https://www.npr.org/sections/goatsandsoda/2018/02/09/584285815/blue-dye-kills-malaria-parasites-but-there-is-one-catch

Blue Dye Kills Malaria Parasites — But There Is One Catch

FEBRUARY 9, 2018

It's hard to imagine that a blue dye sold in pet food stores in the U.S. to fight fungal infections in tropical fish could be a potent weapon against malaria.

A study published this week in The Lancet Infectious Diseases showed that might be possible. Researchers added doses of the dye to dihydroartemisinin-piperaquine, a go-to malaria drug, and found that the dye killed the parasites that spread malaria within two days. So if a mosquito were to bite a person recovering from malaria, the mosquito couldn't pick up live parasites and spread them to its next human target.

By contrast, after a week, people who got that malaria drug without methylene blue continued to pass the parasite to mosquitoes.

Actually, the use of the dye to fight malaria is not quite as odd as it sounds. The blue dye in question, called methylene blue, is the oldest synthetic anti-malarial drug. A paper published in 1891 tells how two scientists successfully used it to treat a malaria patient.

But there was a catch.

"The treatment being followed by an intense blue coloring of the urine, and the faeces becoming blue on exposure to light, it is not very likely that methylene blue will be much used outside of hospitals," reads an 1892 publication of the Proceedings of the American Pharmaceutical Association.

"Because of the color, it never really took off," agrees Ingrid Chen, one of the study's lead authors and an assistant professor of epidemiology and biostatistics at the University of California, San Francisco's School of Medicine. UCSF's Institute of Global Health Sciences collaborated on the study with the Malaria Research and Training Center in Mali, the Radboud Institute for Health Sciences and the London School of Hygiene & Tropical Medicine.

The dye contains carbon, hydrogen, chlorine, nitrogen and sulfur. It's often added to a liquid and used as a lab stain, making it easier to see some cell parts and types of bacteria through a microscope.

Chen and her colleagues designed a study based at the University of Bamako in Mali to test the safety and impact of methylene blue in stopping transmission of malaria parasites to mosquitoes.

All of the 80 participants, men and boys ages 5 to 50, were carrying gametocytes, a stage of the malaria parasite that can be passed from humans to mosquitoes. But they weren't experiencing any malaria symptoms and had not taken any anti-malarials within seven days of screening for the study.

Participants were split into four groups and given four different types of treatment, ranging from anti-malarial pills and methylene blue to malaria medication with no added dye.

Adding methylene blue to malaria treatment could help avoid a common problem with current treatments: They kill the stage of the parasite that causes a person's symptoms, but they can actually make it easier for a person to transmit the infection. "As the [malaria] infection is dying, it releases a wave of these different forms of parasites — the male and female gametocyte. It tries to catch the next mosquito out of there to a more healthy environment," says Chris Plowe, director of the Global Health Institute at Duke University, who was not involved in the study. "You do cure the infection, but at a cost of sending out these waves of gametocytes to other people via mosquito."

Plowe sees the blue-dye approach as potentially helpful in countries like Mali, where malaria rates remain high despite efforts to lower transmission, such as distributing bed nets and rapid diagnostic testing.

William Moss, a professor at the Johns Hopkins Malaria Research Institute who also wasn't involved in the study, adds that primaquine and methylene blue could be particularly helpful in places that already have low malaria transmission and are trying to eliminate it.

But there are still some unknowns: Will methylene blue actually be able to reduce transmission rates in the field?

Moss sees some potential challenges.

One concern is that you'd have to give this treatment to a "high enough proportion of individuals within the community who are infectious," Moss says.

And then there's the problem cited back in the 19th century: the blue urine.

"The knee-jerk reaction is, 'My body's full of this chemical,' " Chen says, adding that the color change doesn't cause any health problems. "It looks worse than it is." And it only lasts about a week.

So people would have to be educated about this side effect, she notes.

Moss agrees: If "people don't like the blue urine, they refuse to take the meds."

