view.
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2024.06.01 Introducing a competency framework for languag learning materials ...Sandy Millin
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Published classroom materials form the basis of syllabuses, drive teacher professional development, and have a potentially huge influence on learners, teachers and education systems. All teachers also create their own materials, whether a few sentences on a blackboard, a highly-structured fully-realised online course, or anything in between. Despite this, the knowledge and skills needed to create effective language learning materials are rarely part of teacher training, and are mostly learnt by trial and error.
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This webinar will introduce you to my framework, highlighting the key competencies I identified from my research. It will also show how anybody involved in language teaching (any language, not just English!), teacher training, managing schools or developing language learning materials can benefit from using the framework.
June 3, 2024 Anti-Semitism Letter Sent to MIT President Kornbluth and MIT Cor...Levi Shapiro
Letter from the Congress of the United States regarding Anti-Semitism sent June 3rd to MIT President Sally Kornbluth, MIT Corp Chair, Mark Gorenberg
Dear Dr. Kornbluth and Mr. Gorenberg,
The US House of Representatives is deeply concerned by ongoing and pervasive acts of antisemitic
harassment and intimidation at the Massachusetts Institute of Technology (MIT). Failing to act decisively to ensure a safe learning environment for all students would be a grave dereliction of your responsibilities as President of MIT and Chair of the MIT Corporation.
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• The Committee on Education and the Workforce has been investigating your institution since December 7, 2023. The Committee has broad jurisdiction over postsecondary education, including its compliance with Title VI of the Civil Rights Act, campus safety concerns over disruptions to the learning environment, and the awarding of federal student aid under the Higher Education Act.
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2. WaterWater
Body fluid is composed primarily of waterBody fluid is composed primarily of water
Water is theWater is the solventsolvent in which all solutes in the body arein which all solutes in the body are
either dissolved or suspendedeither dissolved or suspended
An average male has 60-63% of his body weight asAn average male has 60-63% of his body weight as
waterwater
An average female has 45-52%, due to extra body fatAn average female has 45-52%, due to extra body fat
Infants are 80% water, and this decreases as a childInfants are 80% water, and this decreases as a child
grows until about age 8.grows until about age 8.
3. Key concepts involving waterKey concepts involving water
Body water is contained in two major bodyBody water is contained in two major body
compartmentscompartments (intracellular fluid compartment and(intracellular fluid compartment and
extracellular fluid compartment)extracellular fluid compartment)
Fluid balance is maintained when input and output areFluid balance is maintained when input and output are
equalequal
TheThe primary source of intakeprimary source of intake is water ingestion (eatingis water ingestion (eating
and drinking)and drinking)
In addition, digestion and metabolism of carbohydrates,In addition, digestion and metabolism of carbohydrates,
proteins, and fats provides another source of intakeproteins, and fats provides another source of intake
5. CompartmentsCompartments
Intracellular fluid (ICF) represents theIntracellular fluid (ICF) represents the fluidfluid
inside the cells and is the largestinside the cells and is the largest compartmentcompartment
(2/3 of body water)(2/3 of body water)
Extracellular fluid (ECF) represents the fluidExtracellular fluid (ECF) represents the fluid
outside the cells and is 1/3 of total.outside the cells and is 1/3 of total.
ECF is further divided intoECF is further divided into interstitialinterstitial (ISF) and(ISF) and
is theis the plasma.plasma.
