Epidemiological and nonclinical studies investigating effects of iron in carcinogenesis--a critical review.
Study Goal
The researchers aimed to evaluate the efficacy and tolerability of intravenous iron in managing cancer-related anemia and iron deficiency, while also reviewing epidemiological and nonclinical data on iron's role in carcinogenesis.
Results Summary
The study found that while long-term intravenous iron treatment in hemodialysis patients is not associated with increased cancer risk, epidemiological data suggest correlations between certain cancers and increased iron exposure. Nonclinical models provided limited evidence relevant to cancer patients due to high iron doses and non-clinical formulations.
Population
Cancer patients with anemia and iron deficiency, as well as hemodialysis patients.
Effective Dosage
Not specified
Duration
Not specified
Interactions
None mentioned
| Intervention | Direction | Endpoint | Population | Dosage | Impact | Claim # |
|---|---|---|---|---|---|---|
intravenous (i.v.) iron | neutral | cancer-related anemia and iron deficiency | - | - | efficacy and tolerability has been clinically evaluated and reviewed | #1 |
long-term i.v. iron treatment | no change | cancer risk | hemodialysis patients | - | is not associated with increased | #2 |
increased iron exposure or iron overload | increase | certain cancers | humans | - | suggest correlations between | #3 |
iron | increase | carcinogenesis | nonclinical models | - | can enhance | #4 |
The efficacy and tolerability of intravenous (i.v.) iron in managing cancer-related anemia and iron deficiency has been clinically evaluated and reviewed recently. However, long-term data in cancer patients are not available; yet, long-term i.v. iron treatment in hemodialysis patients is not associated with increased cancer risk. This review summarizes epidemiological and nonclinical data on the role of iron in carcinogenesis. In humans, epidemiological data suggest correlations between certain cancers and increased iron exposure or iron overload. Nonclinical models that investigated whether iron can enhance carcinogenesis provide only limited evidence relevant for cancer patients since they were typically based on high iron doses as well as injection routes and iron formulations which are not used in the clinical setting. Nevertheless, in the absence of long-term outcome data from prospectively defined trials in i.v. iron-treated cancer patients, iron supplementation should be limited to periods of concomitant anti-tumor treatment.