Trimethylaminuria: Difference between revisions

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{{SI}}
{{Infobox medical condition
| name            = Trimethylaminuria
| image          = [[File:Trimethylamine_chemical_structure.png|left|thumb|Chemical structure of trimethylamine]]
| caption        = Chemical structure of trimethylamine
| synonyms        = Fish odor syndrome
| pronounce      =
| specialty      = [[Genetics]], [[Metabolism]]
| symptoms        = [[Body odor]] resembling [[rotting fish]]
| onset          = Often present from birth
| duration        = Long-term
| causes          = [[Genetic mutation]] in the [[FMO3]] gene
| risks          =
| diagnosis      = [[Urine test]], [[Genetic testing]]
| differential    =
| prevention      =
| treatment      = [[Dietary modification]], [[Activated charcoal]], [[Antibiotics]]
| medication      =
| frequency      = Rare
| deaths          =
}}
{{Short description|A metabolic disorder affecting the breakdown of trimethylamine}}
{{Short description|A metabolic disorder affecting the breakdown of trimethylamine}}
[[File:Autorecessive.svg|thumb|right|Diagram showing autosomal recessive inheritance.]]
[[File:Autorecessive.svg|left|thumb|Diagram showing autosomal recessive inheritance.]]
[[File:Trimethylamine_chemical_structure.png|thumb|right|Chemical structure of trimethylamine.]]
'''Trimethylaminuria''' is a [[metabolic disorder]] in which an individual is unable to convert [[trimethylamine]] into [[trimethylamine N-oxide]]. This condition has existed for centuries but has only gained scientific recognition and support in the past 30 years.
'''Trimethylaminuria''' is a [[metabolic disorder]] in which an individual is unable to convert [[trimethylamine]] into [[trimethylamine N-oxide]]. This condition has existed for centuries but has only gained scientific recognition and support in the past 30 years.
== What is Trimethylamine? ==
== What is Trimethylamine? ==
[[Trimethylamine]] is the compound responsible for the strong [[fish odor]]. In contrast, [[trimethylamine N-oxide]] is odorless.
[[Trimethylamine]] is the compound responsible for the strong [[fish odor]]. In contrast, [[trimethylamine N-oxide]] is odorless.
== What are the symptoms of trimethylaminuria? ==
== What are the symptoms of trimethylaminuria? ==
In individuals with trimethylaminuria, trimethylamine accumulates in the body and is released through [[sweat]], [[urine]], [[reproductive fluids]], and [[breath]], causing a strong [[fishy odor]]. The severity of the odor varies among individuals. Despite this symptom, affected individuals are typically [[healthy]].
In individuals with trimethylaminuria, trimethylamine accumulates in the body and is released through [[sweat]], [[urine]], [[reproductive fluids]], and [[breath]], causing a strong [[fishy odor]]. The severity of the odor varies among individuals. Despite this symptom, affected individuals are typically [[healthy]].
The condition appears to be more common in [[women]] than in [[men]], possibly due to the influence of [[sex hormones]] such as [[progesterone]] and [[estrogen]]. Symptoms often worsen around [[puberty]], [[menstruation]], after taking [[oral contraceptives]], and around [[menopause]].
The condition appears to be more common in [[women]] than in [[men]], possibly due to the influence of [[sex hormones]] such as [[progesterone]] and [[estrogen]]. Symptoms often worsen around [[puberty]], [[menstruation]], after taking [[oral contraceptives]], and around [[menopause]].
== What causes trimethylaminuria? ==
== What causes trimethylaminuria? ==
Trimethylaminuria results from an impaired version of the enzyme [[flavin-containing monooxygenase 3]] (FMO3), which converts [[trimethylamine]] into [[trimethylamine N-oxide]]. The [[FMO3 gene]] codes for this enzyme. Mutations in the FMO3 gene are linked to the condition, although the full range of the enzyme’s functions remains unknown.
Trimethylaminuria results from an impaired version of the enzyme [[flavin-containing monooxygenase 3]] (FMO3), which converts [[trimethylamine]] into [[trimethylamine N-oxide]]. The [[FMO3 gene]] codes for this enzyme. Mutations in the FMO3 gene are linked to the condition, although the full range of the enzyme’s functions remains unknown.
 
