Registration Dossier

Data platform availability banner - registered substances factsheets

Please be aware that this old REACH registration data factsheet is no longer maintained; it remains frozen as of 19th May 2023.

The new ECHA CHEM database has been released by ECHA, and it now contains all REACH registration data. There are more details on the transition of ECHA's published data to ECHA CHEM here.

Diss Factsheets

Administrative data

Link to relevant study record(s)

Reference
Endpoint:
basic toxicokinetics, other
Type of information:
calculation (if not (Q)SAR)
Remarks:
Migrated phrase: estimated by calculation
Adequacy of study:
key study
Reliability:
2 (reliable with restrictions)
Rationale for reliability incl. deficiencies:
other: see 'Remark'
Remarks:
A written assessment of toxicokinetic behaviour is considered appropriate for the substance. The substance displays only minor toxicological effects in any of the studies proposed, and is deemed to be be not harmful for health effects. As such, it is deemed inappropriate in terms of animal welfare to conduct a toxicokinetic assessment when no harmful effects are predicted based on known toxicology. A written assessment has therefore been prepared to address this endpoint.
Principles of method if other than guideline:
A written assessment based on the toxicological profile of the substance.
Species:
other: not applicable
Details on test animals or test system and environmental conditions:
Not applicable
Route of administration:
other: not applicable
Details on exposure:
Not applicable
Duration and frequency of treatment / exposure:
Not applicable
Remarks:
Doses / Concentrations:
Not applicable
No. of animals per sex per dose / concentration:
Not applicable
Positive control reference chemical:
Not applicable
Details on study design:
Not applicable
Details on dosing and sampling:
Not applicable
Preliminary studies:
Not applicable
Details on absorption:
Not applicable
Details on distribution in tissues:
Not applicable
Details on excretion:
Not applicable
Details on metabolites:
Not applicable
Conclusions:
Interpretation of results (migrated information): other: low bioaccumulation potential based on review of study results
Bismuth subsalicylate in pharmaceutical preparations is converted to bismuth carbonate and sodium salicylate in the small intestine. The bismuth portion of bismuth subsalicylate is poorly absorbed from the gastrointestinal tract with an oral bioavailability reported to be < 0.005%. There are very few data on the dermal absorption of bismuth, however, absorption via this route is expected to be low. In contrast, the salicylate portion of bismuth subsalicylate is well absorbed via the oral route with a bioavailability > 90%. Salicylates are also absorbed percutaneously. Based on particle size distribution data and modelling of deposition in the respiratory tract, it is estimated that between 2.9% to 9.2% of bismuth subsalicylate is absorbed via inhalation.

The small amount of bismuth that is absorbed is distributed to various organs with the highest concentration expected to be in the kidney. Bismuth can cross the blood-brain barrier. The results of a study in guinea pigs with radiobismuth suggest poor placental transfer of bismuth (< 1%). Excretion of absorbed bismuth is via the urinary and faecal routes. The distribution half-life of bismuth is 1 to 4 hours, the plasma half-life is 5 to 11 days and the urinary excretion half-life lasts between 21 to 72 days. Unabsorbed bismuth is excreted in the faeces. Salicylates are widely distributed through the body with an elimination half-life that is dependent on level of exposure; half-life may be prolonged to 22 hours with ingestion of toxic doses. Elimination is via metabolism in the liver with urinary excretion of conjugated metabolites and free salicylic acid. The elimination of salicylates at therapeutic doses follows first order kinetics, which may change to zero order kinetics with toxic doses due to saturation of 2 of the 5 possible pathways of elimination. Alkalinisation of the urine increases the urinary excretion rate of salicylates.
Executive summary:

A toxicokinetics assessment was conducted for bismuth subsalicylate using available data including data from the published literature.

