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methylene blue

 
Dictionary: methylene blue
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n.
A basic aniline dye, C16H18N3SCl · 3H2O, that forms a deep blue solution when dissolved in water. It is used as an antidote for cyanide poisoning and a bacteriological stain.


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Dental Dictionary: methylene blue
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(meth′ə-lēn)
n

1. a dye used to color bacteria for microscopic examination. n 2. an aniline dye often used as an antiseptic and topical analgesic in the treatment of lesions of the oral mucous membranes and skin.

Drug Info: Methylene Blue
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Brand names: Urolene Blue®

Chemical formula:



Methylene Blue tablets

What are methylene blue tablets?

METHYLENE BLUE (Urolene Blue®) helps to treat methemoglobinemia, a condition in which the blood loses its ability to carry oxygen through the body. Methylene blue is a water soluble dye. Generic methylene blue tablets are available.

What should I tell my health care provider before I take this medicine?

They need to know if you have any of these conditions:
• anemia
• cyanide poisoning
• glucose-6-phosphate dehydrogenase (G6PD) deficiency
• kidney disease
• an unusual or allergic reaction to methylene blue, phenothiazines, thiazide diuretics (water pills), other medicines, foods, dyes, or preservatives
• pregnant or trying to get pregnant
• breast-feeding

How should I take this medicine?

Take methylene blue tablets by mouth. Follow the directions on the prescription label. Swallow the tablets after meals with a full glass of water. Take your doses at regular intervals. Do not take your medicine more often than directed. Do not stop taking except on your prescriber's advice.

What if I miss a dose?

If you miss a dose, take it as soon as you can. If it is almost time for your next dose, take only that dose. Do not take double or extra doses.

What drug(s) may interact with methylene blue?

No interactions have been reported between methylene blue and other medicines.

Tell your prescriber or health care professional about all other medicines you are taking, including non-prescription medicines, nutritional supplements, or herbal products. Also tell your prescriber or health care professional if you are a frequent user of drinks with caffeine or alcohol, if you smoke, or if you use illegal drugs. These may affect the way your medicine works. Check with your health care professional before stopping or starting any of your medicines.

What should I watch for while taking methylene blue?

Visit your prescriber or health care professional for regular checks on your progress.

Methylene blue may stain clothing, skin, or nails. Stains can be removed from the skin with a dilute hypochlorite solution (diluted Chlorox® solution).

What side effects may I notice from taking methylene blue?

Side effects that you should report to your prescriber or health care professional as soon as possible:
• bladder irritation
• fever

Side effects that usually do not require medical attention (report to your prescriber or health care professional if they continue or are bothersome):
• blue-green coloration of urine and stools - this is not a cause for concern
• diarrhea
• nausea, vomiting
• skin discoloration

Where can I keep my medicine?

Keep out of the reach of children in a container that small children cannot open.

Store at room temperature, approximately 25 degrees C (77 degrees F). Throw away any unused medicine after the expiration date.


Last updated: 7/1/2002

Important Disclaimer: The drug information provided here is for educational purposes only. It is intended to supplement, not substitute for, the diagnosis, treatment and advice of a medical professional. This drug information does not cover all possible uses, precautions, side effects and interactions. It should not be construed to indicate that this or any drug is safe for you. Consult your medical professional for guidance before using any prescription or over the counter drugs.

Veterinary Dictionary: methylene blue
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Home > Library > Animal Life > Veterinary Dictionary

A synthetic organic compound, in dark green crystals or lustrous crystalline powder, used in treatment of methemoglobinemia, as an antidote in cyanide poisoning, as a stain in pathology and bacteriology, and as an antiseptic.