>>22645132

Patents for methylene blue

Avian Flu or Bird Flu

Hmmmmmmmmmmmm

Description

METHYLENE BLUE THERAPY OF AVIAN INFLUENZA ^

Cross-Reference To Related Application

This application claims the benefit of U. S. Provisional Application No. 60/737,332 filed in the U. S. Patent and Trademark Office on November 16, 2005, by Christopher Wood and Robert C. Sterling.

Field of the Invention

This invention is generally in the area of methods for the treatment of viral diseases, and more specifically relates to the treatment of type A influenza viruses, specifically avian flu viruses, using thiazine dyes, and in particular methylene blue.

Background of the Invention

Avian flu is an infection caused by avian (bird) influenza (flu) viruses. These flu viruses occur naturally among birds. Wild birds worldwide carry the viruses in their intestines, but usually do not get sick from them. However, bird flu is very contagious among birds and can make some domesticated birds, including chickens, ducks, and turkeys, very sick and/or kill them. Avian influenza viruses may be transmitted from animals to humans in two main ways: directly by contact with birds or an avian virus- contaminated environment or through an intermediate host, such as a pig, which can be infected by both human and avian flu strains.

Read moar:

https://patents.google.com/patent/WO2007086995A2/en

Methylene blue therapy of avian influenza

Abstract

A method for using thiazine dyes, especially methylene blue, alone or in combination with low levels of light, to treat or prevent avian influenza virus is described. Examples of useful thiazine dyes are methylene blue, azure A, azure C, toluidine, and thionine. The preferred dye is methylene blue, administered orally twice a day.

>>22645132

>>22645174

Patent for Methylene Blue parasites

Methylene blue therapy of parasitic infections

Abstract

A method for using thiazine dyes, especially methylene blue, alone or in combination with low levels of light, to treat parasitic diseases is described. Examples of useful thiazine dyes are methylene blue, azure A, azure C, toluidine, and thionine. The preferred dye is methylene blue, administered orally twice a day. Since methylene blue absorbs in the red wavelengths, i.e., approximately 670 nm, which penetrates tissue much better than other lower wavelengths, light penetrating the skin to the capillaries at the surface can be used to enhance the activity of the dye. The thiazine dye can be provided in combination with other known antibiotics, anti-inflammatories, anti-parasitics, antifungals, and antivirals.

Description

METHYLENE BLUE THERAPY OF PARASITIC INFECTIONS

Background of the Invention

This invention is generally in the area of methods for the treatment of parasitic diseases, and more specifically relates to the treatment of parasites using thiazine dyes, and in particular methylene blue.

Protozoa require the invasion of a suitable host to complete all or part of their life cycle. Such organisms are therefore termed parasites. Parasite infections affect millions of people world- wide afflicting considerable human suffering and economic hardship. Far from declining, many parasite infections are increasing throughout the world. The impact of Human Immunodeficiency Virus (HIV) and AIDS has seen the emergence of "new" opportunistic parasites as well as the increased prevalence of other recognized types. Climatic changes induced through global warming have aided the spread of many parasite diseases, whilst starvation and the breakdown in sanitation that accompanies war have seen the re-emergence of others. The appearance of drug resistance has also dramatically influenced the ability to treat and control many parasite diseases. In the United Kingdom parasite infections are relatively uncommon. However, outbreaks of cryptosporidiosis associated with drinking water supplies have been of major concern, and toxoplasmosis remains a serious infection for the fetus when acquired during pregnancy.

More than 340 parasitic species infect more than 3 billion people worldwide with varying morbidity and mortality. Examples of parasites include, but are not limited to Trypanosoma, Leishmania, Toxoplasma, Eimeria, Neospora, Cyclospora and Cryptosporidia. Acquisition of infection, clinical severity, and outcome of a parasitic disease depend on innate and acquired host immunity as well as the parasite's own immune response against the host when infection is established. Treatments are usually species specific, sometimes parasite stage specific, often expensive, and many parasites have become resistant to available drugs. Moreover, while treatments are available for some parasites, many anti-parasitic drugs have the potential for gastrointestinal, hepatic, renal, and hematologic toxicity, and may interact with the metabolism of immunosuppressive agents.

