Isolyte M in Dextrose
 Isolyte P in Dextrose

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Isolyte M in Dextrose


Generic Name: Dextrose monohydrate, sodium acetate, sodium chloride, potassium chloride and potassium phosphate, dibasic
Dosage Form: Injection

Isolyte M in Dextrose Description

Each 100 mL of Isolyte M (Multi-Electrolyte Injection) in 5% Dextrose contains:
Hydrous Dextrose USP 5 g; Sodium Acetate Trihydrate USP 0.28 g
Potassium Chloride USP 0.15 g; Dibasic Potassium Phosphate USP 0.13 g
Sodium Chloride USP 0.091 g; Water for Injection USP qs

pH adjusted with Hydrochloric Acid NF
pH: 5.0 (4.0–6.0)   Calories per liter: 170
Calculated Osmolarity: 390 mOsmol/liter, hypertonic

Concentration of Electrolytes (mEq/liter): Sodium 36; Chloride 49; Potassium 35
Acetate (CH3COO-) 20; Phosphate (HPO) 15 (7.5 mmole P/liter)

Isolyte M in 5% Dextrose is sterile, nonpyrogenic, and contains no bacteriostatic or antimicrobial agents or added buffers. This product is intended for intravenous administration.

The formulas of the active ingredients are:

Ingredients Molecular
Formula
Molecular
Weight
Sodium Acetate Trihydrate USP CH3COONa•3H2O 136.08
Sodium Chloride USP NaCl   58.44
Potassium Chloride USP KCl   74.55
Dibasic Potassium Phosphate USP K2HPO4 174.18
Hydrous Dextrose USP
198.17

The EXCEL Container is Latex-free, PVC-free, and DEHP-free.

The plastic container is made from a multilayered film specifically developed for parenteral drugs. It contains no plasticizers. The solution contact layer is a rubberized copolymer of ethylene and propylene. Solutions in contact with the plastic container may leach out certain chemical components from the plastic in very small amounts; however, biological testing was supportive of the safety of the plastic container materials. The container-solution unit is a closed system and is not dependent upon entry of external air during administration. The container is overwrapped to provide protection from the physical environment and to provide an additional moisture barrier when necessary. Exposure to temperatures above 25°C/77°F during transport and storage will lead to minor losses in moisture content. Higher temperatures lead to greater losses. It is unlikely that these minor losses will lead to clinically significant changes within the expiration period.

Addition of medication should be accomplished using complete aseptic technique.

The closure system has two ports; the one for the administration set has a tamper evident plastic protector and the other is a medication site. Refer to the Directions for Use of the container.

Isolyte M in Dextrose - Clinical Pharmacology

Isolyte M in 5% Dextrose provides electrolytes and calories, and is a source of water for hydration. It is capable of inducing diuresis depending on the clinical condition of the patient.

Sodium, the major cation of the extracellular fluid, functions primarily in the control of water distribution, fluid balance, and osmotic pressure of body fluids. Sodium is also associated with chloride and bicarbonate in the regulation of the acid-base equilibrium of body fluid.

Potassium, the principal cation of intracellular fluid, participates in carbohydrate utilization and protein synthesis, and is critical in the regulation of nerve conduction and muscle contraction, particularly in the heart.

Chloride, the major extracellular anion, closely follows the metabolism of sodium, and changes in the acid-base balance of the body are reflected by changes in the chloride concentration.

Phosphate is a major intracellular anion which participates in providing energy for metabolism of substrates and contributes to significant metabolic and enzymatic reactions in almost all organs and tissues. It exerts a modifying influence on calcium levels, a buffering effect on acid-base equilibrium and has a primary role in the renal excretion of hydrogen ions.

Acetate is an organic ion which is a hydrogen ion acceptor and contributes bicarbonate during its metabolism to carbon dioxide and water, and in sufficient quantities may serve as an alkalinizing agent.

Dextrose provides a source of calories. Dextrose is readily metabolized, may decrease losses of body protein and nitrogen, promotes glycogen deposition and decreases or prevents ketosis if sufficient doses are provided.

Indications and Usage for Isolyte M in Dextrose

This solution is indicated for use in adults as a source of electrolytes, calories and water for hydration, and as an alkalinizing agent.

Contraindications

Solutions containing dextrose may be contraindicated in patients with hypersensitivity to corn products.

Warnings

The administration of intravenous solutions can cause fluid and/or solute overload resulting in dilution of serum electrolyte concentrations, overhydration, congested states or pulmonary edema. The risk of dilutional states is inversely proportional to the electrolyte concentration. The risk of solute overload causing congested states with peripheral and pulmonary edema is directly proportional to the electrolyte concentration.