== Is trimethylaminuria inherited? ==
== Is trimethylaminuria inherited? ==
Yes, trimethylaminuria is inherited in an [[autosomal recessive]] pattern, requiring two non-functioning copies of the [[FMO3 gene]] for symptoms to appear. Carriers, who have only one altered gene, typically do not exhibit symptoms, though some may experience mild, temporary episodes of fish-like odor. Genetic mutations, [[stress]], and [[diet]] may influence the severity and onset of symptoms.
Yes, trimethylaminuria is inherited in an [[autosomal recessive]] pattern, requiring two non-functioning copies of the [[FMO3 gene]] for symptoms to appear. Carriers, who have only one altered gene, typically do not exhibit symptoms, though some may experience mild, temporary episodes of fish-like odor. Genetic mutations, [[stress]], and [[diet]] may influence the severity and onset of symptoms.
== How is trimethylaminuria diagnosed? ==
== How is trimethylaminuria diagnosed? ==
A [[urine test]] is used to diagnose trimethylaminuria by measuring the levels of [[trimethylamine]] and [[trimethylamine N-oxide]]. The [[TMA challenge test]] involves administering trimethylamine and analyzing its excretion levels. [[Genetic testing]] can also identify mutations in the [[FMO3 gene]].
A [[urine test]] is used to diagnose trimethylaminuria by measuring the levels of [[trimethylamine]] and [[trimethylamine N-oxide]]. The [[TMA challenge test]] involves administering trimethylamine and analyzing its excretion levels. [[Genetic testing]] can also identify mutations in the [[FMO3 gene]].
== How is trimethylaminuria treated? ==
== How is trimethylaminuria treated? ==
There is no cure for trimethylaminuria, but individuals can manage symptoms through:
There is no cure for trimethylaminuria, but individuals can manage symptoms through:
 
Avoiding foods high in [[trimethylamine]] and its precursors, such as:
* Avoiding foods high in [[trimethylamine]] and its precursors, such as:
* [[Milk]] from wheat-fed cows
  * [[Milk]] from wheat-fed cows
* [[Eggs]]
  * [[Eggs]]
* [[Liver]]
  * [[Liver]]
* [[Kidney]]
  * [[Kidney]]
* [[Peas]]
  * [[Peas]]
* [[Beans]]
  * [[Beans]]
* [[Peanuts]]
  * [[Peanuts]]
* [[Soy products]]
  * [[Soy products]]
* [[Brassicas]] (e.g., [[Brussels sprouts]], [[broccoli]], [[cabbage]], [[cauliflower]])
  * [[Brassicas]] (e.g., [[Brussels sprouts]], [[broccoli]], [[cabbage]], [[cauliflower]])
* [[Lecithin]] and [[fish oil supplements]]
  * [[Lecithin]] and [[fish oil supplements]]
* [[Seafood]] (e.g., [[fish]], [[cephalopods]], [[crustaceans]])
  * [[Seafood]] (e.g., [[fish]], [[cephalopods]], [[crustaceans]])
* Taking low-dose [[antibiotics]] to reduce gut bacteria that produce trimethylamine.
* Taking low-dose [[antibiotics]] to reduce gut bacteria that produce trimethylamine.
* Using [[laxatives]] to decrease intestinal transit time and limit trimethylamine production.
* Using [[laxatives]] to decrease intestinal transit time and limit trimethylamine production.
* Taking supplements such as:
* Taking supplements such as:
  * [[Activated charcoal]] (750 mg twice daily for ten days)
* [[Activated charcoal]] (750 mg twice daily for ten days)
  * [[Copper chlorophyllin]] (60 mg three times per day after meals for three weeks)
* [[Copper chlorophyllin]] (60 mg three times per day after meals for three weeks)
  * [[Riboflavin]] (30-40 mg, 3-5 times daily with food) to enhance residual [[FMO3 enzyme]] activity.
* [[Riboflavin]] (30-40 mg, 3-5 times daily with food) to enhance residual [[FMO3 enzyme]] activity.
* Using [[moderate pH soaps]] (pH 5.5-6.5) to retain trimethylamine in a less volatile form for removal by washing.
* Using [[moderate pH soaps]] (pH 5.5-6.5) to retain trimethylamine in a less volatile form for removal by washing.
* Avoiding factors that promote [[sweating]] (e.g., [[exercise]], [[stress]], and emotional distress).
* Avoiding factors that promote [[sweating]] (e.g., [[exercise]], [[stress]], and emotional distress).
Enzyme replacement therapy with [[FMO3 enzyme]] is not currently an option.
Enzyme replacement therapy with [[FMO3 enzyme]] is not currently an option.
== What laboratories offer testing for trimethylaminuria? ==
== What laboratories offer testing for trimethylaminuria? ==
The following laboratories offer diagnostic testing for trimethylaminuria:
The following laboratories offer diagnostic testing for trimethylaminuria:
* '''Children's Hospital Colorado Biochemical Genetics Lab'''
* '''Children's Hospital Colorado Biochemical Genetics Lab'''
  * Phone: 720-777-6711
* Phone: 720-777-6711
  * Contact: Lab Client Services
* Contact: Lab Client Services
  * Email: [[Mailto:LabClientServices@childrenscolorado.org|LabClientServices@childrenscolorado.org]]
* Email: [[Mailto:LabClientServices@childrenscolorado.org|LabClientServices@childrenscolorado.org]]
 