It is therefore an object of the present invention to provide methods and compositions for treatment or prevention of parasitic diseases.

It is a further object of the present invention to provide methods and compositions for relatively inexpensive treatment of parasitic diseases.

Summary of the Invention

A method for using thiazine dyes, especially methylene blue, alone or in combination with low levels of light, to selectively inactivate or inhibit parasitic diseases is described. Examples of useful thiazine dyes are methylene blue, azure A, azure B, azure C, methylene green, new methylene blue, Taylor's blue, Toluidine Blue O, and thionine. The preferred dye at this time is methylene blue. Since methylene blue absorbs in the red wavelengths, i.e., approximately 670 nm, which penetrates tissue much better than other lower wavelengths, light penetrating the skin to the capillaries at the surface can be used to enhance the activity of the dye. The thiazine dye can be provided in combination with other known antibiotics, anti-inflammatories, antifungals, anti-parasitics and antivirals.

Rad moar:

https://patents.google.com/patent/WO2007038201A1/en

>>22645132

A lot of people are dumb. They stop taking medications or cure because of tadte or blue pee.

Retards.

The pee is really kinda light green.

Pee is yellow. Methylene blue is blue.

Bleu and yellow make green.

You only take 1-10 drops. When a few days later you see clear pee, you know to take it again.

Start with 1-2 drops, see how you do.

Up dosage as you see fit.

Some people take much more.

Also, can suck on a vit c tablet after taking and will remove the blue from tongue.

Citric acid powder or lemon juice works also when taken together or right after, and helps with absorption.

>>22645132

>>22645221

Read reviews.

I bought mine online at Walmart from tjis company.

$32 and a really big bottle..

I put the bottle in a big bowl with high walls before opening. To prevent stain on countertops.

Before opening I make sure cap on tight, skake while squezing the dropper lidcap, to get all into bottle, then as I open I sqirt most all from the dropper into the bottle, so I only get a very samll amount in the dropper, again to not get any mess.

Easy, just use where if you do drop a bit you can clean easily.

Again, I always open same place and set the bottle in a high edged bowl.

You can drop a fe drops back of tongue or put drops in a liquid and drink down back of throat like a shot, so no blue tongue.

Suck on a vitamin c tablet or lemon juice, or citric acid powder and no blue tongue.

Simple citric acid powder you get in the canning food jar aisle at Walmart, like $5 bucks, big bottle.

>>22645246

Read reviews

https://www.earthharmony.com/products/methylene-blue

34.95

https://www.walmart.com/ip/Methylene-Blue-Pharmaceutical-Grade-99-99-For-Humans-2-fl-oz/3366844073

>>22645132

>>22645221

>>22645246

>>22645256

>>22645132

Or the fish stuff.

Same stuff

https://kensfish.com/products/kordon-methylene-blue-4-oz

Like $6

https://kensfish.com/products/kordon-methylene-blue-4-oz

Just a drop or two

I know right.

>>22645189

But they want to make money on it.

I took two drops back of tongue just about an hour ago.

Weird thing, but good, I immediatley felt my throat clear of a contact little felling of something always just stuck in there. I thought I was imaging it, but no, the little feeling of a little something always on the right side of throat just IS GONE. Like within five minutes.

DAMN.

That alone makes the blue tongue A- OK with me.

I always was aware of it every simple saliva swallow.

It has been an hor now and my throat feels great. I have had this little feeling in throat for years.

My throat feels like it has more diameter now.

Wow.

>>22645132

Do methylene blue not take with SSRI’s

Antidepressants

Not a good combo.

Check what RX to not combine with.

>>22645132

The German scientist who made Methlene Blue had things right.

A hat tip to German men.

German chemist Heinrich Caro invented methylene blue in 1876. Caro was the first head of research at BASF, a chemical company in Ludwigshafen, Germany.

How was methylene blue discovered?

Caro synthesized methylene blue while experimenting with a new intermediate product.

He developed it as a cotton dye.

It quickly became popular in the textile industry for its vibrant blue color.

How is methylene blue used today?