6. ECF divisionsECF divisions
ISF occupies the space between cells andISF occupies the space between cells and
consists of 15% of total body fluid or ¾ of ECFconsists of 15% of total body fluid or ¾ of ECF
Plasma is the fluid portion of the blood and isPlasma is the fluid portion of the blood and is
5% of total body fluid or ¼ of ECF5% of total body fluid or ¼ of ECF
7. BODY FLUIDS
ICF ECF
40% TBW 20% TBW
P IS
Distribution of Body Fluids
60-kg man
TBW = 0.6 x 60 kg = 36 L
ICF = 0.4 x 60 kg
= 24 L
ECF
= 12 L
3L 9L
9. The movement of molecules and ions both
between cell organelles and the cytosol and
between cytosol and extracellular fluid depends
on the properties of these membranes
Impermeable membrane - membrane though which
nothing can pass
Freely permeable membrane - any substance can pass
through it
Selectively permeable membrane - permits free passage of
some materials and restricts passage of others
Membrane Transport
10. Simple Diffusion
The movement of molecules from one location
to another as a result of their random thermal
motion is known as diffusion
Net movement of particles from area of high
concentration to area of low concentration
11. Membrane Permeability
Diffusion through lipid bilayer
Nonpolar, hydrophobic substances diffuse much
more rapidly across plasma membrane
Diffusion of Ions through channel proteins
water and charged hydrophilic solutes diffuse
through channel proteins; these are lipid insoluble
substances
Cells control permeability by regulating number
of channel proteins
12. Major characteristics of diffusion
pathways
Through lipid
Bilayer
Through protein
Channels
Use of integral
membrane protein
No Yes
Typical molecules
using pathway
Nonpolar Ions
Chemical
specificity
No Yes
13. Electric Forces and Ion Movement
Separation of electric charge across plasma
membrane known as membrane potential
The direction of ion flux across membranes
depend on:
Concentration difference
Electrical difference
These two driving forces known as
electrochemical gardient
14. Osmosis
The net diffusion of water across a membrane is
called osmosis
Most plasma membrane have permeability to
water.
A group of membrane protein known as
aquaporins form channel through which water
can diffuse
15. SolutesSolutes
Substances dissolved in a solution (sugar in your tea)Substances dissolved in a solution (sugar in your tea)
The addition of solute to water lowers theThe addition of solute to water lowers the
concentration of water in the solutionconcentration of water in the solution
The greater the solute concentration the lower the waterThe greater the solute concentration the lower the water
concentrationconcentration
It does not depend on chemical natureIt does not depend on chemical nature
A molecule that ionizes in solution decreases the waterA molecule that ionizes in solution decreases the water
concentration in proportion to the number of ionconcentration in proportion to the number of ion
formed.formed.
16. Osmolarity
The total concentration of a solution is known
as osmolarity.
It determine the water concentration in the
solution. Higher osmolarity lower water
concentration.
Osmotic pressure is the pressure that must be
applied to the solution to prevent net flow of
water.
17. Isotonic : A solution containing 300 mOsmol/L
of non penetrating solutes,
18. SolutesSolutes
Substances dissolved in a solution (sugar in your tea)Substances dissolved in a solution (sugar in your tea)
These may be electrolytes or non-electrolytesThese may be electrolytes or non-electrolytes
ElectrolytesElectrolytes have anhave an electrical chargeelectrical charge when they arewhen they are
dissolved in waterdissolved in water
Electrolytes that have aElectrolytes that have a positive chargepositive charge are calledare called
cationscations
Electrolytes withElectrolytes with negative charge are anionsnegative charge are anions
19. Diffusion Summary
Diffusion is the movement of molecule from
one location to another by random thermal
motion
The net flux between the two compartments
always proceed from higher to lower
concentration
Diffusion equilibirum is reached when the two
concentration become equal
20. Nonpolar molecule diffuse rapidly than do polar or
ionized molecules
Mineral ions diffuse across membranes by passing
through ion channels formed by integral proteins
Diffusion of ions across membrane depends on both
concentration difference and the membrane potential.
The flux of ions across a membrane can be altered by
opening and closing ion channels
Diffusion Summary
21. Osmosis Summary
Water crosses membranes by (1) diffusion
through lipid by layer and (2) diffusing through
protein channels in the membrane
Osmosis is the diffusion of water from higher
water concentration to lower water
concentration. Osmolarity total solute
concentration in the solution. The higher
osmolarity of a solution the lower the water
concentration.
22. Osmosis across membrane permeable to water
but impermeable to solute leads to increase
volume in the compartment that initially had
higher osmolarity.
Application to a solution of sufficient pressure
will prevent the osmotic flow of water into the
solution from the compartment of pure water.
This pressure is osmotic pressure.
Osmosis Summary
25. Permeable to water,
Not permeable to solutes
Presence of a membrane
Impermeable to solute
That leads to the volume
Changes associated with
Osmosis.
26. Osmotic Pressure
The greater the osmolarity, the greater its
osmotic pressure.
The lower the water concentration, the higher
the osmotic pressure.
