A reader contacted me because she was concerned about cognitive issues after she started Dramamine. It is a microbiome modifier.
IMHO Brain Fog should be a condition that should result in de-prescribing or stopping any of the following.
From healthline, we have the following list
Over the counter anticholinergics
- diphenhydramine (Benadryl, Tylenol PM, Advil PM, Unisom SleepGels, Dimedrol, Daedalon, and Nytol.)
- brompheniramine (Dimetappm, Dimetapp, Bromfenex, Dimetane, and Lodrane)
- dimenhydrinate (Dramamine or Gravol)
Dimenhydrinate is marketed under many brand names: in the U.S., Mexico, Turkey and Thailand as Dramamine; in Serbia as Dimigal; in Ukraine as Driminate; in Canada, Costa Rica, and India as Gravol; in Iceland as Gravamin; in Russia and Croatia as Dramina; in South Africa and Germany as Vomex; in Australia and Austria as Vertirosan; in Brazil as Dramin; in Colombia as Mareol; in Ecuador as Anautin; in Hungary as Daedalon; in Indonesia as Antimo; in Italy as Xamamina or Valontan; in Peru as Gravicoll; in Poland and Slovakia as Aviomarin;[18] in Portugal as Viabom, Vomidrine, and Enjomin; in Spain as Biodramina; in Israel as Travamin; and in Pakistan as Gravinate.[19] - doxylamine (Unisom SleepTabs, Diclectin, Diclegis)
Prescription anticholinergics
- atropine (Atropen)
- belladonna alkaloids
- benztropine mesylate (Cogentin)
- clidinium
- cyclopentolate (Cyclogyl)
- darifenacin (Enablex)
- dicylomine
- fesoterodine (Toviaz)
- flavoxate (Urispas)
- glycopyrrolate
- homatropine hydrobromide
- hyoscyamine (Levsinex)
- ipratropium (Atrovent)
- orphenadrine
- oxybutynin (Ditropan XL)
- propantheline (Pro-banthine)
- scopolamine
- methscopolamine
- solifenacin (VESIcare)
- tiotropium (Spiriva)
- tolterodine (Detrol)
- trihexphenidyl
- trospium
For more, from Drugs.com: Anticholinergic Drugs to Avoid in the Elderly
Some Literature
The amount of literature is HUGE, I will just cite back to September 2023….
- Association of systemic anticholinergic medication use and accelerated decrease in lung function in older adults [2024]
- Oxybutynin-Associated Cognitive Impairment: Evidence and Implications for Overactive Bladder Treatment [2024] “a first-generation anticholinergic, accounts for more than half of all OAB medication prescriptions” “associated with adverse cognitive outcomes”
- Increased anticholinergic medication use in middle-aged and older autistic adults and its associations with self-reported memory difficulties and cognitive decline [2023]
“Among older adults, anticholinergic medications are associated with cognitive impairment and risk for cognitive disorders, including Alzheimer’s disease.” - Clinical pharmacist-led assessment and management of anticholinergic burden and fall risk in geriatric patients [2023] “Risk of falls increased 2.50 times in patients with high anticholinergic burden”
- Anticholinergic deprescribing interventions for reducing risk of cognitive decline or dementia in older adults with and without prior cognitive impairment [2023] “There is insufficient evidence to reach any conclusions on the effects of anticholinergic burden reduction interventions on cognitive outcomes in older adults with or without prior cognitive impairment. ” — that is, stopping may not reverse it effects.
- Drugs with a negative impact on cognitive functions (Part 2):… [2023]
- Association of anticholinergic drug exposure with the risk of dementia among older adults in Japan: The LIFE Study [2023] “Several types of anticholinergic drugs used by older adults in Japan are associated with an increased risk of dementia. “
- Low-Income Older Adults’ Vulnerability to Anticholinergic Medication-Associated Frailty [2023]
- Association between recently raised anticholinergic burden and risk of acute cardiovascular events: nationwide case-case-time-control study [2023] “An association was found between recently raised anticholinergic burden and increased risk of acute cardiovascular events. Furthermore, a greater increase in anticholinergic burden was associated with a higher risk of acute cardiovascular events.”
