Lower molecular weight intravenous iron dextran for restless legs syndrome

Various techniques used to assess brain iron concentrations have demonstrated the presence of low iron stores in patients with restless legs syndrome (RLS). Previous open-label and randomized studies generally support the value of iron treatment for RLS symptoms. Only one of these studies assessed i...

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Published in	Sleep medicine Vol. 14; no. 3; pp. 274 - 277
Main Authors	Cho, Yong Won, Allen, Richard P., Earley, Christopher J.
Format	Journal Article
Language	English
Published	Netherlands Elsevier B.V 01.03.2013
Subjects	Brain - metabolism Brain Chemistry - drug effects Cerebrospinal fluid Drug Administration Schedule Female Ferritin Ferritins - blood Ferritins - cerebrospinal fluid Hematinics - administration & dosage Hematinics - adverse effects Hematinics - chemistry Humans Injections, Intravenous Iron dextran Iron-Dextran Complex - administration & dosage Iron-Dextran Complex - adverse effects Iron-Dextran Complex - chemistry Male Middle Aged Molecular Weight Neurology Restless legs syndrome Restless Legs Syndrome - drug therapy Restless Legs Syndrome - metabolism Sleep Medicine Therapy Treatment Outcome Restless legs syndrome Therapy Cerebrospinal fluid Iron dextran Ferritin
Online Access	Get full text
ISSN	1389-9457 1878-5506 1878-5506
DOI	10.1016/j.sleep.2012.11.001