27. Tonicity
Describes the behavior of a cell when it is placed
in a solution
Depends not only on the number of particles in
solution, but also on the NATURE of the solute
28. Tonicity
Describes the behavior of a cell when it is placed
in a solution
Depends not only on the number of particles in
solution, but also on the NATURE of the solute
30. -osmotic vs. -tonic
Example: 1L solution containing 300 mOsm of
non-penetrating NaCl and 100 mOsm of urea,
which can cross the membrane would have a
total osmolarity of 400 mOsm and would be
hyperosmotic. However, it would be an isotonic
solution producing no change in the equilibrium
volume of cells immersed in it.
31. Therapies Based on Two Basic
Principles
Water moves rapidly across cell membranes:
Osmolarities of ICF and ECF remain almost
exactly equal
Cell membranes are almost completely
impermeable to many solutes: the number of
osmoles in the ECF or ICF remains constant
unless solutes are added or lost from the ECF
compartment
40. Secondary active transport properties
Active (energy from ion gradient, usually Na+
)
Carrier mediated
Can be cotransport (symport) or countertransport (antiport)
Examples (many):
Na+
/amino acids, Na+
/glucose (luminal membrane kidney,
GI tract), *Na+
/H+
kidney, *Ca++
/3Na+
muscle,
*Cl-
/HCO3
-
red cell. (* = countertransport)
Kinetics
see primary active transport graphs
41. Sodium Reabsorption: Primary ActiveSodium Reabsorption: Primary Active
TransportTransport
SodiumSodium reabsorption is almost always byreabsorption is almost always by active transportactive transport
NaNa++
enters the tubule cells at the luminal membraneenters the tubule cells at the luminal membrane
Is actively transported out of the tubules by aIs actively transported out of the tubules by a
NaNa++
-K-K++
ATPase pumpATPase pump
From there it moves to peritubular capillaries due to:From there it moves to peritubular capillaries due to:
Low hydrostatic pressureLow hydrostatic pressure
High osmotic pressure of the bloodHigh osmotic pressure of the blood
NaNa++
reabsorption provides the energy and the means for reabsorbingreabsorption provides the energy and the means for reabsorbing
most other solutesmost other solutes
42. Electrolytes-SodiumElectrolytes-Sodium
MajorMajor cation in ECFcation in ECF (positively charged)(positively charged)
Responsible forResponsible for 90-9590-95% of extracellular osmotic% of extracellular osmotic
pressurepressure
Regulated byRegulated by aldosterone and the kidneysaldosterone and the kidneys
Increases sodium reabsorption in DCT of nephronIncreases sodium reabsorption in DCT of nephron
Also regulates K+ (secretion)Also regulates K+ (secretion)
Normal serum concentration in ECF rangesNormal serum concentration in ECF ranges
from 135-146 mEq/Lfrom 135-146 mEq/L
43. Sodium FunctionsSodium Functions
Sodium maintains ECF osmolality, ECF volume,Sodium maintains ECF osmolality, ECF volume,
andand influences water distributioninfluences water distribution (where salt(where salt
goes water follows)goes water follows)
It affects the concentration, secretion, andIt affects the concentration, secretion, and
adsorption of potassium and chloride ions, andadsorption of potassium and chloride ions, and
can combine with bicarbonate ions and chloridecan combine with bicarbonate ions and chloride
ions to help regulate acid/base balanceions to help regulate acid/base balance
It also help aid the impulse transmission ofIt also help aid the impulse transmission of
nerve and muscle fibersnerve and muscle fibers
44. Sodium Recycling: Recycling andSodium Recycling: Recycling and
ExcretionExcretion
Ascending loop of HenleAscending loop of Henle
HH22O impermeableO impermeable
NaNa++
Active TransportActive Transport
To ECFTo ECF
GradientGradient
Diffuses to bloodDiffuses to blood
Collecting Duct:Collecting Duct:
Aldosterone regulatesAldosterone regulates
NaNa++
recycled or excretedrecycled or excreted
45. Aldosterone: steroid H from adrenal cortexAldosterone: steroid H from adrenal cortex
Stimulates NaStimulates Na++
uptake (& Kuptake (& K++
secretion)secretion)
↑↑ channel synthesischannel synthesis
Mechanism of NaMechanism of Na++
Selective Reabsorption inSelective Reabsorption in
Collecting DuctCollecting Duct