Wikipedia: Methylene blue
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Methylene blue
Methylene blue
Space-filling model of methylene blue in its oxidised form
IUPAC name
Identifiers
CAS number 61-73-4 Yes check.svgY
PubChem 6099
SMILES
Properties
Molecular formula C16H18N3SCl
Molar mass 319.85 g/mol
Melting point

100-110 °C (with decomposition)
Boiling point

Decomposes
 Yes check.svgY (what is this?)  (verify)
Except where noted otherwise, data are given for materials in their standard state (at 25 °C, 100 kPa)
Infobox references

Methylene blue is a heterocyclic aromatic chemical compound with molecular formula: C16H18N3SCl. It has many uses in a range of different fields, such as biology and chemistry. At room temperature it appears as a solid, odorless, dark green powder, that yields a blue solution when dissolved in water. The hydrated form has 3 molecules of water per molecule of MB.[1] Methylene blue should not be confused with methyl blue, another histology stain, new methylene blue, nor with the methyl violets often used as pH indicators.

The terms "methylthioninium chloride" and "methylene blue" are sometimes used interchangeably.[2][3]

Contents

Uses

Chemistry

Redox indicator

Methylene blue is widely used as a redox indicator in analytical chemistry. Solutions of this substance are blue when in an oxidizing environment, but will turn colorless if exposed to a reducing agent. The redox properties can be seen in a classical demonstration of chemical kinetics in general chemistry, the "blue bottle" experiment. Typically, a solution is made of dextrose, methylene blue, and sodium hydroxide. Upon shaking the bottle, oxygen oxidizes methylene blue, and the solution turns blue. The dextrose will gradually reduce the methylene blue to its colorless, reduced form. Hence, when the dissolved oxygen is entirely consumed, the solution will turn colorless.

Peroxide generator

Methylene blue is also a photosensitizer used to create singlet oxygen when exposed to both oxygen and light. It is used in this regard to make organic peroxides by a Diels-Alder reaction which is spin forbidden with normal atmospheric triplet oxygen.

Sulfide analysis

The formation of methylene blue after the reaction of hydrogen sulfide with dimethyl-p-phenylenediamine and iron(III) at pH 0.4 – 0.7 is used to determine by photometric measurements sulfide concentration in the range 0.020 to 1.50 mg/L (20 ppb to 1.5 ppm). The test is very sensitive and the blue coloration developing upon contact of the reagents with dissolved H2S is stable for 60 min. Ready-to-use kit such as the Spectroquant sulfide test[4] facilitates the routine analyses. The methylene blue sulfide test is a convenient method often used in soil microbiology to quickly detect in water the metabolic activity of sulfate reducing bacteria (SRB). It must be well noted that in this test, methylene blue is a product of reaction and not a reagent.

The addition of a strong reducing agent, such as ascorbic acid, to a sulfide-containing solution is sometimes used to prevent sulfide oxidation from atmospheric oxygen. Although it is certainly a sound precaution for the determination of sulfide with an ion selective electrode, it might however hamper the development of the blue color if the freshly formed methylene blue is also reduced, as described here above in the paragraph on redox indicator.

Biology

In biology methylene blue is used as a dye for a number of different staining procedures, such as Wright's stain and Jenner's stain. Since it is a temporary staining technique, methylene blue can also be used to examine RNA or DNA under the microscope or in a gel: as an example, a solution of methylene blue can be used to stain RNA on hybridization membranes in northern blotting to verify the amount of nucleic acid present. While methylene blue is not as sensitive as ethidium bromide, it is less toxic and it does not intercalate in nucleic acid chains, thus avoiding interference with nucleic acid retention on hybridization membranes or with the hybridization process itself.

It can also be used as an indicator to determine if a cell such as yeast is alive or not. The blue indicator turns colorless in the presence of active enzymes, thus indicating living cells. However, if it stays blue it doesn't mean that the cell is dead - the enzymes could be inactive/denatured. It must be noted that methylene blue can inhibit the respiration of the yeast as it picks up hydrogen ions made during the process. The yeast cell cannot then use those ions to release energy.

In neuroscience, methylene blue can also serve as a non-selective inhibitor of NO synthase.