Solutions containing sodium ions should be used with great care, if at all, in patients with congestive heart failure, severe renal insufficiency, and in clinical states in which there is sodium retention with edema.

Solutions containing potassium ions should be used with great care, if at all, in patients with hyperkalemia, severe renal failure, and in conditions in which potassium retention is present.

In patients with diminished renal function, administration of solutions containing sodium or potassium ions may result in sodium or potassium retention.

Infuse solutions containing phosphate slowly to avoid phosphate intoxication. Infusing high concentrations of phosphate may cause hypocalcemia and tetany. Serum phosphorus and calcium levels should be monitored frequently.

Solutions containing acetate should be used with great care in patients with metabolic or respiratory alkalosis. The administration of acetate should be done with great care in those conditions in which there is an increased level or an impaired utilization of acetate, such as severe hepatic insufficiency.

Precautions

General

This solution should be used with care in patients with hypervolemia, renal insufficiency, urinary tract obstruction, impending or frank cardiac decompensation.

Extraordinary electrolyte losses such as may occur during protracted nasogastric suction, vomiting, diarrhea or gastrointestinal fistula drainage may necessitate additional electrolyte supplementation.

Additional essential electrolytes, minerals, and vitamins should be supplied as needed.

Care should be exercised in administering solutions containing sodium or potassium to patients with renal or cardiovascular insufficiency, with or without congestive heart failure, particularly if they are postoperative or elderly.

Potassium therapy should be guided primarily by serial electrocardiograms, especially in patients receiving digitalis. Serum potassium levels are not necessarily indicative of tissue potassium levels.

Solutions containing potassium should be used with caution in the presence of cardiac disease, particularly in the presence of renal disease.

Solutions containing acetate should be used with caution. Excess administration may result in metabolic alkalosis.

Solutions containing dextrose should be used with caution in patients with overt or known subclinical diabetes mellitus, or carbohydrate intolerance for any reason.

To minimize the risk of possible incompatibilities arising from mixing this solution with other additives that may be prescribed, the final infusate should be inspected for cloudiness or precipitation immediately after mixing, prior to administration, and periodically during administration.

Do not use plastic container in series connection.

If administration is controlled by a pumping device, care must be taken to discontinue pumping action before the container runs dry or air embolism may result.

This solution is intended for intravenous administration using sterile equipment.

Use only if solution is clear and container and seals are intact.

Laboratory Tests

Clinical evaluation and periodic laboratory determinations are necessary to monitor changes in fluid balance, electrolyte concentrations, and acid-base balance during prolonged parenteral therapy or whenever the condition of the patient warrants such evaluation. Significant deviations from normal concentrations may require tailoring of the electrolyte pattern, in this or an alternative solution.

Drug Interactions

Sodium-containing solutions should be administered with caution to patients receiving corticosteroids or corticotropin, or to other salt-retaining patients.

Carcinogenesis, mutagenesis, impairment of fertility

Long term animal studies with Isolyte® M (Multi-Electrolyte Injection) in 5% Dextrose have not been performed to evaluate the carcinogenic potential, mutagenic potential, or effects on fertility.

Pregnancy

Teratogenic Effects

Pregnancy Category C

Animal reproduction studies have not been conducted with Isolyte M in 5% Dextrose. It is also not known whether Isolyte M in 5% Dextrose can cause fetal harm when administered to a pregnant woman or can affect reproduction capacity. Isolyte M in 5% Dextrose should be given to a pregnant woman only if clearly needed.

Labor and Delivery

As reported in the literature, Dextrose and electrolyte solutions have been administered during labor and delivery. Caution should be exercised, and the fluid balance, glucose and electrolyte concentrations, and acid-base balance, of both mother and fetus should be evaluated periodically or whenever warranted by the condition of the patient or fetus.

Nursing Mothers

Caution should be exercised when Isolyte M in 5% Dextrose is administered to a nursing woman.

Pediatric Use

Safety and effectiveness in pediatric patients have not been established.

Geriatric Use

In general, dose selection for an elderly patient should be cautious, usually starting at the low end of the dosing range, reflecting the greater frequency of decreased hepatic, renal, or cardiac function, and of concomitant disease or other drug therapy.

This drug is known to be substantially excreted by the kidney, and the risk of toxic reactions to this drug may be greater in patients with impaired renal function. Because elderly patients are more likely to have decreased renal function, care should be taken in dose selection, and it may be useful to monitor renal function.

