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Electrolyte Balance Pharmacology

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Body fluid is generally bounded by the membrane, and divided into the intracellular fluid and extracellular fluid. And then the extracellular fluid is separated into the plasma and extracellular fluid with the capillaries as boundary. For the normal adult, the body fluid accounts about 60% of the body weight, in which the intracellular fluid accounts 40%, plasma 5%, and intercellular fluid 15%.

The solute in body fluid can be divided into two types : electrolyte and non-electrolyte. The non-electrolytic includes glucose and urea, while the electrolytes mainly contains cations like Na+, K+, Ca2+, Mg2+ and anions such as Cl-, HCO3-, HPO42-. There is a significant electrolyte distributed differences in and out of the cells. The extracellular fluid represented by the plasma mainly contains cations Na+, and anions Cl-, HCO3-.In the intracellular fluid ,the cations are mainly the K + and followed by the Mg2+, and the anions are mostly HPO42- and protein. The Na+-K+-ATP enzyme on the cell membrane can continue to pump the Na+ out of the cell, and the K+ into the cell, which is powered by the ATP.

The Na+ balance in and out of the cells needs 1 hour, and in the body takes 24 hours; while the K + requires 15 hours to reach the equilibrium between the inside and outside of the cells, and the equilibration time of the sick should be extended: the cardiopath needs 45 hours to reach the equilibrium. In addition, the cell entry of the K+ is accompanied by the addition of the glycogen and protein synthesis, otherwise the K+ escape from the cells. Therefore, the one-off clinical measurement of the K+ can not accurately reflect its current levels in the body. The K+ inside the cells recover slowly, which normally takes 4-6 days to reach the equilibrium, and for the serious patients ,it needs 10 to 20 days or even longer time to make the K+ inside the cells corrected. So the supplement of the K+ should follow the principle of slowness, low-concentration and fewness. 

The main factors that determine the distribution of water between the body fluid is the body fluid osmolality. Osmolality is the attraction of the electrolyte and non-electrolyte solute particles to water. Normal osmotic pressure between plasma and cellular approximately equal to 280 ~ 320mmol / L. The solution that has equal osmolality with the plasma is called as the isotonic solution, and below or above this range is called as the hypotonic or hypertonic solution. Water can move from the hypotonic solution to the hypertonic solution through the cell membrane. Water and electrolyte disorder primarily affects the osmotic pressure and volume of the extracellular fluid. So the osmolality and volume changes of the body fluid are clinically calculated by the concentration change of the serum sodium, such as the sodium loses in proportion to the water for the isotonic water loss (dehydration); the loss of sodium is more than water for the hypotonic aqueous loss; the loss of water is more than sodium for the hypertonic dehydration.

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Structure:
Chemical Name:
Phytic acid
CAS:
83-86-3
MF:
C6H18O24P6
Structure:
Chemical Name:
1-Hydroxyethylidene-1,1-diphosphonic acid
CAS:
2809-21-4
MF:
C2H8O7P2
Structure:
Chemical Name:
Sodium acetate trihydrate
CAS:
6131-90-4
MF:
C2H9NaO5
Structure:
Chemical Name:
Calcium chloride
CAS:
10043-52-4
MF:
CaCl2
Structure:
Chemical Name:
Sodium chloride
CAS:
7647-14-5
MF:
NaCl
Structure:
Chemical Name:
Calcium gluconate
CAS:
299-28-5
MF:
C12H22CaO14
Structure:
Chemical Name:
Sodium acetate
CAS:
127-09-3
MF:
C2H3NaO2
Structure:
Chemical Name:
Potassium chloride
CAS:
7447-40-7
MF:
ClK
Structure:
Chemical Name:
Potassium Acetate
CAS:
127-08-2
MF:
C2H3KO2
Structure:
Chemical Name:
chromium gluconate
MF:
C18H33CrO21
Chemical Name:
Salmon calcitonin
Structure:
Chemical Name:
Calcium acetate
CAS:
62-54-4
MF:
C4H6CaO4
Structure:
Chemical Name:
Pamidronate disodium salt
CAS:
57248-88-1
MF:
C3H12NNaO7P2
Structure:
Chemical Name:
Calcium hydroxide
CAS:
1305-62-0
MF:
CaH2O2
Structure:
Chemical Name:
Calcium lactate
CAS:
814-80-2
MF:
C3H8CaO3
Structure:
Chemical Name:
CALCIUM LEVULINATE
CAS:
591-64-0
MF:
C10H14CaO6
Structure:
Chemical Name:
Alendronic acid
CAS:
66376-36-1
MF:
C4H13NO7P2
Structure:
Chemical Name:
Ipriflavone
CAS:
35212-22-7
MF:
C18H16O3
Structure:
Chemical Name:
Etidronate disodium
CAS:
7414-83-7
MF:
C2H9NaO7P2
Structure:
Chemical Name:
CALCIUM IODIDE
CAS:
10031-31-9
MF:
CaH2I2O
Structure:
Chemical Name:
IBANDRONATE
MF:
C9H23NO7P2
Structure:
Chemical Name:
CLODRONIC ACID
CAS:
10596-23-3
MF:
CH4Cl2O6P2
Structure:
Chemical Name:
CALCIUM GLUCONATE MONOHYDRATE
CAS:
66905-23-5
MF:
C6H16CaO8
Structure:
Chemical Name:
Ibandronate sodium
CAS:
138844-81-2
MF:
C9H24NNaO7P2
Structure:
Chemical Name:
Calcium phytate
CAS:
3615-82-5
MF:
C6H22CaMgO24P6
Structure:
Chemical Name:
Calcium citrate tetrahydrate
CAS:
5785-44-4
MF:
C12H18Ca3O18
Structure:
Chemical Name:
Ibandronic acid
CAS:
114084-78-5
MF:
C9H23NO7P2
Structure:
Chemical Name:
Calcitonin
CAS:
9007-12-9
MF:
C145H240N44O48S2
Structure:
Chemical Name:
Alendronate sodium
CAS:
129318-43-0
MF:
C4H13NNaO7P2
Structure:
Chemical Name:
Calcium phosphate dibasic
CAS:
7757-93-9
MF:
CaHO4P
Structure:
Chemical Name:
Elcatonin
CAS:
60731-46-6
MF:
C148H244N42O47
Structure:
Chemical Name:
Pamidronic acid
CAS:
40391-99-9
MF:
C3H11NO7P2
Structure:
Chemical Name:
Calcitonin eel
CAS:
57014-02-5
MF:
C146H241N43O47S2
Structure:
Chemical Name:
PHYTIN
CAS:
7776-28-5
MF:
C6H6Ca6O24P6
Chemical Name:
CLODRONATE
Structure:
Chemical Name:
CALCIUM GLUCONATE MONOHYDRATE
CAS:
18016-24-5
MF:
C12H24CaO15
Chemical Name:
Active Calcium
Chemical Name:
PolystyreneSulronate
Chemical Name:
Oyster calcium
Structure:
Chemical Name:
Phosphoric acid, calcium salt (1:)
CAS:
10103-46-5
MF:
CaH5O4P