Medicine

Methylene blue is a monoamine oxidase inhibitor (MAOI),[5] and if infused intravenously at doses exceeding 5 mg/kg, may precipitate serious serotonin toxicity, serotonin syndrome, if combined with any selective serotonin reuptake inhibitors (SSRIs) or other serotonin reuptake inhibitor (e.g., duloxetine, sibutramine, venlafaxine, clomipramine, imipramine).[6]

Malaria

Methylene blue was identified by Paul Ehrlich about 1891 as a successful treatment for malaria. It disappeared as an anti-malarial during the Pacific War in the tropics, since American and Allied soldiers disliked its two prominent, but reversible side effects: turning the urine green, and the sclera (the whites of the eyes) blue. Interest in its use as an anti-malarial has recently been revived,[7] especially due to its low price. Several clinical trials are in progress, trying to find a suitable drug combination. Initial attempts to combine methylene blue with chloroquine were disappointing;[8] however, more recent attempts have appeared more promising.

Combined with light

Methylene blue combined with light has been used to treat resistant plaque psoriasis,[9] AIDS-related Kaposi's sarcoma,[10] West Nile virus,[11] and to inactivate staphylococcus aureus,[12] HIV-1,[13] Duck hepatitis B,[14] adenovirus vectors,[15] and hepatitis C.[16] Phenothiazine dyes and light have been known to have virucidal properties for over 80 years.[17] In some circumstances, the combination can cause DNA damage that may lead to cancer.[18][19] Combined with Plant Auxin, it is being investigated for the treatment of cancer.[20]

Methemoglobinemia

Owing to its reducing agent properties, methylene blue is employed as a medication for the treatment of methemoglobinemia, which can arise from ingestion of certain pharmaceuticals or broad beans. Basically, methylene blue acts to reduce the heme group from methemoglobin to hemoglobin. Methylene blue also blocks accumulation of cyclic guanosine monophosphate (cGMP) by inhibiting the enzyme guanylate cyclase: this action results in reduced responsiveness of vessels to cGMP-dependent vasodilators like nitric oxide and carbon monoxide.

Cyanide poisoning

Since its reduction potential is similar to that of oxygen and can be reduced by components of the electron transport chain, large doses of methylene blue are sometimes used as an antidote to potassium cyanide poisoning, a method first successfully tested in 1933 by Dr. Matilda Moldenhauer Brooks in San Francisco.[21]

Carbon monoxide poisoning

Methylene blue was also used at mid-century in the treatment of carbon monoxide poisoning.[21]

Dye

Methylene blue is used in endoscopic polypectomy as an adjunct to saline or epinephrine, and is used for injection into the submucosa around the polyp to be removed. This allows the submucosal tissue plane to be identified after the polyp is removed, which is useful in determining if more tissue needs to be removed, or if there has been a high risk for perforation. Methylene blue is also used as a dye in chromoendoscopy, and is sprayed onto the mucosa of the gastrointestinal tract in order to identify dysplasia, or pre-cancerous lesions. Intravenously injected methylene blue is readily released into the urine and thus can be used to test the urinary tract for leaks or fistulas.

In surgeries such as sentinel lymph node dissections, methylene blue can be used to visually trace the lymphatic drainage of pertinent tissues. Similarly, methylene blue is added to bone cement in orthopedic operations to provide easy discrimination between native bone and cement. Additionally, methylene blue accelerates the hardening of bone cement, increasing the speed at which bone cement can be effectively applied.

It can also be used to stain lymph nodes

Placebo

Methylene blue has been used as a placebo; physicians would tell their patients to expect their urine to change color and view this as a sign that their condition had improved.[22] This same side effect makes methylene blue difficult to test in traditional placebo-controlled clinical studies.[23]