46. Mechanism of NaMechanism of Na++
Selective Reabsorption inSelective Reabsorption in
Collecting DuctCollecting Duct
Figure 20-12: Aldosterone action in principal cells
47. ImbalancesImbalances
HyponatremiaHyponatremia (less than 130 mEq/L)-low sodium(less than 130 mEq/L)-low sodium
level-may cause seizures, headache, tachycardia,level-may cause seizures, headache, tachycardia,
hypotension, cramps, muscle twitching, irritability,hypotension, cramps, muscle twitching, irritability,
decreased body temp, nausea, vomiting, and possibledecreased body temp, nausea, vomiting, and possible
coma (polyuria due to diabetes insipidis may be onecoma (polyuria due to diabetes insipidis may be one
cause),cause),
HypernatremiaHypernatremia (more than 150 mEq/L) -high sodium(more than 150 mEq/L) -high sodium
level-usually indicates water deficit in ECF-symptomslevel-usually indicates water deficit in ECF-symptoms
include thirst, tachycardia, dry sticky tongue,include thirst, tachycardia, dry sticky tongue,
disorientation, hallucination, lethargy, seizures, coma,disorientation, hallucination, lethargy, seizures, coma,
hypotension, agitation, low feverhypotension, agitation, low fever
56. Acid/Base BalanceAcid/Base Balance
Homeostasis of hydrogen ion contentHomeostasis of hydrogen ion content
Body fluids are classified as either acids or basesBody fluids are classified as either acids or bases
depending on H ion concentrationdepending on H ion concentration
Acid is an H donorAcid is an H donor and elevates the hydrogen ionand elevates the hydrogen ion
content of the solution to which it is addedcontent of the solution to which it is added
Base is an H acceptorBase is an H acceptor and can bind hydrogen ionsand can bind hydrogen ions
Concentration is expressed asConcentration is expressed as pHpH
Normal pH of blood is 7.35-7.45Normal pH of blood is 7.35-7.45 (alkaline)(alkaline)
pH below 6.8 or above 7.8 is incompatible with lifepH below 6.8 or above 7.8 is incompatible with life
57. AcidsAcids
During the process of cellular metabolism acids areDuring the process of cellular metabolism acids are
continually being formed and excess hydrogen ionscontinually being formed and excess hydrogen ions
must be eliminatedmust be eliminated
There are two types of acids formed: volatile acids areThere are two types of acids formed: volatile acids are
excreted by the lungs and nonvolatile acids are excretedexcreted by the lungs and nonvolatile acids are excreted
by the kidneyby the kidney
Volatile acids can be excreted from the body as gas.Volatile acids can be excreted from the body as gas.
Carbonic acid produced by the hydration of carbonCarbonic acid produced by the hydration of carbon
dioxidedioxide is a volatile acidis a volatile acid
Normally carbon dioxide is excreted by the lungs as fastNormally carbon dioxide is excreted by the lungs as fast
as metabolism produces it, so carbonic acid isas metabolism produces it, so carbonic acid is notnot
allowed to accumulateallowed to accumulate and alter pHand alter pH
58. Non-volatile acidsNon-volatile acids
Cannot be eliminated by the lungs and must beCannot be eliminated by the lungs and must be
eliminated by the kidneyseliminated by the kidneys
All metabolic acids except carbolic are non-All metabolic acids except carbolic are non-
volatile acidsvolatile acids
These include sulfuric acid, phosphoric acid,These include sulfuric acid, phosphoric acid,
lactic acid, ketoacids like acetoacetic acid andlactic acid, ketoacids like acetoacetic acid and
beta hydroxybutyric acid, and small amounts ofbeta hydroxybutyric acid, and small amounts of
other inorganic and organic acidsother inorganic and organic acids
59. Regulation of pHRegulation of pH
Three methods control pHThree methods control pH
1.1. chemical buffers-whenchemical buffers-when Hydrogen is removedHydrogen is removed
a buffer replaces ita buffer replaces it
2.2. regulation of carbon dioxideregulation of carbon dioxide by respiratoryby respiratory
systemsystem
3.3. regulation of plasma bicarbonateregulation of plasma bicarbonate
concentration by the kidneys-slower, secondconcentration by the kidneys-slower, second
line of defenseline of defense
60. Chemical buffersChemical buffers