See WARNINGS.

Adverse Reactions

Reactions which may occur because of the solution or the technique of administration include febrile response, infection at the site of injection, venous thrombosis or phlebitis extending from the site of injection, extravasation and hypervolemia.

Too rapid infusion of hypertonic solutions may cause local pain and venous irritation. Rate of administration should be adjusted according to tolerance. Use of the largest peripheral vein and a small bore needle is recommended.

Symptoms may result from an excess or deficit of one or more of the ions present in the solution; therefore, frequent monitoring of electrolyte levels is essential.

Hypernatremia may be associated with edema and exacerbation of congestive heart failure due to the retention of water, resulting in an expanded extracellular fluid volume.

Reactions reported with the use of potassium-containing solutions include nausea, vomiting, abdominal pain and diarrhea. The signs and symptoms of potassium intoxication include paresthesias of the extremities, areflexia, muscular or respiratory paralysis, mental confusion, weakness, hypotension, cardiac arrhythmias, heart block, electrocardiographic abnormalities and cardiac arrest. Potassium deficits result in disruption of neuromuscular function, and intestinal ileus and dilatation.

If infused in large amounts, chloride ions may cause a loss of bicarbonate ions, resulting in an acidifying effect.

Phosphorus deficiency may lead to impaired tissue oxygenation and acute hemolytic anemia. Relative to calcium, excessive phosphorus intake can precipitate hypocalcemia with cramps, tetany and muscular hyperexcitability.

The physician should also be alert to the possibility of adverse reactions to drug additives. Prescribing information for drug additives to be administered in this manner should be consulted.

If an adverse reaction does occur, discontinue the infusion, evaluate the patient, institute appropriate therapeutic countermeasures and save the remainder of the fluid for examination if deemed necessary.

Overdosage

In the event of a fluid or solute overload during parenteral therapy, reevaluate the patient"s condition, and institute appropriate corrective treatment.

In the event of overdosage with potassium-containing solutions, discontinue the infusion immediately and institute corrective therapy to reduce serum potassium levels.

Treatment of hyperkalemia includes the following:

  1. Dextrose Injection USP, 10% or 25% containing 10 units of crystalline insulin per 20 grams of dextrose administered intravenously, 300 to 500 mL per hour.
  2. Absorption and exchange of potassium using sodium or ammonium cycle cation exchange resin, orally and as retention enema.
  3. Hemodialysis and peritoneal dialysis. The use of potassium-containing foods or medications must be eliminated. However, in cases of digitalization, too rapid a lowering of plasma potassium concentration can cause digitalis toxicity.

Over-aggressive phosphate replacement may precipitate hypocalcemic tetany. To prevent hypocalcemia, calcium supplementation should always accompany phosphate administration.

Isolyte M in Dextrose Dosage and Administration

This solution is for intravenous use only.

Dosage is to be directed by a physician and is dependent upon age, weight, clinical condition of the patient and laboratory determinations. Frequent laboratory determinations and clinical evaluation are essential to monitor changes in blood glucose and electrolyte concentrations, and fluid and electrolyte balance during prolonged parenteral therapy.

When a hypertonic solution is to be administered peripherally, it should be slowly infused through a small bore needle, placed well within the lumen of a large vein to minimize venous irritation. Carefully avoid infiltration.

Usually up to 40 mEq of potassium per liter daily is sufficient to replace normal loss in adults. Typical infusion rates should not exceed 10 mEq per hour or 120 mEq per day.

Fluid administration should be based on calculated maintenance or replacement fluid requirements for each patient.

The presence of phosphate ions in this solution should be considered when calcium or magnesium ions are present in the additive solution, in order to avoid precipitation.

Some additives may be incompatible. Consult with pharmacist. When introducing additives, use aseptic techniques. Mix thoroughly. Do not store.

Parenteral drug products should be inspected visually for particulate matter and discoloration prior to administration, whenever solution and container permit.

Directions for Use of EXCEL® Container

To Open

Tear overwrap down at notch and remove solution container. Check for minute leaks by squeezing solution container firmly. If leaks are found, discard solution as sterility may be impaired. If supplemental medication is desired, follow directions below before preparing for administration.

Before use, perform the following checks:

 
Inspect each container. Read the label. Ensure solution is the one ordered and is within the expiration date.
 
Invert container and carefully inspect the solution in good light for cloudiness, haze, or particulate matter. Any container which is suspect should not be used.
 
Use only if solution is clear and container and seals are intact.