Ifosfamide neurotoxicity

Another, less well-known use of methylene blue is its utility for treating ifosfamide neurotoxicity. Methylene blue was first reported for treatment and prophylaxis of ifosfamide neuropsychiatric toxicity in 1994. A toxic metabolite of ifosfamide, chloracetaldehyde (CAA), disrupts the mitochondrial respiratory chain, leading to an accumulation of nicotinamide adenine dinucleotide hydrogen (NADH). Methylene blue acts as an alternative electron acceptor, and reverses the NADH inhibition of hepatic gluconeogenesis while also inhibiting the transformation of chloroethylamine into chloroacetaldehyde, and inhibits multiple amine oxidase activities, preventing the formation of CAA[24] The dosing of methylene blue for treatment of ifosfamide neurotoxicity varies, depending upon its use simultaneously as an adjuvant in ifosfamide infusion, versus its use to reverse psychiatric symptoms that manifest after completion of an ifosfamide infusion. Reports suggest that methylene blue at 50–60 mg up to six doses a day have resulted in improvement of symptoms within 10 minutes to several days.[25] Alternatively, it has been suggested that intravenous methylene blue 50 mg every six hours for prophylaxis during ifosfamide treatment in patients with history of ifosfamide neuropsychiatric toxicity.[26] Prophylactic administration of 50 mg of methylene blue the day before initiation of ifosfamide, and 50 mg three times daily during ifosfamide chemotherapy has been recommended to lower the occurrence of ifosfamide neurotoxicity.[27]

Clinical trials

TauRx Therapeutics has reported that methylene blue (methylthioninium chloride), under the tradename rember, may provide a way of halting or slowing the progression of Alzheimer's dementia.[28] However, the formulation used was different from that commonly available as a medicine and caution has been expressed about use of methylene blue as a treatment for Alzheimer's.[29] TauRx Therapeutics has suggested that the mechanism by which methylene blue might delay or reverse neurodegeneration in Alzheimer's disease is as an inhibitor of Tau protein aggregation. While methylene blue arguably has an effect on Tau aggregation, it also has an effect on mitochondrial function which is likely to play an important role. In vitro studies suggest that methylene blue might be an effective remedy for both Alzheimer's and Parkinson's disease by enhancing key mitochondrial biochemical pathways. It can disinhibit and increase complex IV, whose inhibition correlates with Alzheimer's disease.

Methylene blue might also delay senescence as one study has shown that it extended the lifespan of IMR90 fibroblasts by more than 20 population doublings.[30]

These findings are highly controversial, and a clear dosage response curve has not been found.

Aquaculture

Methylene blue is used in aquaculture and by tropical fish hobbyists as a treatment for fungal infections. It can also be effective in treating fish infected with ich, the parasitic protozoa Ichthyophthirius multifiliis. It is usually used to protect newly laid fish eggs from being infected by fungus or bacteria. This is useful when the hobbyist wants to artificially hatch the fish eggs. Methylene Blue is also very effective when used as part of a "medicated fish bath" for treatment of ammonia, nitrite, and cyanide poisoning as well as for topical and internal treatment of injured or sick fish as a "first response"[31].

As a prank on TV

An episode of M*A*S*H, "Sons and Bowlers", showed Major Winchester using a dose of methylene blue to take down a rival camp's bowling champion during a contest. The champ panics when his urine turns blue, and listens to Winchester's advice to refrain from all exercise – including bowling, which allows the 4077th to win. In an episode of "ER" from the 5th season they use it to play an April Fools' Day prank on the desk clerk Jerry. Small methylene blue amounts cause faint green or blue colors; larger amounts cause a deeper blue color.[32]

Adverse reactions

Cardiovascular Central Nervous System Dermatologic Gastrointestinal Genito-urinary Hematologic
Hypertension
Precordial pain		 Dizziness
• Mental confusion
Headache
Fever		 • Staining of skin
• Injection site necrosis (SC)		 • Fecal discoloration
Nausea
Vomiting
Abdominal pain		 • Discoloration of urine
Bladder irritation		 Anemia

[33][34]

Causes hemolytic anemia in carriers of the G6PD (favism) enzymatic deficiency.