These areThese are the first line of defensethe first line of defense againstagainst
changes in pHchanges in pH
Act within a fraction of a second forAct within a fraction of a second for immediateimmediate
defensedefense against H+ shiftagainst H+ shift
These are a mixture of 2 or more chemicals thatThese are a mixture of 2 or more chemicals that
minimize changes in pHminimize changes in pH
Convert strong acids into weak acids and strongConvert strong acids into weak acids and strong
bases into weak basesbases into weak bases
61. Buffers continuedBuffers continued
Carbonic acid-bicarbonate system isCarbonic acid-bicarbonate system is most importantmost important
extracellular bufferextracellular buffer because it can be regulated by bothbecause it can be regulated by both
lungs and kidneyslungs and kidneys
Carbonic acid/bicarbonate ratio is usually 1:20Carbonic acid/bicarbonate ratio is usually 1:20
COCO22 + H+ H22O↔HO↔H22 COCO33 ↔H↔H++
+ HCO+ HCO33
--
Phosphates act as a buffer like the bicarbonate systemPhosphates act as a buffer like the bicarbonate system
does and protein buffers are the most abundant buffersdoes and protein buffers are the most abundant buffers
in body cells and bloodin body cells and blood
62. Regulation of pH through kidneysRegulation of pH through kidneys
Tubular secretion of H+ from convoluted tubules andTubular secretion of H+ from convoluted tubules and
collecting ducts so extra is excreted in urinecollecting ducts so extra is excreted in urine
Helps regulate sulfuric acid and phosphoric acid, andHelps regulate sulfuric acid and phosphoric acid, and
other organic acids in body fluids as a result ofother organic acids in body fluids as a result of
metabolismmetabolism
Diets high in protein generate more acid, so kidneysDiets high in protein generate more acid, so kidneys
respond by secreting more hydrogen ion. (Atkins Diet)respond by secreting more hydrogen ion. (Atkins Diet)
In urine, hydrogen ion is buffered by phosphate andIn urine, hydrogen ion is buffered by phosphate and
ammoniaammonia
64. HH++
& NH& NH44
++
secreted into lumen and excretedsecreted into lumen and excreted
HCOHCO33
--
is reabsorbedis reabsorbed
Kidney Hydrogen Ion Balancing: ProximalKidney Hydrogen Ion Balancing: Proximal
TubuleTubule
65. Kidney Hydrogen Ion Balancing: Proximal TubuleKidney Hydrogen Ion Balancing: Proximal Tubule
Figure 20-21: Proximal tubule secretion and reabsorption of filtered HCO3
-
66. Type A Intercalated cells excrete HType A Intercalated cells excrete H++
absorb HCOabsorb HCO33
--
Type B intercalated cells absorb HType B intercalated cells absorb H++
secrete HCOsecrete HCO33
--
Kidney Hydrogen Ion Balancing: CollectingKidney Hydrogen Ion Balancing: Collecting
DuctDuct
67. Kidney Hydrogen Ion Balancing: CollectingKidney Hydrogen Ion Balancing: Collecting
DuctDuct
Figure 20-22: Role of the intercalated cell in acidosis and alkalosis
68. AmmoniaAmmonia
Ammonia (NH3) is a weak base produced inAmmonia (NH3) is a weak base produced in
cells of renal tubule by removal of amine groupcells of renal tubule by removal of amine group
from some amino acidsfrom some amino acids (deamination)(deamination)
It diffuses into the tubule and accepts hydrogenIt diffuses into the tubule and accepts hydrogen
ions to become NH4+ which is trapped in theions to become NH4+ which is trapped in the
tubule and excretedtubule and excreted
69. SummarySummary
Electrolyte balance depends on integration of circulatory,Electrolyte balance depends on integration of circulatory,
excretory and behavioral physiologyexcretory and behavioral physiology
Water recycling and ECF/plasma balance depends onWater recycling and ECF/plasma balance depends on
descending loop of Henle and vasopressin regulateddescending loop of Henle and vasopressin regulated
collecting duct for conservationcollecting duct for conservation
Osmolarity depends on aldosterone and angiotensin pathwayOsmolarity depends on aldosterone and angiotensin pathway
to regulate CNS & endocrine responsesto regulate CNS & endocrine responses
Along with respiration, proximal tubule and collecting ductAlong with respiration, proximal tubule and collecting duct
cells reabsorb or excrete Hcells reabsorb or excrete H++
& HCO& HCO33
--
to balance pHto balance pH