Unidone

Unidone Uses, Dosage, Side Effects, Food Interaction and all others data.

Unidone is a synthetic anticoagulant and an indanedione derivative. Its anticoagulant action is mediated through the inhibition of the vitamin K-mediated gamma-carboxylation of precursor proteins that are critical in forming the formation of active procoagulation factors II, VII, IX, and X, as well as the anticoagulant proteins C and S, in the liver.

Unidone is a synthetic anticoagulant and an indanedione derivative. It is prescribed only if you cannot take coumarin-type anticoagulants such as coumadin as anisindione is a powerful drug with serious potential side effects. Anticoagulants decrease the clotting ability of the blood and therefore help to prevent harmful clots from forming in the blood vessels. These medicines are sometimes called blood thinners, although they do not actually thin the blood. They also will not dissolve clots that already have formed, but they may prevent the clots from becoming larger and causing more serious problems.

Trade Name Unidone
Availability Discontinued
Generic Anisindione
Anisindione Other Names Anisin indandione, Anisindiona, Anisindione, Anisindionum
Related Drugs aspirin, Xarelto, Eliquis, warfarin, apixaban, rivaroxaban
Type
Formula C16H12O3
Weight Average: 252.2647
Monoisotopic: 252.07864425
Protein binding

Not Known

Groups Approved
Therapeutic Class
Manufacturer
Available Country
Last Updated: September 19, 2023 at 7:00 am
Unidone
Unidone

Uses

For the prophylaxis and treatment of venous thrombosis and its extension, the treatment of atrial fibrillation with embolization, the prophylaxis and treatment of pulmonary embolism, and as an adjunct in the treatment of coronary occlusion.

How Unidone works

Like phenindione, to which it is related chemically, anisindione exercises its therapeutic action by reducing the prothrombin activity of the blood. By inhibiting the vitamin K–mediated gamma-carboxylation of precursor proteins, the formation of active procoagulation factors II, VII, IX, and X, as well as the anticoagulant proteins C and S is prevented. Unidone has no direct thrombolytic effect and does not reverse ischemic tissue damage, although it may limit extension of existing thrombi and prevent secondary thromboembolic complications.

Toxicity

An overdose is likely to cause abnormal bleeding, for which the symptoms include: bleeding from gums or nose, blood in urine or stools, excessive bleeding from minor cuts, patches of discoloration or bruises on the skin.

Food Interaction

[Moderate] MONITOR: Vitamin K may antagonize the hypoprothrombinemic effect of oral anticoagulants.

Vitamin K is a cofactor in the synthesis of blood clotting factors that are inhibited by oral anticoagulants, thus intake of vitamin K through supplements or diet can reverse the action of oral anticoagulants.

Resistance to oral anticoagulants has been associated with consumption of foods or enteral feedings high in vitamin K content.

Likewise, a reduction of vitamin K intake following stabilization of anticoagulant therapy may result in elevation of the INR and bleeding complications.

Foods rich in vitamin K include beef liver, broccoli, Brussels sprouts, cabbage, collard greens, endive, kale, lettuce, mustard greens, parsley, soy beans, spinach, Swiss chard, turnip greens, watercress, and other green leafy vegetables.

Moderate to high levels of vitamin K are also found in other foods such as asparagus, avocados, dill pickles, green peas, green tea, canola oil, margarine, mayonnaise, olive oil, and soybean oil.

Snack foods containing the fat substitute, olestra, are fortified with 80 mcg of vitamin K per each one ounce serving so as to offset any depletion of vitamin K that may occur due to olestra interference with its absorption.

Whether these foods can alter the effect of oral anticoagulants has not been extensively studied.

One small study found that moderate consumption (1.5 servings
Consumption of large amounts of mango fruit has been associated with enhanced effects of warfarin.

The exact mechanism of interaction is unknown but may be related to the vitamin A content, which may inhibit metabolism of warfarin.

In one report, thirteen patients with an average INR increase of 38% reportedly had consumed one to six mangos daily 2 to 30 days prior to their appointment.

The average INR decreased by 17.7% after discontinuation of mango ingestion for 2 weeks.

Rechallenge in two patients appeared to confirm the interaction.

Limited data also suggest a potential interaction between warfarin and cranberry juice resulting in changes in the INR and

The mechanism is unknown but may involve alterations in warfarin metabolism induced by flavonoids contained in cranberry juice.

At least a dozen reports of suspected interaction have been filed with the Committee on Safety of Medicines in the U.K. since 1999, including one fatality.