Preparation for Administration

  1. Remove plastic protector from sterile set port at bottom of container.
  2. Attach administration set. Refer to complete directions accompanying set.

To Add Medication Before Solution Administration

  1. Prepare medication site.
  2. Using syringe with 18–22 gauge needle, puncture medication port and inner diaphragm and inject.
  3. Squeeze and tap ports while ports are upright and mix solution and medication thoroughly.

To Add Medication During Solution Administration

  1. Close clamp on the set.
  2. Prepare medication site.
  3. Using syringe with 18–22 gauge needle of appropriate length (at least 5/8 inch), puncture resealable medication port and inner diaphragm and inject.
  4. Remove container from IV pole and/or turn to an upright position.
  5. Evacuate both ports by tapping and squeezing them while container is in the upright position.
  6. Mix solution and medication thoroughly.
  7. Return container to in use position and continue administration.

How is Isolyte M in Dextrose Supplied

Isolyte® M (Multi-Electrolyte Injection) in 5% Dextrose is supplied sterile and nonpyrogenic in EXCEL Containers. The 1000 mL containers are packaged 12 per case and the 500 mL containers are packaged 24 per case.

NDC Cat. No. Size
Isolyte M in 5% Dextrose
(Canada DIN 01931776)
0264-7720-00 L7200 1000 mL
0264-7720-10 L7201   500 mL

Exposure of pharmaceutical products to heat should be minimized. Avoid excessive heat. Protect from freezing. It is recommended that the product be stored at room temperature (25°C).

Rx only

Rev: August 2004
U.S. Patent No. 4,803,102
EXCEL® and Isolyte® are registered trademarks of B. Braun Medical Inc.
Made in USA

B. Braun Medical Inc.
Irvine, CA USA 92614-5895

In Canada, distributed by:
B. Braun Medical Inc.
Scarborough, Ontario M1H 2W4

©2004 B. Braun Medical Inc.

Y36-002-458


Isolyte M in Dextrose (Dextrose monohydrate, sodium acetate, sodium chloride, potassium chloride and potassium phosphate, dibasic)
PRODUCT INFO
Product Code 0264-7720 Dosage Form INJECTION
Route Of Administration INTRAVENOUS DEA Schedule
INGREDIENTS
Name (Active Moiety) Type Strength
Dextrose monohydrate (Dextrose) Active 5 GRAM  In 100 MILLILITER
Sodium Acetate (Sodium Acetate) Active 0.28 GRAM  In 100 MILLILITER
Sodium Chloride (Sodium Chloride) Active 0.091 GRAM  In 100 MILLILITER
Potassium Chloride (Potassium Chloride) Active 0.15 GRAM  In 100 MILLILITER
Potassium Phosphate, dibasic (Potassium Phosphate, dibasic) Active 0.13 GRAM  In 100 MILLILITER
Water Inactive  
Hydrochloric Acid Inactive  
IMPRINT INFORMATION
Characteristic Appearance Characteristic Appearance
Color Score
Shape Symbol
Imprint Code Coating
Size
PACKAGING
# NDC Package Description Multilevel Packaging
1 0264-7720-00 12 BAG In 1 CASE contains a BAG
1 1000 MILLILITER In 1 BAG This package is contained within the CASE (0264-7720-00)
2 0264-7720-10 24 BAG In 1 CASE contains a BAG
2 500 MILLILITER In 1 BAG This package is contained within the CASE (0264-7720-10)

