BSS Plus Sterile Irrigating

Uses

Dextrose is administered as a parenteral nutrition solution in the treatment of carbohydrate depletion and hypoglycaemic coma. Because of its high dextrose content it is used in the treatment of cerebral edema, shock, circulatory collapse, unconsciousness and to correct hyperkalaemia with or without insulin.

For nutritional supplementation, also for treating dietary shortage or imbalance

BSS Plus Sterile Irrigating is also used to associated treatment for these conditions: Arrhythmia, Caloric Deficit, Edema of the cerebrum, Metabolic Alkalosis, Hypoglycemic reaction, Blood Specimen Collection, Electrolyte replacement, Nutritional supplementation, Parenteral Nutrition, Parenteral rehydration therapy, Plasmapheresis, Positive cardiac inotropic effect, Total parenteral nutrition therapy, Urine alkalinization therapy, Fluid and electrolyte maintenance therapyHangover, Nerve Disorders, Neuropathies

How BSS Plus Sterile Irrigating works

Glucose supplies most of the energy to all tissues by generating energy molecules ATP and NADH during a series of metabolism reactions called glycolysis. Glycolysis can be divided into 2 main phases where the preparatory phase is initiated by the phosphorylation of glucose by a hexokinase to form glucose 6-phosphate. The addition of the high-energy phosphate group activates glucose for subsequent breakdown in later steps of glycolysis and is the rate-limiting step. Products end up as substrates for following reactions, to ultimately convert C6 glucose molecule into two C3 sugar molecules. These products enter the energy-releasing phase where total of 4ATP and 2NADH molecules are generated per one glucose molecule. The total aerobic metabolism of glucose can produce up to 36 ATP molecules. This energy-producing reactions of glucose is limited to D-glucose as L-glucose cannot be phosphorlyated by hexokinase. Glucose can act as precursors to generate other biomolecules such as vitamin C. It plays a role as a signaling molecule to control glucose and energy homeostasis. Glucose can regulate gene transcription, enzyme activity, hormone secretion, and the activity of glucoregulatory neurons. The types, number and kinetics of glucose transporters expressed depends on the tissues and fine-tunes glucose uptake, metabolism, and signal generation in order to preserve cellular and whole body metabolic integrity .

Glutathione (GSH) participates in leukotriene synthesis and is a cofactor for the enzyme glutathione peroxidase. It also plays a role in the hepatic biotransformation and detoxification process; it acts as a hydrophilic molecule that is added to other lipophilic toxins or wastes prior to entering biliary excretion. It participates in the detoxification of methylglyoxal, a toxic by-product of metabolism, mediated by glyoxalase enzymes. Glyoxalase I catalyzes the conversion of methylglyoxal and reduced glutathione to S-D-Lactoyl-glutathione. Glyoxalase II catalyzes the conversion of S-D-Lactoyl Glutathione to Reduced Glutathione and D-lactate. Glyoxalase I catalyzes the conversion of methylglyoxal and reduced glutathione to S-D-Lactoyl-glutathione. Glyoxalase II catalyzes the conversion of S-D-Lactoyl Glutathione to Reduced Glutathione and D-lactate. GSH is a cofactor of conjugation and reduction reactions that are catalyzed by glutathione S-transferase enzymes expressed in the cytosol, microsomes, and mitochondria. However, it is capable of participating in non-enzymatic conjugation with some chemicals, as it is hypothesized to do to a significant extent with n-acetyl-p-benzoquinone imine (NAPQI), the reactive cytochrome P450 reactive metabolite formed by toxic overdose of acetaminophen. Glutathione in this capacity binds to NAPQI as a suicide substrate and in the process detoxifies it, taking the place of cellular protein sulfhydryl groups which would otherwise be toxically adducted. The preferred medical treatment to an overdose of this nature, whose efficacy has been consistently supported in literature, is the administration (usually in atomized form) of N-acetylcysteine, which is used by cells to replace spent GSSG and allow a usable GSH pool.

Dosage

BSS Plus Sterile Irrigating dosage

The volume and rate of infusion of dextrose solution will depend upon the requirements of the individual patient and the judgement of the physician.

The maximum rate at which dextrose can be infused without producing glycosuria is 0.5 gm/kg/hr.

The usual recommended flow rate for adult is 10-35 drops per minute infused intravenously.

Intravenous-

Hyperkalaemia:

• Adult: 25-50 g combined with 10 units of regular insulin, administered over 30-60 minutes; may repeat if necessary. Alternatively, 25 g combined with 5-10 units of regular insulin infused over 5 minutes; may repeat if necessary.
• Child and infants: 0.5-1 g/kg (using 25% or 50% solution) combined with regular insulin (1 unit for every 4-5 g dextrose given); infuse over 2 hr, may repeat if necessary.