See also

External links

References

  1. ^ http://www.methylene-blue.com/substance.php
  2. ^ Adams V, Marley J, McCarroll C (November 2007). "Prilocaine induced methaemoglobinaemia in a medically compromised patient. Was this an inevitable consequence of the dose administered?". Br Dent J 203 (10): 585–7. doi:10.1038/bdj.2007.1045. PMID 18037845. 
  3. ^ Linz AJ, Greenham RK, Fallon LF (May 2006). "Methemoglobinemia: an industrial outbreak among rubber molding workers". J. Occup. Environ. Med. 48 (5): 523–8. doi:10.1097/01.jom.0000201815.32098.99. PMID 16688009. http://meta.wkhealth.com/pt/pt-core/template-journal/lwwgateway/media/landingpage.htm?an=00043764-200605000-00010. 
  4. ^ Spectroquant 114779 Sulfide Test. Method: photometric 0.020 - 1.50 mg/l S2-
  5. ^ Gillman PK (May 2008). "Methylene blue is a potent monoamine oxidase inhibitor". Can J Anaesth 55 (5): 311–312. PMID 18451123. 
  6. ^ Gillman PK (October 2006). "Methylene blue implicated in potentially fatal serotonin toxicity". Anaesthesia 61 (10): 1013–4. doi:10.1111/j.1365-2044.2006.04808.x. PMID 16978328. 
  7. ^ Schirmer H, Coulibaly B, Stich A, et al. (2003). "Methylene blue as an antimalarial agent—past and future". Redox Rep 8: 272–276. doi:10.1179/135100003225002899. 
  8. ^ Meissner PE, Mandi G, Coulibaly B, et al. (2006). "Methylene blue for malaria in Africa: results from a dose-finding study in combination with chloroquine". Malaria Journal 5: 84. doi:10.1186/1475-2875-5-84. 
  9. ^ Salah M, Samy N, Fadel M (January 2009). "Methylene blue mediated photodynamic therapy for resistant plaque psoriasis". J Drugs Dermatol 8 (1): 42–9. PMID 19180895. 
  10. ^ Tardivo JP, Del Giglio A, Paschoal LH, Baptista MS (August 2006). "New photodynamic therapy protocol to treat AIDS-related Kaposi's sarcoma". Photomed Laser Surg 24 (4): 528–31. doi:10.1089/pho.2006.24.528. PMID 16942436. 
  11. ^ Papin JF, Floyd RA, Dittmer DP (November 2005). "Methylene blue photoinactivation abolishes West Nile virus infectivity in vivo". Antiviral Res. 68 (2): 84–7. doi:10.1016/j.antiviral.2005.07.001. PMID 16118025. 
  12. ^ Zolfaghari PS, Packer S, Singer M, Nair SP, Bennett J, Street C, Wilson M (2009). "In vivo killing of Staphylococcus aureus using a light-activated antimicrobial agent". BMC Microbiol. 9: 27. doi:10.1186/1471-2180-9-27. PMID 19193212. 
  13. ^ Floyd RA, Schneider JE, Dittmer DP (March 2004). "Methylene blue photoinactivation of RNA viruses". Antiviral Res 61 (3): 141–51. doi:10.1016/j.antiviral.2003.11.004. PMID 15168794. 
  14. ^ Wagner SJ, Skripchenko A, Pugh JC, Suchmann DB, Ijaz MK (September 2001). "Duck hepatitis B photoinactivation bydimethylmethylene blue in RBC suspensions". Transfusion 41 (9): 1154–8. PMID 11552074. 
  15. ^ Schagen FH, Moor AC, Cheong SC, Cramer SJ, van Ormondt H, van der Eb AJ, Dubbelman TM, Hoeben RC (May 1999). "Photodynamic treatment of adenoviral vectors with visible light: an easy and convenient method for viral inactivation". Gene Ther. 6 (5): 873–81. doi:10.1038/sj.gt.3300897. PMID 10505113. 
  16. ^ Müller-Breitkreutz K, Mohr H (November 1998). "Hepatitis C and human immunodeficiency virus RNA degradation by methylene blue/light treatment of human plasma". J Med Virol 56 (3): 239–45. PMID 9783692. 