It's used as a medical stain to selectively stain bacteria and microbes for easy visualization under a microscope.

It's used as an indicator for redox reactions.

It's used as a photosensitizer for generating singlet oxygen.

It's used as a drug to treat methemoglobinemia.

It's on the World Health Organization's List of Essential Medicines.

Other discoveries related to methylene blue:

In 1880, microbiologist R. Koch established it as a medical stain.

In 1891, Paul Ehrlich used it to stain malaria parasites, laying the groundwork for modern chemotherapy.

AND MENOPUASE SYMPTOMS

Hot flashes

Tell the women…..

Methylene Blue and Menopause

Methylene blue is a dye that has been used for various medical purposes, including treating certain types of infections and improving blood flow.

Some studies have suggested that methylene blue may have potential benefits for women experiencing menopause.

Potential Benefits:

Alleviation of hot flashes:

Some studies have shown that methylene blue may reduce the frequency and severity of hot flashes, a common symptom of menopause.

Improvement in mood:

Methylene blue has been found to have antidepressant effects in some studies, which may help improve mood swings associated with menopause.

Antioxidant properties:

Methylene blue is an antioxidant that may protect cells from damage caused by free radicals, which are thought to contribute to aging and other health problems.

Bone health:

Some research suggests that methylene blue may improve bone density, which is a concern for menopausal women.

>>22645132

>>22645342

Methylene Blue

Tell your wives and girlfriends.

AND MENOPUASE SYMPTOMS

Hot flashes

Tell the women…..

Methylene Blue and Menopause

Methylene blue is a dye that has been used for various medical purposes, including treating certain types of infections and improving blood flow.

Some studies have suggested that methylene blue may have potential benefits for women experiencing menopause.

Potential Benefits:

Alleviation of hot flashes:

Some studies have shown that methylene blue may reduce the frequency and severity of hot flashes, a common symptom of menopause.

Improvement in mood:

Methylene blue has been found to have antidepressant effects in some studies, which may help improve mood swings associated with menopause.

Antioxidant properties:

Methylene blue is an antioxidant that may protect cells from damage caused by free radicals, which are thought to contribute to aging and other health problems.

Bone health:

>>22645132

>>22645346

The main benefit of methylene blue is its role as a nitric oxide and estrogen antagonist, which can improve thyroid function and overall energy levels.

Methylene blue is an anti-fungal, antiviral, and antibacterial agent. The most common use of methylene blue is for the treatment of methemoglobinemia.

https://raena.com/methylene-blue-during-menopause-what-it-is-and-when-to-use-it/

Benefits of MB:

• Improves memory

• Boosts mitochondrial function

• Potential antidepressant

• Protects nerve function

• Anti-aging properties

• Resists Alzheimer’s

• Antidepressant

• Improves cognition

• Lowers blood pressure

Methylene blue’s most profound use may be in the brain since it can assist in proper energy production and the brain is what requires the most energy. A lack of proper energy production is why we see so much brain neurodegeneration.

“Your brain’s neurons rely almost entirely on mitochondria-derived energy. Failure of mitochondrial function affects the entire system.

This is where MB steps in as possibly one of the most important anti-aging and neurological disease-preventing nootropics.

Unlike other nootropics which often work by increasing neurotransmitter synthesis, MB improves memory by increasing brain cell respiration (how brain cells utilize oxygen).

Oral MB has been shown to increase MRI activity during sustained attention and short-term memory tasks.

MB has a unique mechanism of action that is fundamentally different from traditional antioxidants. Studies show low-dose MB scavenges the mitochondria and cytosol for free electrons to accept and neutralize. It stops the oxidative cascade at its very beginning.

One of the most promising areas of MB research is in neurodegenerative disease. Recent studies in animal models of Alzheimer’s Disease have shown that MB may slow the formation of amyloid plaques and neurofibrillary tangles.

Methylene blue is not for everyone: especially those with hypersensitive reactions and severe renal insufficiency. It is contraindicated in G6PD deficiencies as it can cause severe hemolysis.