In the fatal case, the patient's INR increased dramatically (greater than 50) six weeks after he started drinking cranberry juice, and he died from gastrointestinal and pericardial hemorrhage.

However, the patient was also taking cephalexin for a chest infection and had not eaten for two weeks prior to hospitalization, which may have been contributing factors.

Other cases involved less dramatic increases or instabilities in INR following cranberry juice consumption, and a decrease was reported in one, although details are generally lacking.

In a rare published report, a 71-year-old patient developed hemoptysis, hematochezia, and shortness of breath two weeks after he started drinking 24 ounces of cranberry juice a day.

Laboratory test results on admission revealed a decrease in hemoglobin, an INR greater than 18, and prothrombin time exceeding 120 seconds.

The patient recovered after warfarin doses were withheld for several days and he was given packed red blood cells, fresh-frozen plasma, and subcutaneous vitamin K.

It is not known if variations in the constituents of different brands of cranberry juice may affect the potential for drug interactions.

There have been several case reports in the medical literature of patients consuming grapefruit, grapefruit juice, or grapefruit seed extract who experienced increases in INR.

R(+) warfarin, the less active of the two enantiomers of warfarin, is partially metabolized by CYP450 3A4.

Depending on brand, concentration, dose and preparation, grapefruit juice may be considered a moderate to strong inhibitor of CYP450 3A4, thus coadministration with warfarin may decrease the clearance of R(+) warfarin.

However, the clinical significance of this effect has not been established.

A pharmacokinetic study found no effect on the PT or INR values of nine warfarin patients given 8 oz of grapefruit juice three times a day for one week.

A patient who was stabilized on warfarin developed a large hematoma in her calf in association with an elevated INR of 14 following consumption of approximately 3 liters of pomegranate juice in the week prior to admission.

In vitro data suggest that pomegranate juice can inhibit CYP450 2C9, the isoenzyme responsible for the metabolic clearance of the biologically more active S(-) enantiomer of warfarin.

In rats, pomegranate juice has also been shown to inhibit intestinal CYP450 3A4, the isoenzyme that contributes to the metabolism of R(+) warfarin.

Black currant juice and black currant seed oil may theoretically increase the risk of bleeding or bruising if used in combination with anticoagulants.

The proposed mechanism is the antiplatelet effects of the gamma-linolenic acid constituent in black currants.



Soy protein in the form of soy milk was thought to be responsible for a case of possible warfarin antagonism in an elderly male stabilized on warfarin.

The exact mechanism of interaction is unknown, as soy milk contains only trace amounts of vitamin K.

Subtherapeutic INR values were observed approximately 4 weeks after the patient began consuming soy milk daily for the treatment of hypertriglyceridemia.

No other changes in diet or medications were noted during this time.

The patient's INR returned to normal following discontinuation of the soy milk with no other intervention.

An interaction with chewing tobacco was suspected in a case of warfarin therapy failure in a young male who was treated with up to 25 to 30 mg

The inability to achieve adequate INR values led to eventual discontinuation of the chewing tobacco, which resulted in an INR increase from 1.1 to 2.3 in six days.

The authors attributed the interaction to the relatively high vitamin K content in smokeless tobacco.



MANAGEMENT: Intake of vitamin K through supplements or diet should not vary significantly during oral anticoagulant therapy.

The diet in general should remain consistent, as other foods containing little or no vitamin K such as mangos and soy milk have been reported to interact with warfarin.

Some experts recommend that continuous enteral nutrition should be interrupted for one hour before and one hour after administration of the anticoagulant dose and that enteral formulas containing soy protein should be avoided.

Patients should also consider avoiding or limiting the consumption of cranberry juice or other cranberry formulations (e.g., encapsulated dried cranberry powder), pomegranate juice, black currant juice, and black currant seed oil.

Unidone Alcohol interaction

[Moderate]

Enhanced hypoprothrombinemic response to warfarin has been reported in patients with acute alcohol intoxication and/or liver disease.

The proposed mechanisms are inhibition of warfarin metabolism and decreased synthesis of clotting factors.

Binge drinking may exacerbate liver impairment and its metabolic ability in patients with liver dysfunction.

The risk of bleeding may be increased.

Conversely, reductions in INR/PT have also been reported in chronic alcoholics with liver disease.

The proposed mechanism is that continual drinking of large amounts of alcohol induces the hepatic metabolism of anticoagulants.

Effects are highly variable and significant INR/PT fluctuations are possible.

Patients taking oral anticoagulants should be counseled to avoid large amounts of ethanol, but moderate consumption (one to two drinks per day) are not likely to affect the response to the anticoagulant in patients with normal liver function.

