INFUSION AND ISOTONIC SOLUTIONS Author: as. Yu.Yu. Plaskonis
Injection dosage forms - a specific group of drugs that require special conditions of preparation, the strictest adherence to aseptic, technological discipline, full responsibility for the preparation, quality control and design to dispensing drugs.
Injection solutions are prepared in aseptic unit
Aseptic conditions - defined conditions, and complex institutional arrangements required to enable to save the drugs from getting into these microorganisms.
Technology process of preparation of solutions for injection consists of the following stages: Preparation of aseptic unit and the organization of work in aseptic conditions. Preparation of vessels and auxiliary materials. Preparation of solvents and drugs. dissolved drugs. stabilization or isotones solutions Quality control solutions. Filtering solutions to filling bottles, checking the absence of mechanical inclusions. closing, leak check, preparation for sterilization (marking). Sterilization. Quality control and design of drugs to leave.
Isotonic solutions are solutions, which have an osmolality, equal to the osmolality of liquids of organism (blood, plasma, lymph, tear liquid and ін,). Name Isotonic originates from the Greek words of isos - even, tonus -pressure. At introduction of solution with a high osmolality (hypertensive solution) as a result of difference of osmolalities into a cage or red corpuscles and surrounding plasma motion of water begins from red corpuscles to smoothing of osmolalities. Red corpuscles here, delivered part of water, lose the form (shrivel) - there is plasmolysis. If in an organism solution is entered with osmotic LP (low blood pressure solution), a liquid here will penetrate into a cage or red corpuscles. Red corpuscles begin to distend, and at a wide difference in osmolar pressure inwardly and out of cage a shell does not maintain pressure and torn - there is hemolysis.
Methods of calculating the isotonic concentration The method, based on equation Mendeleev-Clapeyron or law Van't Hoff The method, based on a law Raul (for cryoscopy constants ) The method of using isotonic equivalents by sodium chloride.
Expect the amount of glucose for isotones solution Rp.: Sol. Glucosi of 200 ml isotonicae Sterilisa! D.S. For intravenous introduction (Equivalent of glucose by sodium chloride - 0,18; depression of temperature of freezing of 1% solution - 0,1; М ,0).
Isotonic equivalent (E) of sodium chloride shows the amount of sodium chloride, which creates conditions identical osmotic pressure, osmotic pressure equal to 1.0 g of drug. The isotonic concentration of soluble-sodium of chloride is evened 0,9%. Solutions of medicinal matters in concentrations, which create osmotic pressure, even such to 0,9% soluble-sodium of chloride, also are isotonic. Е of glucose/sodium chloride = 0,18, (this amount shows, what amount of sodium of chloride creates in identical terms osmolality, equal to the osmolality 1,0 this substance). 0,18 sodium of chloride - 1,0 glucose 0,9 sodium of chloride - Х Х = (0,9 · 1,0) : 0,18 = 5,0 By the prescription glucose on 200 ml: 5, ml Х ml Х = 10,0 glucose of waterless
Calculation after depression of freezing temperature of solution: Δt - depression of freezing temperature of solution shows how many degrees Celsius reduces the freezing temperature of 1% solution compared to the freezing point of pure solvent Freezing point depression of serum 0,52. 1% - Δt X - 0,52 o C X= (0,52/ Δt) 1% Solutions of medicinal substances in a isotonic concentration must have the same depression of freezing temperature. Δt = 0,104 Δt = 0,104 0,52/ 0,104 = 5 % ml Х ml Х = 10,0.
Calculation after equalization of Mendeleyev - Klapeyron: PV=nRT P- plasma osmotic pressure (7.4 atm.) V- volume of solution, l R- gas constant (0.082) T- absolute temperature of the body (310) n- number of mole solute n= P*V/ R*T, n = m/ M, m = M*P*V/ R*T= M* 7,4/ 0,082* 310 m = 0,29* M
By prescription : m = 0,29 · 180,0 = 52,2 glucose of waterless on 1 l of solution, on 100 ml it is needed 5,22, that answers a isotonic concentration. Thus, on 200 ml of solution it is necessary to take a 10,44 glucose of waterless. For preparation of injection solutions and eye drops use glucose taking into account her actual humidity. A calculation is conducted after a formula: Х = (100 · а) : (100 - в), where and is an amount of glucose after the sample of writing; in is humidity of glucose. If humidity of glucose of 10%, then: Х = (100 · 10) : ( ) = 11,0
Plasma replacement solutions - it is solutions which after composition of permeates are able to support the vital functions of cages and organs and does not cause the substantial changes of physiology equilibrium in an organism.
1. Regulators of aquatic-salt and acid – base equilibrium (solutions of Ringer, Ringer- Lock, Lacto salt, Ace salt, Disalt, Three salt, Hlosalt, Quatro salt and other); salt solutions, Osmo diuretics. They carry out the correction of composition of blood at dehydration. 2. Homodynamic (against shock) blood substitutes (polyhybrid, reopolyglucin, dextrane). Intended for treatment of shock of different origin and proceeding in violations of hemodynamics, including. microcirculation, at the use of heart-lungs for breeding of blood during operations. 3. Detoxification blood substitutes (hemodez, polydez). Assist the leadingout of toxins at intoxications of different etiology. 4. Preparations for parenterally feed (hydrolizin, aminopeptid, polyaminum). Serve for providing of power resources of organism, delivery of nutritives to the organs and fabrics. 5. blood substitutes with the function of transfer of oxygen. Intended for proceeding in the respiratory function of blood. 6. blood substitutes of complex action. Have a wide range of action, can include a few groups of plasma replacementsolutions.
Osmolarity (osmolality) is a size of estimation of total payment of different permeates in the osmolality of solution. Unit of Osmolarity is osmol on a kilogram (osmol/kg), in practice unit of miliosmol is usually used on a kilogram (miliosmol/kg). Difference of Osmolarity from an osmolality in that at their calculation use different expressions of concentration of solutions : molar and molal. Osmolarity is an amount of osmol on 1 l of solution. An osmolality - is an amount of osmol on 1 kg of solvent. If there is not other pointing, an osmolality is determined by means of device of osmometer.
Rp.: Sol. Ringeri of 1000 ml Sterilisa! Sterilisa! D. S. For intravenous application. D. S. For intravenous application.
I. WCP (r.s.) sodium chloride 9,0 potassium chloride 0,2 solution calcium chloride 20% 0,2 х 5 = 1 ml II. WCP (r.s.) sodium chloride 9,0 potassium chloride 0,2 solution calcium chloride 20% 0,2 х 5 = 1 ml Water for injections 1000/2 = = 499 ml
WCP (f.s.) Date№ of recipe Natrii chloridi 9,0 Natrii chloridi 9,0 Kalii chloridi 0,2 Kalii chloridi 0,2 Sol. Calcii chloridi 20% 1 ml Sol. Calcii chloridi 20% 1 ml Aquae pro injectionibus ad 500 ml Aquae pro injectionibus ad 500 ml V = of 500 ml V = of 500 ml 100 ml № ml № 5 Sterilis Sterilis Prepared Prepared Checked Checked II. WCP (f.s.) Date№ of recipe Aquae pro injectionibus 499 ml Natrii chloridi 9,0 Kalii chloridi 0,2 Sol. Calcii chloridi 20% 1 ml V = of 500 ml 100 ml № 5 Sterilis Prepared Prepared Checked Checked