For the possible significance see Oral bacteria relative abundance in faeces increases due to gut microbiota depletion and is linked with patient outcomes, 2024
| "Diplokokkus intracellularis meningitidis" (sic) Weichselbaum 1887| "Micrococcus intracellularis" (Jaeger) Migula 1900| "Micrococcus meningitidis cerebrospinalis" Albrecht and Ghon 1901| "Micrococcus meningitidis" Albrecht and Ghon 1903| "Neisseria weichselbaumii" Trevisan 1889| ATCC 13077| CCUG 3269| CIP 73.10| Diplokokkus intracellularis meningitidis| DSM 10036| Micrococcus intracellularis| Micrococcus meningitidis| Micrococcus meningitidis cerebrospinalis| NCTC 10025| Neisseria meningitidis| Neisseria meningitidis (Albrecht and Ghon 1901) Murray 1929| Neisseria weichselbaumii| strain Sara E. Branham M1027
Environmental Role: Flavobacterium aquatile and other members of the genus Flavobacterium are known for their diverse metabolic capabilities and their ability to degrade complex organic compounds in aquatic environments. They contribute to nutrient cycling, organic matter decomposition, and the maintenance of ecosystem balance in freshwater and marine habitats.
Biotechnological Applications: Some Flavobacterium species, including Flavobacterium aquatile, have been studied for their potential biotechnological applications, particularly in the fields of wastewater treatment, bioremediation, and aquaculture. They may have roles in the degradation of pollutants and the production of enzymes or bioactive compounds with industrial or environmental significance.
Rare Human Infections: While Flavobacterium aquatile is not considered a common human pathogen, there have been rare reports of infections in humans, typically associated with immunocompromised individuals or those with underlying medical conditions. In such cases, Flavobacterium aquatile infections may present as opportunistic infections, such as wound infections, bacteremia, or urinary tract infections.
Prevention: Preventive measures to minimize the risk of infections with Flavobacterium aquatile or other environmental bacteria include maintaining good hygiene practices, avoiding exposure to contaminated water sources, and implementing proper wound care and infection control measures, particularly in healthcare settings.
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Other Sources for more information:
 Statistics
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NCBI | Data Punk | End Products Produced |
Different labs use different software to read the sample. See this post for more details.
One lab may say you have none, another may say you have a lot! - This may be solely due to the software they are using to estimate.
We deem lab specific values using values from the KM method for each specific lab to be the most reliable.
| Lab | Frequency | UD-Low | UD-High | KM Low | KM High | Lab Low | Lab High | Mean | Median | Standard Deviation | Box Plot Low | Box Plot High | KM Percentile Low | KM Percentile High |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| Other Labs | 0.26 | 1 | 100 | 0 | 100 | 24 | 6 | 38.9 | 1 | 100 | 12.5 %ile | 75 %ile | ||
| biomesight | 0.08 | 10 | 20 | 1 | 29 | 15 | 15 | 7.1 | 10 | 20 | 25 %ile | 50 %ile | ||
| thorne | 55.17 | 1 | 22 | 0 | 16 | 4.9 | 2 | 5.8 | 1 | 22 | 0 %ile | 100 %ile | ||
| thryve | 0.18 | 7 | 16 | 0 | 24 | 11.5 | 12 | 6.4 | 7 | 16 | 25 %ile | 50 %ile |
| Source of Ranges | Low Boundary | High Boundary | Low Boundary %age | High Boundary %age |
|---|---|---|---|---|
| Thorne (20/80%ile) | 0 | 5.25 | 0 | 0.0005 |
| PrecisionBiome | 1.168962444353383E-05 | 8.845638512866572E-05 | 0 | 0 |
| Lab | Frequency Seen | Average | Standard Deviation | Sample Count | Lab Samples |
|---|---|---|---|---|---|
| BiomeSight | 0.11 % | 0.052 % | 0.046 % | 5.0 | 4531 |
| CerbaLab | 33.333 % | 0 % | % | 1.0 | 3 |
| custom | 1.37 % | 0 % | % | 1.0 | 73 |
| es-xenogene | 12.5 % | 0.004 % | 0.004 % | 4.0 | 32 |
| Thorne | 30.108 % | 0 % | 0 % | 84.0 | 279 |
| Thryve | 0.26 % | 0.001 % | 0 % | 4.0 | 1539 |
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