Absorption: The bismuth portion of bismuth subsalicylate is poorly absorbed from the gastrointestinal tract with an oral bioavailability reported to be < 0.005%. There are very few data on the dermal absorption of bismuth, however, absorption via this route is expected to be low. In contrast, the salicylate portion of bismuth subsalicylate is well absorbed via the oral route with a bioavailability of > 90%. Salicylates are also absorbed percutaneously. Based on particle size distribution data and modelling of deposition in the respiratory tract, it is estimated that between 2.9% and 9.2% of bismuth subsalicylate may be absorbed via inhalation.

Distribution: The small amount of bismuth that is absorbed is distributed to various organs with the highest concentration expected to be in the kidney. The results of a study in guinea pigs with radiobismuth indicate poor placental transfer of bismuth (<1%), however, bismuth can cross the blood-brain barrier. The distribution half-life of bismuth is 1 to 4 hours and the plasma half-life is 5 to 11 days. Salicylates are widely distributed through the body with an elimination half-life that is dependent on level of exposure; the half-life may be prolonged to 22 hours with ingestion of toxic doses.

 Elimination: Excretion of absorbed bismuth is via the urinary and faecal routes and the urinary excretion half-life lasts between 21 to 72 days. Unabsorbed bismuth is excreted in the faeces.Elimination of salicylate is via metabolism in the liver with urinary excretion of conjugated metabolites and free salicylic acid. The elimination of salicylates at therapeutic doses follows first order kinetics, which may change to zero order kinetics with toxic doses due to saturation of 2 of the 5 possible pathways of elimination. Alkalinisation of the urine increases the urinary excretion rate of salicylates.

Description of key information

A toxicokinetics assessment was conducted for bismuth subsalicylate using available data including data from the published literature. Based on the results of this assessment, the substance is considered to have low bioaccumulation potential. As the salicylate component of bismuth subsalicylate is expected to be well absorbed by the dermal and oral routes, a default absorption rate of 100% has been assumed for these two routes as a worst case even though the bismuth component is very poorly absorbed. The inhalation absorption rate is based on particle size distribution data and modelling of deposition in the respiratory tract.

Key value for chemical safety assessment

Bioaccumulation potential:
low bioaccumulation potential
Absorption rate - oral (%):
100
Absorption rate - dermal (%):
100
Absorption rate - inhalation (%):
9.2

Additional information

A toxicokinetics assessment was conducted for bismuth subsalicylate using available data including data from the published literature.

Absorption: The bismuth portion of bismuth subsalicylate is poorly absorbed from the gastrointestinal tract with an oral bioavailability reported to be < 0.005%. There are very few data on the dermal absorption of bismuth, however, absorption via this route is expected to be low. In contrast, the salicylate portion of bismuth subsalicylate is well absorbed via the oral route with a bioavailability of > 90%. Salicylates are also absorbed percutaneously. Based on particle size distribution data and modelling of deposition in the respiratory tract, it is estimated that between 2.9% and 9.2% of bismuth subsalicylate may be absorbed via inhalation.

Distribution: The small amount of bismuth that is absorbed is distributed to various organs with the highest concentration expected to be in the kidney. The results of a study in guinea pigs with radiobismuth indicate poor placental transfer of bismuth (<1%), however, bismuth can cross the blood-brain barrier. The distribution half-life of bismuth is 1 to 4 hours and the plasma half-life is 5 to 11 days. Salicylates are widely distributed through the body with an elimination half-life that is dependent on level of exposure; the half-life may be prolonged to 22 hours with ingestion of toxic doses.

 Elimination: Excretion of absorbed bismuth is via the urinary and faecal routes and the urinary excretion half-life lasts between 21 to 72 days. Unabsorbed bismuth is excreted in the faeces.Elimination of salicylate is via metabolism in the liver with urinary excretion of conjugated metabolites and free salicylic acid. The elimination of salicylates at therapeutic doses follows first order kinetics, which may change to zero order kinetics with toxic doses due to saturation of 2 of the 5 possible pathways of elimination. Alkalinisation of the urine increases the urinary excretion rate of salicylates.