  17. ^ Wagner SJ, Skripchenko A, Robinette D, Mallory DA, Hirayama J, Cincotta L, Foley J (2000). "The use of dimethylmethylene blue for virus photoinactivation of red cell suspensions". Dev Biol (Basel) 102: 125–9. PMID 10794099. 
  18. ^ Sturmey RG, Wild CP, Hardie LJ (May 2009). "Removal of red light minimizes methylene blue-stimulated DNA damage in oesophageal cells: implications for chromoendoscopy". Mutagenesis 24 (3): 253–8. doi:10.1093/mutage/gep004. PMID 19218330. 
  19. ^ Olliver JR, Wild CP, Sahay P, Dexter S, Hardie LJ (August 2003). "Chromoendoscopy with methylene blue and associated DNA damage in Barrett's oesophagus". Lancet 362 (9381): 373–4. PMID 12907012. 
  20. ^ http://cancerres.aacrjournals.org/cgi/content/full/63/4/776
  21. ^ a b Matilda Moldenhauer Brooks (1936). "Methylene Blue as an Antidote for Cyanide and Carbon Monoxide Poisoning". The Scientific Monthly 43 (6): 585–586. http://links.jstor.org/sici?sici=0096-3771%28193612%2943%3A6%3C585%3AMBAAAF%3E2.0.CO%3B2-%23. 
  22. ^ Novella Steve. "The Ethics of Deception in Medicine". Science Based Medicine. http://www.sciencebasedmedicine.org/?p=29. Retrieved 2008-01-24. 
  23. ^ "Methylene blue for cognitive dysfunction in bipolar disorder". United States National Library of Medicine. September 20, 2005. http://clinicaltrials.gov/ct2/show/NCT00214877. Retrieved 2009-02-15. 
  24. ^ Alici-Evcimen Y, Breitbart WS (October 2007). "Ifosfamide neuropsychiatric toxicity in patients with cancer". Psychooncology 16 (10): 956–960. doi:10.1002/pon.1161. PMID 17278152. 
  25. ^ Patel PN (2006). "Methylene blue for management of ifosfamide induced encephalopathy". Ann Pharmacother 40: 266–303. doi:10.1345/aph.1G114. PMID 16391008. 
  26. ^ Dufour C, Grill J, Sabouraud P, et al. (February 2006). "Ifosfamide induced encephalopathy: 15 observations" (in French). Arch Pediatr 13 (2): 140–145. doi:10.1016/j.arcped.2005.10.021. PMID 16364615. 
  27. ^ Aeschlimann T (1996). "Inhibition of (mono)amine oxidase activity and prevention of ifosfamide encephalopathy by methylene blue". Drug Metab Dispos 24: 1336–1339. 
  28. ^ "Alzheimer's drug 'halts' decline". BBC News. 2008-07-30. http://news.bbc.co.uk/1/hi/health/7525115.stm. Retrieved 2008-07-30. 
  29. ^ "Slowing disease's mental ravages". Chicago Tribune. 2008-07-30. http://www.chicagotribune.com/features/lifestyle/health/chi-alzheimers-wedjul30,0,3112870.story. 
  30. ^ Atamna H, Nguyen A, Schultz C, Boyle K, Newberry J, Kato H, Ames BN (March 2008). "Methylene blue delays cellular senescence and enhances key mitochondrial biochemical pathways". Faseb J. 22 (3): 703–712. doi:10.1096/fj.07-9610com. PMID 17928358. 
  31. ^ [1]Aquarium Chemical Treatments
  32. ^ "Medical use with side effects indicating blue urine". Medicinenet.com. http://www.medicinenet.com/methylene_blue-oral/article.htm. 
  33. ^ Mokhlesi B, Leikin JB, Murray P, Corbridge TC (March 2003). "Adult toxicology in critical care: Part II: specific poisonings". Chest 123 (3): 897–922. PMID 12628894. 
  34. ^ Harvey JW, Keitt AS (May 1983). "Studies of the efficacy and potential hazards of methylene blue therapy in aniline-induced methaemoglobinaemia". Br J Haematol 54 (1): 29–41. PMID 6849836. 
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Dental Dictionary. Mosby's Dental Dictionary. Copyright © 2004 by Elsevier, Inc. All rights reserved.  Read more
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