* '''Monell Chemical Senses Center, University of Pennsylvania'''
* '''Monell Chemical Senses Center, University of Pennsylvania'''
  * Phone: 215-898-4713
* Phone: 215-898-4713
  * Contact: [[George Preti]], Ph.D.
* Contact: [[George Preti]], Ph.D.
  * Email: [[Mailto:preti@monell.org|preti@monell.org]]
* Email: [[Mailto:preti@monell.org|preti@monell.org]]
  * Note: This laboratory may have a long waiting list.
* Note: This laboratory may have a long waiting list.
 
== Clinical Research on Trimethylaminuria ==
== Clinical Research on Trimethylaminuria ==
Currently, the [[National Human Genome Research Institute]] (NHGRI) is not conducting studies on trimethylaminuria.
Currently, the [[National Human Genome Research Institute]] (NHGRI) is not conducting studies on trimethylaminuria.
For research opportunities:
For research opportunities:
* [[ClinicalTrials.gov]]
* [[ClinicalTrials.gov]]
* NHGRI Clinical Studies
* NHGRI Clinical Studies
* Clinical Research FAQs
* Clinical Research FAQs
== Additional Resources for Trimethylaminuria ==
== Additional Resources for Trimethylaminuria ==
* [[Genetics Home Reference: Trimethylaminuria]]
* [[Genetics Home Reference: Trimethylaminuria]]
Line 75: Line 80:
* [[Trimethylaminuria information from the Genetics and Rare Diseases Information Center]]
* [[Trimethylaminuria information from the Genetics and Rare Diseases Information Center]]
* [[Finding Reliable Health Information Online]]
* [[Finding Reliable Health Information Online]]
 
== See also ==
== Related Pages ==
* [[Metabolic disorder]]
* [[Metabolic disorder]]
* [[Genetic disorder]]
* [[Genetic disorder]]
* [[Body odor]]
* [[Body odor]]
[[Category:Metabolic disorders]]
[[Category:Metabolic disorders]]
[[Category:Rare diseases]]
[[Category:Rare diseases]]
{{genetics}}
{{genetics}}
{{stub}}
{{stub}}