Frequent INR/PT monitoring is recommended, especially if alcohol intake changes considerably.

It may be advisable to avoid oral anticoagulant therapy in patients with uncontrollable drinking problems.

Patients should be advised to promptly report any signs of bleeding to their doctor, including pain, swelling, headache, dizziness, weakness, prolonged bleeding from cuts, increased menstrual flow, nosebleeds, bleeding of gums from brushing, unusual bleeding or bruising, red or brown urine, or red or black stools.

Unidone Cholesterol interaction

[Moderate] Patients with edema, hereditary coumarin resistance, hyperlipidemia, hypothyroidism, or nephrotic syndrome may exhibit lower than expected hypoprothrombinemic response to oral anticoagulants.

Thus, more frequent laboratory (PT

Unidone Hypertension interaction

[Major] In general, the use of oral anticoagulants is contraindicated in patients with malignant or severe, uncontrolled hypertension.

These patients may be at increased risk for cerebral hemorrhage.

Therapy with oral anticoagulants should be administered cautiously in patients with moderate hypertension.

Unidone multivitamins interaction

[Moderate] Multivitamin preparations containing vitamin K may antagonize the hypoprothrombinemic effect of oral anticoagulants in some patients.

Vitamin K1 in its active, reduced form serves as a cofactor in the generation of functional clotting factors, during which it becomes oxidized.

It is reactivated in a process that is inhibited by oral anticoagulants, thus intake of additional vitamin K through supplements or diet can reverse the action of oral anticoagulants.

Although the amount of vitamin K in over-the-counter multivitamin preparations is generally well below the dose thought to affect anticoagulation, there have been isolated case reports of patients stabilized on warfarin whose INR decreased following initiation of a multivitamin supplement and returned to therapeutic levels upon cessation of the multivitamin.

Increases in warfarin dosage were required in some cases when the multivitamin was continued.

One patient whose warfarin dosage was increased developed a subcapsular hematoma in her right kidney two weeks after she discontinued the multivitamin without informing her physician.

Her INR was 13.2 and she was treated with vitamin K and fresh frozen plasma.

It is possible that patients with low vitamin K status may be particularly susceptible to the interaction.

Investigators have shown that vitamin K deficiency can cause an oversensitivity to even small increases in vitamin K intake.

In one study where warfarin-stabilized patients were given a multivitamin tablet containing 25 mcg of vitamin K1 daily for 4 weeks, subtherapeutic INRs occurred in 9 of 9 patients with low vitamin K1 levels (4.5 mcg

INR decreased by a median of 0.51 and warfarin dosage had to be increased by 5.3% in patients with low vitamin K1 levels, whereas INR and warfarin dosage did not change significantly in patients with normal vitamin K1 levels.

The prevalence of vitamin K deficiency may be small, but significant in the anticoagulated population.

In a survey of 179 consecutive ambulatory patients on stable warfarin therapy attending an anticoagulation clinic, 22 (12.3%) were found to have vitamin K1 deficiency (
The potential for multivitamin supplements containing even low levels of vitamin K to affect anticoagulation should be recognized.

In particular, elderly and

Elimination Route

Accumulation does not occur with repeated dosing.

Half Life

Not Known

Innovators Monograph

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https://www.ebi.ac.uk/chebi/searchId.do?chebiId=CHEBI:133809
http://www.hmdb.ca/metabolites/HMDB0015257
http://www.genome.jp/dbget-bin/www_bget?drug:D07457
https://pubchem.ncbi.nlm.nih.gov/summary/summary.cgi?cid=2197
https://pubchem.ncbi.nlm.nih.gov/summary/summary.cgi?sid=46504660
https://www.chemspider.com/Chemical-Structure.2112.html
http://www.bindingdb.org/bind/chemsearch/marvin/MolStructure.jsp?monomerid=50280155
https://mor.nlm.nih.gov/RxNav/search?searchBy=RXCUI&searchTerm=17941
https://www.ebi.ac.uk/chebi/searchId.do?chebiId=133809
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https://zinc.docking.org/substances/ZINC000100015486
http://bidd.nus.edu.sg/group/cjttd/ZFTTDDRUG.asp?ID=DAP001274
http://www.pharmgkb.org/drug/PA164746467
http://www.rxlist.com/cgi/generic/miradon.htm
https://www.drugs.com/pdr/anisindione.html
http://www.pdrhealth.com/drug_info/rxdrugprofiles/drugs/mir1623.shtml
https://en.wikipedia.org/wiki/Anisindione
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