Echovist-200
Echovist-200 Uses, Dosage, Side Effects, Food Interaction and all others data.
Echovist-200 has been used in trials studying the treatment and diagnosis of Hepatitis C, Hepatic Cancer, Wilsons Disease, Diabetic Macular Oedema, and Focal Segmental Glomerulosclerosis, among others. There are even proposals for its use in accelerating senescence in mice, rats, and Drosophila, for its association with ovarian cancer, or even for the potential treatment of focal segmental glomerulosclerosis. Nevertheless, none of these ongoing studies have yet provided formal elucidation for their proposals.
As a naturally occurring sugar, it may be found in a number dairy products. Even then, however, it is not generally used as a sweetener considering it is only about 30% as sweet as sucrose. Regardless, although it is predominantly used as a pathway to generate glucose fuel for the human body, galactose is involved as an ingredient in some commonly used vaccines and non-prescription products.
Echovist-200 is a naturally occurring monosaccharide that forms the disaccharide lactose when combined with glucose (another monosaccharide) . Subsequently, when lactose or small amounts of free galactose found in various common dairy products (and other foods) are consumed, the hydrolysis of lactose to glucose and galactose occurs and galactose is itself further metabolized to generate glucose . Such glucose is, of course, ultimately relied upon and used as the primary metabolic fuel for humans in a variety of biological reactions.
Trade Name | Echovist-200 |
Generic | Galactose |
Galactose Other Names | D-Galactose, Galactose |
Type | |
Formula | C6H12O6 |
Weight | Average: 180.1559 Monoisotopic: 180.063388116 |
Protein binding | Readily accessible data regarding the protein binding of galactose is not available. |
Groups | Approved, Investigational |
Therapeutic Class | |
Manufacturer | |
Available Country | Oman, Russia |
Last Updated: | September 19, 2023 at 7:00 am |
Uses
There are limited therapeutic uses for which galactose is formally indicated. Some predominant indications include (a) the use of galactose to facilitate the construction of structurally and immunologically effective attenuated vaccines , and (b) the role galactose plays as an essential element in the formation of lactulose - a synthetic disaccharide indicated for the treatment of constipation and/or hepatic encephalopathy (HE); hepatic coma .
Nevertheless, there are many studies looking into a variety of possible uses for galactose, including the use of the monosaccharide sugar for accelerating senescence in mice, rats, and Drosophila , the proposed association between galactose in consumed milk and ovarian cancer , a possible role in the therapy of focal segmental glomerulosclerosis , among various others. Regardless, none of these proposed indications have yet been formally elucidated for practical use.
How Echovist-200 works
In the development of typhoid Ty21a live oral vaccine, the use of exogenous galactose is critical. When dealing with Salmonella typhimurium, it has been shown that rough strains with incomplete lipopolysaccharide (LPS) lacking O-specific side chains are much less virulent than smooth strains with complete LPS with O-specific side chains . Salmonella typhimurium gal E mutants used to produce the vaccine are effectively avirulent and highly protective but lack the specific UDP-galactose 4-epimerase enzyme which allows for the normal synthesis of UDP-galactose from UDP-glucose . The consequence of this mutant defect is that the gal E mutants can only generate incomplete LPS without O-specific antigen side chains, which are not capable enough as the complete LPS with O-specific side chains at generating an immunologic response . When exogenous galactose is added to the vaccine medium, however, it allows the mutants to generate UDP-galactose via galactose 1-phosphate . This ultimately allows the mutants to form smooth-type LPS with O-specific side chains . Regardless, the mutant's epimerase defect ultimately results in the accumulation of such intermediary products like galactose 1-phosphate and UDP-galactose, which consequently causes lysis of the mutant cells. The resultant vaccine is subsequently effective enough to elicit an immunologic response while the bacteriolysis prevents the mutant cells from regaining virulence under conditions where smooth type LPS similar to the active parental strain is synthesized .
Echovist-200 is also an essential element to the chemical structure of the commonly used laxative solution lactulose. Lactulose itself is a synthetic disaccharide that is made in parts from lactose, galactose, and various other sugars . It is poorly absorbed from the gastrointestinal tract and no enzyme capable of hydrolysis of lactulose is present in human gastrointestinal tissue . Oral doses of lactulose subsequently arrive at the colon largely unchanged . At the colon, lactulose is finally broken down predominantly to lactic acid, and also small amounts of formic and acetic acids by the action of colonic bacteria, which results in an increase in osmotic pressure and slight acidification of the colonic contents . This action consequently causes an increase in stool water content and softens the stool for a laxative effect .
Toxicity
It is typically uncommon to experience an overdosage situation with dietary galactose or from galactose as an ingredient in a therapeutic agent. At the same time, the experiencing a situation characterized by excessive amounts of galactose in the body defines the challenge with galactosemia, which is itself a rare genetic metabolic disorder. In individuals with galactosemia, the enzymes needed for further metabolism of galactose (ie. such as galactose-1-phosphate uridyltransferase) are severely diminished or missing entirely, leading to toxic levels of galactose 1-phosphate in various tissues . This toxic excess typically results in hepatomegaly, cirrhosis, renal failure, cataracts, vomiting, hypoglycemia, lethargy, brain damage, and ovarian failure . Without treatment, mortality in infants with galactosemia is about 75% .
Volume of Distribution
It has been documented that galactose distributes in a volume equivalent to 40% of body weight .
Elimination Route
The absorption of galactose from the human jejunum was calculated to be 1.0 g per minute per 30 cm of the gut .
Half Life
Readily accessible data regarding the half-life of galactose is not available.
Clearance
In subjects with no liver disease, systemic galactose clearance was calculated to be 1.5 +/- 0.1 L/min .
Elimination Route
The primary route of elimination for galactose is hepatic .
Innovators Monograph
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