Revised: 12/2006





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m in dextrose islyte p in dextrose, isolyte m in dextrose isoyte p in dextrose, isolyte m in dextrose isolte p in dextrose, isolyte m in dextrose isolye p in dextrose, isolyte m in dextrose isolyt p in dextrose, isolyte m in dextrose isolytep in dextrose, isolyte m in dextrose isolyte in dextrose, isolyte m in dextrose isolyte pin dextrose, isolyte m in dextrose isolyte p n dextrose, isolyte m in dextrose isolyte p i dextrose, isolyte m in dextrose isolyte p indextrose, isolyte m in dextrose isolyte p in extrose, isolyte m in dextrose isolyte p in dxtrose, isolyte m in dextrose isolyte p in detrose, isolyte m in dextrose isolyte p in dexrose, isolyte m in dextrose isolyte p in dextose, isolyte m in dextrose isolyte p in dextrse, isolyte m in dextrose isolyte p in dextroe, isolyte m in dextrose isolyte p in dextros, siolyte m in dextrose isolyte p in dextrose, ioslyte m in dextrose isolyte p in dextrose, isloyte m in dextrose isolyte p in dextrose, isoylte m in dextrose isolyte p in dextrose, isoltye m in dextrose isolyte p in dextrose, isolyet m in dextrose isolyte p in dextrose, isolyt em in dextrose isolyte p in dextrose, isolytem in dextrose isolyte p in dextrose, isolyte min dextrose isolyte p in dextrose, isolyte mi n dextrose isolyte p in dextrose, isolyte m ni dextrose isolyte p in dextrose, isolyte m i ndextrose isolyte p in dextrose, isolyte m ind extrose isolyte p in dextrose, isolyte m in edxtrose isolyte p in dextrose, isolyte m in dxetrose isolyte p in dextrose, isolyte m in detxrose isolyte p in dextrose, isolyte m in dexrtose isolyte p in dextrose, isolyte m in dextorse isolyte p in dextrose, isolyte m in dextrsoe isolyte p in dextrose, isolyte m in dextroes isolyte p in dextrose, isolyte m in dextros e isolyte p in dextrose, isolyte m in dextrose isolyte p in dextrose, isolyte m in dextrose i solyte p in dextrose, isolyte m in dextrose siolyte p in dextrose, isolyte m in dextrose ioslyte p in dextrose, isolyte m in dextrose isloyte p in dextrose, isolyte m in dextrose isoylte p in dextrose, isolyte m in dextrose isoltye p in dextrose, isolyte m in dextrose isolyet p in dextrose, isolyte m in dextrose isolyt ep in dextrose, isolyte m in dextrose isolytep in dextrose, isolyte m in dextrose isolyte pin dextrose, isolyte m in dextrose isolyte pi n dextrose, isolyte m in dextrose isolyte p ni dextrose, isolyte m in dextrose isolyte p i ndextrose, isolyte m in dextrose isolyte p ind extrose, isolyte m in dextrose isolyte p in edxtrose, isolyte m in dextrose isolyte p in dxetrose, isolyte m in dextrose isolyte p in detxrose, isolyte m in dextrose isolyte p in dexrtose, isolyte m in dextrose isolyte p in dextorse, isolyte m in dextrose isolyte p in dextrsoe, isolyte m in dextrose isolyte p in dextroes, iisolyte m in dextrose isolyte p in dextrose, issolyte m in dextrose isolyte p in dextrose, isoolyte m in dextrose isolyte p in dextrose, isollyte m in dextrose isolyte p in dextrose, isolyyte m in dextrose isolyte p in dextrose, isolytte m in dextrose isolyte p in dextrose, isolytee m in dextrose isolyte p in dextrose, isolyte m in dextrose isolyte p in dextrose, isolyte mm in dextrose isolyte p in dextrose, isolyte m in dextrose isolyte p in dextrose, isolyte m iin dextrose isolyte p in dextrose, isolyte m inn dextrose isolyte p in dextrose, isolyte m in dextrose isolyte p in dextrose, isolyte m in ddextrose isolyte p in dextrose, isolyte m in deextrose isolyte p in dextrose, isolyte m in dexxtrose isolyte p in dextrose, isolyte m in dexttrose isolyte p in dextrose, isolyte m in dextrrose isolyte p in dextrose, isolyte m in dextroose isolyte p in dextrose, isolyte m in dextrosse isolyte p in dextrose, isolyte m in dextrosee isolyte p in dextrose, isolyte m in dextrose isolyte p in dextrose, isolyte m in dextrose isolyte p in dextrose, isolyte m in dextrose iisolyte p in dextrose, isolyte m in dextrose issolyte p in dextrose, isolyte m in dextrose isoolyte p in dextrose, isolyte m in dextrose isollyte p in dextrose, isolyte m in dextrose isolyyte p in dextrose, isolyte m in dextrose isolytte p in dextrose, isolyte m in dextrose isolytee p in dextrose, isolyte m in dextrose isolyte p in dextrose, isolyte m in dextrose isolyte pp in dextrose, isolyte m in dextrose isolyte p in dextrose, isolyte m in dextrose isolyte p iin dextrose, isolyte m in dextrose isolyte p inn dextrose, isolyte m in dextrose isolyte p in dextrose, isolyte m in dextrose isolyte p in ddextrose, isolyte m in dextrose isolyte p in deextrose, isolyte m in dextrose isolyte p in dexxtrose, isolyte m in dextrose isolyte p in dexttrose, isolyte m in dextrose isolyte p in dextrrose, isolyte m in dextrose isolyte p in dextroose, isolyte m in dextrose isolyte p in dextrosse, isolyte m in dextrose isolyte p in dextrosee, etc.



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