Home  About us  Contact
 

Iron Dextran (iron + dextran)

Distribution by Scientific Domains
Medical Sciences100%

Selected Abstracts

COMPARISON OF INTRAVENOUS IRON SUCROSE VERSUS LOW-MOLECULAR-WEIGHT IRON DEXTRAN IN CHRONIC KIDNEY DISEASE

JOURNAL OF RENAL CARE, Issue 2 2009
Smeeta Sinha
SUMMARY Background: Low-molecular-weight iron dextran (CosmoFer®) is the only form of parenteral iron that can be administered as a total dose infusion (TDI) in the United Kingdom (UK). This study aimed to evaluate the safety and efficacy of TDI CosmoFer in comparison to intravenous iron sucrose infusion (Venofer®) in patients with chronic kidney disease (CKD). Methods and Results: A retrospective study of outpatients with CKD undergoing intravenous TDI CosmoFer or Venofer infusion was conducted at Salford Royal Hospital and Sunderland Royal Hospital. A total of 979 doses of CosmoFer and 504 doses of Venofer were administered. There were three minor adverse events in patients receiving CosmoFer compared with one minor event in a Venofer treated patient. There were no anaphylactoid-type reactions in either group. Serum haemoglobin, ferritin and transferrin saturation (TSAT) improved significantly 4,6 months postinfusion in both treatment groups. Conclusion: TDI CosmoFer is an efficacious method of replenishing iron stores in CKD patients in an outpatient setting. Furthermore, TDI CosmoFer is safe and not associated with an increase in adverse events compared to Venofer. [source]

Treatment of restless legs syndrome: An evidence-based review and implications for clinical practice,,

MOVEMENT DISORDERS, Issue 16 2008
Claudia Trenkwalder MD
Abstract Only in the last three decades, the restless legs syndrome (RLS) has been examined in randomized controlled trials. The Movement Disorder Society (MDS) commissioned a task force to perform an evidence-based review of the medical literature on treatment modalities used to manage patients with RLS. The task force performed a search of the published literature using electronic databases. The therapeutic efficacy of each drug was classified as being either efficacious, likely efficacious, investigational, nonefficacious, or lacking sufficient evidence to classify. Implications for clinical practice were generated based on the levels of evidence and particular features of each modality, such as adverse events. All studies were classed according to three levels of evidence. All Level-I trials were included in the efficacy tables; if no Level-I trials were available then Level-II trials were included or, in the absence of Level-II trials, Level-III studies or case series were included. Only studies published in print or online before December 31, 2006 were included. All studies published after 1996, which attempted to assess RLS augmentation, were reviewed in a separate section. The following drugs are considered efficacious for the treatment of RLS: levodopa, ropinirole, pramipexole, cabergoline, pergolide, and gabapentin. Drugs considered likely efficacious are rotigotine, bromocriptine, oxycodone, carbamazepine, valproic acid, and clonidine. Drugs that are considered investigational are dihydroergocriptine, lisuride, methadone, tramadol, clonazepam, zolpidem, amantadine, and topiramate. Magnesium, folic acid, and exercise are also considered to be investigational. Sumanirole is nonefficacious. Intravenous iron dextran is likely efficacious for the treatment of RLS secondary to end-stage renal disease and investigational in RLS subjects with normal renal function. The efficacy of oral iron is considered investigational; however, its efficacy appears to depend on the iron status of subjects. Cabergoline and pergolide (and possibly lisuride) require special monitoring due to fibrotic complications including cardiac valvulopathy. Special monitoring is required for several other medications based on clinical concerns: opioids (including, but not limited to, oxycodone, methadone and tramadol), due to possible addiction and respiratory depression, and some anticonvulsants (particularly, carbamazepine and valproic acid), due to systemic toxicities. © 2008 Movement Disorder Society [source]

Incidence of side-effects associated with high-dose ferric gluconate in patients with severe chronic renal failure

NEPHROLOGY, Issue 1 2003
BAHAR BASTANI
SUMMARY: Ferric gluconate complex in sucrose (FerrlecitÔ) has been associated with less side-effects than iron dextran; however, the recommended dose of 62.5,125 mg per treatment is only suitable for haemodialysis (HD) patients. We retrospectively analysed the incidence of the side-effects associated with a high dose of FerrlecitÔ infusion (20 treatments in 13 patients; 10 treatments of 250 mg/3,4 h, and 10 treatments of 500 mg/5 h infusion). The patients were in the age range of 32,75 years old, seven with chronic renal failure (CRF), and six on dialysis treatment. One (10%) of the 10 treatments using a 250 mg dose was complicated with severe nausea/vomiting, diarrhoea and a burning sensation in the feet. Three (30%) of the 10 treatments using a 500 mg dose were complicated with: chills, severe nausea/vomiting, hypotension and syncope in one; severe nausea/vomiting, diarrhoea and hypotension in one; and an episode of vomiting in one patient. A single treatment with a 250 mg dose resulted in no significant change in haematological parameters. A single treatment with a 500 mg dose resulted in a significant increase in haemoglobin (Hgb) and haematocrit (Hct), but only a rising trend in serum iron,% transferrin saturation and ferritin pre versus 1,2 months postinfusion. In conclusion, FerrlecitÔ doses of 250 or 500 mg are complicated with significant untoward reactions in 10,30% of patients, in a dose-dependent fashion. [source]