MB is an MAO inhibitor and therefore can also interact with (SSRI) and MAO inhibitors. Only low doses are needed and it is not recommended if you are on an SSRI.

Low-dose Methylene blue provides memory-enhancing effects. It works as an antidepressant, anti-aging, and fights diseases such as dementia, Huntington’s, Alzheimer’s.”

How do you know if methylene blue is actually working?

One way to do this is by checking your metabolic rate. A simple underarm temperature and pulse rate check may be a good way to know how your body is responding. The temperature should be 98.6 F in the mid-afternoon of the day and 85 beats /minute. Methylene blue can help with cell’s energy production, making the metabolic rate test possible.

>>22645361

Thyroid

>>22645293 I bet that is why.

Right near thyroid.

Instant relief of the throat issue.

Will be doing thyroid methylene blue research now.

>>22645132

>>22645368

>>22645361

>>22645132

Ai

Some studies suggest that MB may have antioxidant and anti-inflammatory effects that could benefit thyroid health.

It has been shown to inhibit the production of thyroid-stimulating hormone (TSH), which may regulate thyroid hormone levels.

Good lengthy article benefits of methylene blue

https://www.drlaurendeville.com/methylene-blue/

This stood out for me.

Methylene Blue’s Impact on Hormones

Probably because of its metabolic effects, methylene blue also increases thyroid hormone production, the primary metabolic hormone.

Prolactin and thyroid tend to move in opposite directions, so methylene blue tends to lower prolactin also.

Testosterone, which tends to increase Growth Hormone, rises under the influence of methylene blue, while its downstream product, estrogen, tends to fall.

I am going to was and scrub feet really good tomorrow, rough up the soles with a brush, then paint methylene blue on soles of feet. Feet is a good place to place things like this as an antifungul, but also uptakes into blood quickly.

I will update what results.

>>22645400

>>22645392

>>22645132

https://pmc.ncbi.nlm.nih.gov/articles/PMC8165385/

Methylene Blue Application to Lessen Pain: Its Analgesic Effect and Mechanism

Abstract

Methylene blue (MB) is a cationic thiazine dye, widely used as a biological stain and chemical indicator. Growing evidence have revealed that MB functions to restore abnormal vasodilation and notably it is implicated even in pain relief. Physicians began to inject MB into degenerated disks to relieve pain in patients with chronic discogenic low back pain (CDLBP), and some of them achieved remarkable outcomes. For osteoarthritis and colitis, MB abates inflammation by suppressing nitric oxide production, and ultimately relieves pain. However, despite this clinical efficacy, MB has not attracted much public attention in terms of pain relief. Accordingly, this review focuses on how MB lessens pain, noting three major actions of this dye: anti-inflammation, sodium current reduction, and denervation. Moreover, we showed controversies over the efficacy of MB on CDLBP and raised also toxicity issues to look into the limitation of MB application. This analysis is the first attempt to illustrate its analgesic effects, which may offer a novel insight into MB as a pain-relief dye.

Keywords: methylene blue, pain, anti-inflammation, sodium current, denervation

Introduction

In 1876, German chemist Heinrich Caro synthesized methylene blue (MB) for the first time in history, which was basically applied for textiles as an aniline dye. Around the same time, it was found that MB is capable of staining cells by binding to their structures, in addition, sometimes inactivating bacteria. This discovery prepared the innovative ground for biological or medical studies related to MB. Numerous scientists applied it to a variety of animal and bacterial studies, importantly Paul Ehrlich introduced it to humans in 1891 as an anti-malarial agent. Indeed, this dye has been introduced to treat different diseases even including dementia, cancer, and depression (Wainwright and Crossley, 2002; Schirmer et al., 2003; Schirmer et al., 2011).