Intravenous-

Hypoglycaemia:

• Adult: 10-25 g (40-100 ml of 25% solution or 20-50 ml of 50% solution). Doses may be repeated in severe cases.
• Child: ≤6 mth: 0.25-0.5 g/kg/dose; >6 mth: 0.5-1 g/kg/dose. Doses may be repeated in severe cases. Max: 25 g/dose.

Oral-

Hypoglycaemia:

• Adult: 10-20 g as single dose; may repeat in 10 min if needed.
• Child: >2 yr: 10-20 g as single dose; may repeat in 10 min if needed.

It should not be administered by SC or IM route. Dextrose should be infused through the largest available peripheral vein.

Side Effects

Venous thrombosis, phlebitis, hypovolemia, hypervolemia, dehydration, oedema, fever, mental confusion, unconsciousness, hyperosmolar syndrome, hyperglycaemia, hypokalaemia, acidosis, hypophosphataemia, hypomagnesemia, polyuria, glycosuria, ketonuria, nausea, diarrhoea, polydipsia, vein irritation, tissue necrosis, pulmonary oedema, tachypnoea.

Toxicity

Oral LD50 value in rats is 25800mg/kg. The administration of glucose infusions can cause fluid and/or solute overloading resulting in dilution of the serum electrolyte concentrations, over-hydration, congested states, or pulmonary oedema. Hypersensitivity reactions may also occur including anaphylactic/anaphylactoid reactions from oral tablets and intravenous infusions.

ORL-MUS LD₅₀ 5000 mg/kg, IPR-MUS LD₅₀ 4020 mg/kg, SCU-MUS LD₅₀ 5000 mg/kg, IVN-RBT LD₅₀ > 2000 mg/kg, IMS-MUS LD₅₀ 4000 mg/kg

Precaution

Concentrated dextrose solution should not be infused rapidly or for a long period. It may be hazardous in patients with impaired hepatic or renal function and severe sepsis.

Care should be taken to avoid circulatory overload, particularly in patients with cardiac insufficiency. Caution must be exercised in the administration of these injections to patients receiving corticosteroids or corticotropin. These injections should be used with caution in patients with overt or subclinical diabetes mellitus.

Parenteral drug products should be inspected visually for particulate matter and discoloration prior to administration whenever solution and container permit. Do not administer unless solution is clear and seal is intact.

Interaction

There is no drug drug interaction and none well documented.

Volume of Distribution

The mean volume of distribution after intravenous infusion is 10.6L.

Elimination Route

Polysaccharides can be broken down into smaller units by pancreatic and intestinal glycosidases or intestinal flora. Sodium-dependent glucose transporter SGLT1 and GLUT2 (SLC2A2) play predominant roles in intestinal transport of glucose into the circulation. SGLT1 is located in the apical membrane of the intestinal wall while GLUT2 is located in the basolateral membrane, but it was proposed that GLUT2 can be recruited into the apical membrane after a high luminal glucose bolus allowing bulk absorption of glucose by facilitated diffusion . Oral preparation of glucose reaches the peak concentration within 40 minutes and the intravenous infusions display 100% bioavailability.

Research suggests that glutathione is not orally bioactive, and that very little of oral glutathione tablets or capsules is actually absorbed by the body.

Half Life

The approximate half-life is 14.3 minutes following intravenous infusion. Gut glucose half-life was markedly higher in females (79 ± 2 min) than in males (65 ± 3 min, P < 0.0001) and negatively related to body height (r = -0.481; P < 0.0001).

Clearance

The mean metabolic clearance rate of glucose (MCR) for the 10 subjects studied at the higher insulin level was 2.27 ± 0.37 ml/kg/min at euglycemia and fell to 1.51±0.21 ml/kg/ at hyperglycemia. The mean MCR for the six subjects studied at the lower insulin level was 1.91 ± 0.31 ml/kg/min at euglyglycemia.

Elimination Route

Glucose can be renally excreted.

Pregnancy & Breastfeeding use

Pregnancy Category C. Animal reproduction studies have shown an adverse effect on the fetus and there are no adequate and well-controlled studies in humans, but potential benefits may warrant use of the drug in pregnant women despite potential risks.

Contraindication

Concentrated dextrose solution is contraindicated in patients with Glucose-Galactose Malabsorption Syndrome and severe hydration. The infusion of hypertonic dextrose injections is contraindicated in patients having intracranial or intraspinal hemorrhage, in patients who are severely dehydrated, in patients who are anuric, and in patients in hepatic coma. Solutions containing dextrose may be contraindicated in patients with known allergy to corn or corn products.

Acute Overdose

Reevaluate patient's condition and institute appropriate symptomatic treatment.

Storage Condition

Store at 25°C.

Innovators Monograph

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