Latest revision as of 14:49, 9 April 2025

Editor-In-Chief: Prab R Tumpati, MD
Obesity, Sleep & Internal medicine
Founder, WikiMD Wellnesspedia &
W8MD medical weight loss NYC and sleep center NYC

Trimethylaminuria
Chemical structure of trimethylamine
Synonyms Fish odor syndrome
Pronounce
Specialty Genetics, Metabolism
Symptoms Body odor resembling rotting fish
Complications N/A
Onset Often present from birth
Duration Long-term
Types N/A
Causes Genetic mutation in the FMO3 gene
Risks
Diagnosis Urine test, Genetic testing
Differential diagnosis
Prevention
Treatment Dietary modification, Activated charcoal, Antibiotics
Medication
Prognosis N/A
Frequency Rare
Deaths


A metabolic disorder affecting the breakdown of trimethylamine


Diagram showing autosomal recessive inheritance.

Trimethylaminuria is a metabolic disorder in which an individual is unable to convert trimethylamine into trimethylamine N-oxide. This condition has existed for centuries but has only gained scientific recognition and support in the past 30 years.

What is Trimethylamine?[edit]

Trimethylamine is the compound responsible for the strong fish odor. In contrast, trimethylamine N-oxide is odorless.

What are the symptoms of trimethylaminuria?[edit]

In individuals with trimethylaminuria, trimethylamine accumulates in the body and is released through sweat, urine, reproductive fluids, and breath, causing a strong fishy odor. The severity of the odor varies among individuals. Despite this symptom, affected individuals are typically healthy. The condition appears to be more common in women than in men, possibly due to the influence of sex hormones such as progesterone and estrogen. Symptoms often worsen around puberty, menstruation, after taking oral contraceptives, and around menopause.

What causes trimethylaminuria?[edit]

Trimethylaminuria results from an impaired version of the enzyme flavin-containing monooxygenase 3 (FMO3), which converts trimethylamine into trimethylamine N-oxide. The FMO3 gene codes for this enzyme. Mutations in the FMO3 gene are linked to the condition, although the full range of the enzyme’s functions remains unknown.

Is trimethylaminuria inherited?[edit]

Yes, trimethylaminuria is inherited in an autosomal recessive pattern, requiring two non-functioning copies of the FMO3 gene for symptoms to appear. Carriers, who have only one altered gene, typically do not exhibit symptoms, though some may experience mild, temporary episodes of fish-like odor. Genetic mutations, stress, and diet may influence the severity and onset of symptoms.

How is trimethylaminuria diagnosed?[edit]

A urine test is used to diagnose trimethylaminuria by measuring the levels of trimethylamine and trimethylamine N-oxide. The TMA challenge test involves administering trimethylamine and analyzing its excretion levels. Genetic testing can also identify mutations in the FMO3 gene.

How is trimethylaminuria treated?[edit]

There is no cure for trimethylaminuria, but individuals can manage symptoms through: Avoiding foods high in trimethylamine and its precursors, such as:

Enzyme replacement therapy with FMO3 enzyme is not currently an option.

What laboratories offer testing for trimethylaminuria?[edit]

The following laboratories offer diagnostic testing for trimethylaminuria:

  • Children's Hospital Colorado Biochemical Genetics Lab
  • Phone: 720-777-6711
  • Contact: Lab Client Services
  • Email: [[1]]
  • Monell Chemical Senses Center, University of Pennsylvania
  • Phone: 215-898-4713
  • Contact: George Preti, Ph.D.
  • Email: [[2]]
  • Note: This laboratory may have a long waiting list.

Clinical Research on Trimethylaminuria[edit]

Currently, the National Human Genome Research Institute (NHGRI) is not conducting studies on trimethylaminuria. For research opportunities:

Additional Resources for Trimethylaminuria[edit]

See also[edit]

Genetics
Key components
<section begin=Key components /> <section end=Key components />
Fields
Archaeogenetics of
<section begin=Archaeogenetics /> <section end=Archaeogenetics />
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<section begin=Lists /> <section end=Lists />


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