Cont

>>22645466

Cont:

In the present day, MB is primarily known for a vasoconstrictor. It downregulates basically nitric oxide (NO), which is responsible for relaxing vascular smooth muscle, and leads to vasoconstriction (Wolin et al., 1990; Pan et al., 2019). However, under pathological conditions, NO is overexpressed and then contributes to inflammation as a pro-inflammatory mediator (Luo and Cizkova, 2000; Lundberg et al., 2008; Leiper and Nandi, 2011). Of note, MB suppresses the iNOS/NO-mediated inflammatory signaling by directly downregulating inducible NO synthase (iNOS) (Cohen et al., 2000). In addition, P2X receptor family, long non-coding RNA (lncRNA), and inflammasome are also involved in MB-mediated anti-inflammation (Ahn et al., 2017; Li et al., 2018; Zheng and Li, 2019). Accordingly, MB application can be an important strategy to reduce inflammation and pain.

In general, voltage-gated sodium channels (VGSCs) play an important role in evoking action potentials (APs) and, when activated, they consequently contribute to exciting neurons and thus facilitating communication with other ones. Interestingly, MB decreased significantly INA (voltage-gated sodium currents) in hippocampal CA1 neurons and, more importantly, attenuated markedly neural firing rates in the afferent nerve fibers (Zhang et al., 2010; Lee et al., 2021), which implies that MB may impede pain transmission by dampening neuronal excitability elicited by VGSCs.

In addition, MB may contribute to pain reduction by hindering or damaging nerve connection to tissues, which is referred to as denervation. Indeed, it can make affected nerve fibers or neurons incapable of sensing pain. Peng et al. (2007) conducted intradiscal MB injection in patients with chronic discogenic low back pain (CDLBP) to relieve pain for the first time. Most of patients showed encouraging results and this improvement lasted at least one year. Moreover, in a case, there were no noticeable side effects and complications in those patients even after prolonged follow-ups (Peng et al., 2010). However, as opposed to expectations, these outstanding outcomes faced a lot of challenges. We will deal with the controversies around the results in the relevant section.

Despite these remarkable reports, MB has not drawn much attention from the public specifically concerning pain. Thus, in this review, we will show MB-driven analgesic effects and their possible mechanisms along with the relevant experimental evidence and clinical cases. Finally, we will provide a novel insight into MB as a pain reliever.

Read moar:

https://pmc.ncbi.nlm.nih.gov/articles/PMC8165385/

Whatever your issue, simply type in

ailment and methylene blue benefits

It seems to help sooooooo much.

Just don’t take with anti depressents SSRIs

>>22645400

>>22645392

>>22645132

I put methylene blue on lesions /sores on lower legs. 2 hours ago.

The redness and welling has diminished considerably and the tenderness/ pain is currently GONE!

Blue skin, but holy cow.

>>22645468

>>22645466

>>22645132

*swelling , not welling.

>>22645484

Hahahahaa

I thought about what you guise would say as i was typing that.

But true.

>>22645329 kek

>>22645368

>>22645132

>>22645329

>>22645293

>>22645329

>>22645511

>>22645132

So funny.

>>22645329

But can attest, throat does feel moar open…kek

And to the touch throat doesn’t feel as bumpy or swollen.

Like the inward parts of throat, thyroid got less inflamed.

>>22645293

>>22645132

Fafo incoming boomerang

>>22645513

>>22645132

Will probably get on balls and make blue

Kek

Can use on itchy anus and hemmorhoids.

Methylene Blue, a Unique Topical Analgesic: A Case Report

Abstract

Background: Rectal prolapse is a circumferential, full-thickness protrusion of the rectum through the anus, which, if not properly managed, may become incarcerated and pose a risk of strangulation. This pathology is rarely a medical emergency unless a complication is encountered. Such complications include infection, necrosis, perforation, incarceration, and uncontrolled pain.

Case Presentation: We report a case of an elderly patient with pain associated with chronic rectal prolapse. Surgical intervention had been ruled out, and there had been no pain relief after using systemic analgesics.

Case Management: Based on increasing reports of analgesic properties, topical methylene blue (MB) 0.1% was applied externally at the prolapsed organ, obtaining pain relief.

Case Outcome: The patient experienced immediate and long-lasting pain relief;

MB applications were continued every 12 hours as needed. After this therapy, the patient was no longer in need of systemic analgesics. No side effects were reported.