Which Bacteria may be causing the Cognitive Declines?
Many of the drugs above are in the Microbiome Prescription database. Many of them impacts the same bacteria [ DECREASING] — implying that the cognitive loss may be connected with microbiome alteration.
The obvious way to improve recovery appears to be the following probiotics:
- Escherichia coli (Mutaflor, Symbioflor 2)
- Akkermansia muciniphila (Pendulum)
- Bifidobacterium adolescentis
- Bifidobacterium longum
- Lactobacillus casei group
| In Common Across Drugs | Bacteria |
| 19 | Enterobacteriaceae |
| 18 | Escherichia |
| 18 | Escherichia coli |
| 18 | Kluyvera |
| 18 | Streptococcaceae |
| 18 | Streptococcus |
| 18 | Streptococcus parasanguinis |
| 17 | Akkermansia |
| 17 | Akkermansia muciniphila |
| 17 | Bacteroidaceae |
| 17 | Bacteroides |
| 17 | Bacteroides caccae |
| 17 | Bacteroides fragilis |
| 17 | Bacteroides ovatus |
| 17 | Bacteroides thetaiotaomicron |
| 17 | Bacteroides uniformis |
| 17 | Bacteroides xylanisolvens |
| 17 | Bifidobacteriaceae |
| 17 | Bifidobacterium |
| 17 | Bifidobacterium adolescentis |
| 17 | Bifidobacterium longum |
| 17 | Bilophila |
| 17 | Bilophila wadsworthia |
| 17 | Blautia |
| 17 | Clostridiaceae |
| 17 | Clostridioides |
| 17 | Clostridioides difficile |
| 17 | Clostridium |
| 17 | Collinsella |
| 17 | Collinsella aerofaciens |
| 17 | Coprococcus |
| 17 | Coriobacteriaceae |
| 17 | Desulfovibrionaceae |
| 17 | Dorea |
| 17 | Dorea formicigenerans |
| 17 | Eggerthella |
| 17 | Eggerthella lenta |
| 17 | Eubacteriaceae |
| 17 | Eubacterium |
| 17 | Fusobacteriaceae |
| 17 | Fusobacterium |
| 17 | Fusobacterium nucleatum |
| 17 | Lachnospiraceae |
| 17 | Lacticaseibacillus paracasei |
| 17 | Lactobacillus |
| 17 | Lactobacillus casei group |
| 17 | Odoribacter |
| 17 | Odoribacter splanchnicus |
| 17 | Parabacteroides |
| 17 | Parabacteroides distasonis |
| 17 | Parabacteroides merdae |
| 17 | Peptoclostridium |
| 17 | Peptostreptococcaceae |
| 17 | Phocaeicola vulgatus |
| 17 | Porphyromonadaceae |
| 17 | Prevotella |
| 17 | Prevotellaceae |
| 17 | Roseburia |
| 17 | Roseburia hominis |
| 17 | Roseburia intestinalis |
| 17 | Ruminococcaceae |
| 17 | Ruminococcus |
| 17 | Streptococcus salivarius |
| 17 | Veillonella |
| 17 | Veillonella parvula |
| 17 | Veillonellaceae |
| 17 | Verrucomicrobiaceae |
Post Script:
A comment on this post wrote “I take Huperzine A and always wonder if that helps me out a little. (I can’t take any of those strong central anticholinergics anyway though!)“.
Huperzine A, the active ingredient derived from the traditional Chinese herb, is an efficacious, selective, and reversible acetylcholinesterase inhibitor (AChEI)
So, does it impact cognitive issues in these groups? There is no clear evidence (mixed results in most reviews)
- Effect of Huperzine A on Cognitive Function and Perception of Effort during Exercise: A Randomized Double-Blind Crossover Trial [2021] “Huperzine A does not enhance cognitive function during exercise despite it being marketed as a cognitive enhancer”
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