Conclusion: Topical MB may be an effective analgesic for the management of pain associated with chronic rectal prolapse. This treatment might be extrapolated to other clinical scenarios of tegumentary pain. Similar use has been shown to be safe and effective in other pathologies, including pain in oral mucositis associated with cancer therapy.

https://www.liebertpub.com/doi/10.1089/jpm.2024.0033

Already used as an injection in hospitals.

https://www.liebertpub.com/doi/10.1089/jpm.2024.0033

AI Overview

+4

Methylene blue is a dye that can be injected around the anus to treat pain and discomfort after hemorrhoidectomy surgery. It can also help with severe itching around the anus.

How does methylene blue help with hemorrhoids?

Pain relief: Methylene blue can reduce pain by blocking nerve conduction.

Inflammation: Methylene blue can reduce inflammation by inhibiting the production of nitric oxide.

Itching: Methylene blue can help with severe itching around the anus.

How is methylene blue used?

Methylene blue is injected around the anus (perianal).

Methylene blue is combined with local anesthetic drugs to reduce burning that can occur after injection.

Other uses for methylene blue

Methylene blue has also been used to treat postherpetic neuralgia and intractable anal pruritus.

>>22645132

Toothaches gum pain?

MB

Methylene Blue

AI Overview

+2

Methylene blue can potentially help alleviate gum and tooth pain, particularly when used as an oral rinse, as it has analgesic properties

Methylene Blue for the Treatment of Intractable Pain Associated with Oral Mucositis

Carlos J Roldan 1 2 3 4 , Kent Nouri 1 , Thomas Chai 1 , Billy Huh 1

Affiliations expand

PMID: 28226414 DOI: 10.1111/papr.12566

Abstract

Oral mucositis is a common and often debilitating complication among cancer patients receiving radiation therapy to the head and neck or chemotherapy agents, or undergoing hematopoietic stem cell transplantation. Pain and decreased oral function associated with oral mucositis may persist long after the conclusion of therapy. Although most patients respond to conservative management, a subset of patients develops intractable pain with severe consequences. For some, the use of total parenteral nutrition with insertion of percutaneous endoscopic gastrostomy feeding tubes is the only alternative. Current recommendations to treat mucositis and its related pain include basic oral care, bland oral rinses, topical anesthetics, and systemic analgesics. We believe that chemical neurolysis of the affected areas with methylene blue used as an oral rinse is a noninvasive, efficient, safe, and cost-effective alternative that can provide prolonged analgesia in patients with intractable pain of oral mucositis. The benefits of this therapy are reflected in its improvement of patients' quality of life by enabling oral feeding and controlling pain. We report a series of 5 consecutive patients with intractable oral mucositis-related pain despite conventional treatment with systemic opiates. All 5 patients responded well to the use of 0.05% methylene blue as mouth rinse, demonstrating sustained analgesia over 3 weeks. The treatment was tolerated well, and overall patient satisfaction was very high. We also observed that methylene blue rinse significantly reduced the total opioid requirement, as demonstrated by reductions in the patients' morphine equivalent daily dose scores after its use. Our case series suggests that 0.5% methylene blue oral rinse therapy is an effective and inexpensive modality that can be used safely to palliate intractable oral pain in patients with mucositis associated with cancer treatment. To our knowledge, this is the first report using this therapy to treat pain from oral mucositis.

Keywords: adjuvants; cancer; intractable; pain.

https://pubmed.ncbi.nlm.nih.gov/28226414/

>>22645132

>>22645612

> use of 0.05% methylene blue as mouth rinse, demonstrating sustained analgesia over 3 weeks. The treatment was tolerated well, and overall patient satisfaction was very high.

< We also observed that methylene blue rinse significantly reduced the total opioid requirement, as demonstrated by reductions in the patients' morphine equivalent daily dose scores after its use. Our case series suggests that 0.5% methylene blue oral rinse therapy is an effective and inexpensive modality that can be used safely to palliate intractable oral pain in patients with mucositis associated with cancer treatment. To our knowledge, this is the first report using this therapy to treat pain from oral mucositis.