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Abstract	Various techniques used to assess brain iron concentrations have demonstrated the presence of low iron stores in patients with restless legs syndrome (RLS). Previous open-label and randomized studies generally support the value of iron treatment for RLS symptoms. Only one of these studies assessed iron therapy response to changes in brain iron status. The current study was designed to assess the effect of iron therapy on RLS symptoms and on CSF measures of brain iron status. Idiopathic RLS patients drawn from the Korean population received four weekly intravenous (IV) doses of 250mg low-molecular weight iron dextran for a total dose of 1g. One week after the last dose, any subject on RLS medication tapered off the RLS medications. Blood and CSF samples were taken to measure iron parameters at baseline and again, three weeks after the last dose. We have been following their response to the drug for two years after treatment. Twenty-five patients (age 55.2±9.3, 18 female) enrolled in this study without serious adverse reactions. Seventeen of the 25 patients (68%) showed moderate or complete improvement of all RLS symptoms after treatment based on the Korean-translated versions of the International RLS Severity scale (K-IRLS). Changes in the K-IRLS did not correlate significantly with changes in CSF ferritin. The response to IV iron could not be predicted by patients’ demographics, or by blood or CSF iron baseline characteristics. RLS symptom improvement started between one and six weeks after treatment and the treatment benefits lasted from one month to 22months. Fourteen patients, (56%) completely stopped all medications, for a mean duration of 31.3±33.1weeks. These results are comparable to those from a prior study with high molecular weight dextran. Intravenous low-molecular weight iron dextran produced significant improvement of RLS symptoms in a majority of patients without any significant adverse effects. Serious anaphylaxis occurs with high molecular weight, but rarely, if ever, with this low molecular weight dextran. Given apparent comparable efficacy the low molecular weight and not the high molecular weight iron dextran, should be considered for RLS treatment. Although changes in CSF ferritin were seen following therapy, these changes were not related to clinical improvements.
AbstractList	Various techniques used to assess brain iron concentrations have demonstrated the presence of low iron stores in patients with restless legs syndrome (RLS). Previous open-label and randomized studies generally support the value of iron treatment for RLS symptoms. Only one of these studies assessed iron therapy response to changes in brain iron status. The current study was designed to assess the effect of iron therapy on RLS symptoms and on CSF measures of brain iron status.BACKGROUNDVarious techniques used to assess brain iron concentrations have demonstrated the presence of low iron stores in patients with restless legs syndrome (RLS). Previous open-label and randomized studies generally support the value of iron treatment for RLS symptoms. Only one of these studies assessed iron therapy response to changes in brain iron status. The current study was designed to assess the effect of iron therapy on RLS symptoms and on CSF measures of brain iron status.Idiopathic RLS patients drawn from the Korean population received four weekly intravenous (IV) doses of 250 mg low-molecular weight iron dextran for a total dose of 1g. One week after the last dose, any subject on RLS medication tapered off the RLS medications. Blood and CSF samples were taken to measure iron parameters at baseline and again, three weeks after the last dose. We have been following their response to the drug for two years after treatment.METHODSIdiopathic RLS patients drawn from the Korean population received four weekly intravenous (IV) doses of 250 mg low-molecular weight iron dextran for a total dose of 1g. One week after the last dose, any subject on RLS medication tapered off the RLS medications. Blood and CSF samples were taken to measure iron parameters at baseline and again, three weeks after the last dose. We have been following their response to the drug for two years after treatment.Twenty-five patients (age 55.2 ± 9.3, 18 female) enrolled in this study without serious adverse reactions. Seventeen of the 25 patients (68%) showed moderate or complete improvement of all RLS symptoms after treatment based on the Korean-translated versions of the International RLS Severity scale (K-IRLS). Changes in the K-IRLS did not correlate significantly with changes in CSF ferritin. The response to IV iron could not be predicted by patients' demographics, or by blood or CSF iron baseline characteristics. RLS symptom improvement started between one and six weeks after treatment and the treatment benefits lasted from one month to 22 months. Fourteen patients, (56%) completely stopped all medications, for a mean duration of 31.3 ± 33.1 weeks. These results are comparable to those from a prior study with high molecular weight dextran.RESULTSTwenty-five patients (age 55.2 ± 9.3, 18 female) enrolled in this study without serious adverse reactions. Seventeen of the 25 patients (68%) showed moderate or complete improvement of all RLS symptoms after treatment based on the Korean-translated versions of the International RLS Severity scale (K-IRLS). Changes in the K-IRLS did not correlate significantly with changes in CSF ferritin. The response to IV iron could not be predicted by patients' demographics, or by blood or CSF iron baseline characteristics. RLS symptom improvement started between one and six weeks after treatment and the treatment benefits lasted from one month to 22 months. Fourteen patients, (56%) completely stopped all medications, for a mean duration of 31.3 ± 33.1 weeks. These results are comparable to those from a prior study with high molecular weight dextran.Intravenous low-molecular weight iron dextran produced significant improvement of RLS symptoms in a majority of patients without any significant adverse effects. Serious anaphylaxis occurs with high molecular weight, but rarely, if ever, with this low molecular weight dextran. Given apparent comparable efficacy the low molecular weight and not the high molecular weight iron dextran, should be considered for RLS treatment. Although changes in CSF ferritin were seen following therapy, these changes were not related to clinical improvements.CONCLUSIONSIntravenous low-molecular weight iron dextran produced significant improvement of RLS symptoms in a majority of patients without any significant adverse effects. Serious anaphylaxis occurs with high molecular weight, but rarely, if ever, with this low molecular weight dextran. Given apparent comparable efficacy the low molecular weight and not the high molecular weight iron dextran, should be considered for RLS treatment. Although changes in CSF ferritin were seen following therapy, these changes were not related to clinical improvements. Various techniques used to assess brain iron concentrations have demonstrated the presence of low iron stores in patients with restless legs syndrome (RLS). Previous open-label and randomized studies generally support the value of iron treatment for RLS symptoms. Only one of these studies assessed iron therapy response to changes in brain iron status. The current study was designed to assess the effect of iron therapy on RLS symptoms and on CSF measures of brain iron status. Idiopathic RLS patients drawn from the Korean population received four weekly intravenous (IV) doses of 250mg low-molecular weight iron dextran for a total dose of 1g. One week after the last dose, any subject on RLS medication tapered off the RLS medications. Blood and CSF samples were taken to measure iron parameters at baseline and again, three weeks after the last dose. We have been following their response to the drug for two years after treatment. Twenty-five patients (age 55.2±9.3, 18 female) enrolled in this study without serious adverse reactions. Seventeen of the 25 patients (68%) showed moderate or complete improvement of all RLS symptoms after treatment based on the Korean-translated versions of the International RLS Severity scale (K-IRLS). Changes in the K-IRLS did not correlate significantly with changes in CSF ferritin. The response to IV iron could not be predicted by patients’ demographics, or by blood or CSF iron baseline characteristics. RLS symptom improvement started between one and six weeks after treatment and the treatment benefits lasted from one month to 22months. Fourteen patients, (56%) completely stopped all medications, for a mean duration of 31.3±33.1weeks. These results are comparable to those from a prior study with high molecular weight dextran. Intravenous low-molecular weight iron dextran produced significant improvement of RLS symptoms in a majority of patients without any significant adverse effects. Serious anaphylaxis occurs with high molecular weight, but rarely, if ever, with this low molecular weight dextran. Given apparent comparable efficacy the low molecular weight and not the high molecular weight iron dextran, should be considered for RLS treatment. Although changes in CSF ferritin were seen following therapy, these changes were not related to clinical improvements. Various techniques used to assess brain iron concentrations have demonstrated the presence of low iron stores in patients with restless legs syndrome (RLS). Previous open-label and randomized studies generally support the value of iron treatment for RLS symptoms. Only one of these studies assessed iron therapy response to changes in brain iron status. The current study was designed to assess the effect of iron therapy on RLS symptoms and on CSF measures of brain iron status. Idiopathic RLS patients drawn from the Korean population received four weekly intravenous (IV) doses of 250 mg low-molecular weight iron dextran for a total dose of 1g. One week after the last dose, any subject on RLS medication tapered off the RLS medications. Blood and CSF samples were taken to measure iron parameters at baseline and again, three weeks after the last dose. We have been following their response to the drug for two years after treatment. Twenty-five patients (age 55.2 ± 9.3, 18 female) enrolled in this study without serious adverse reactions. Seventeen of the 25 patients (68%) showed moderate or complete improvement of all RLS symptoms after treatment based on the Korean-translated versions of the International RLS Severity scale (K-IRLS). Changes in the K-IRLS did not correlate significantly with changes in CSF ferritin. The response to IV iron could not be predicted by patients' demographics, or by blood or CSF iron baseline characteristics. RLS symptom improvement started between one and six weeks after treatment and the treatment benefits lasted from one month to 22 months. Fourteen patients, (56%) completely stopped all medications, for a mean duration of 31.3 ± 33.1 weeks. These results are comparable to those from a prior study with high molecular weight dextran. Intravenous low-molecular weight iron dextran produced significant improvement of RLS symptoms in a majority of patients without any significant adverse effects. Serious anaphylaxis occurs with high molecular weight, but rarely, if ever, with this low molecular weight dextran. Given apparent comparable efficacy the low molecular weight and not the high molecular weight iron dextran, should be considered for RLS treatment. Although changes in CSF ferritin were seen following therapy, these changes were not related to clinical improvements. Abstract Background Various techniques used to assess brain iron concentrations have demonstrated the presence of low iron stores in patients with restless legs syndrome (RLS). Previous open-label and randomized studies generally support the value of iron treatment for RLS symptoms. Only one of these studies assessed iron therapy response to changes in brain iron status. The current study was designed to assess the effect of iron therapy on RLS symptoms and on CSF measures of brain iron status. Methods Idiopathic RLS patients drawn from the Korean population received four weekly intravenous (IV) doses of 250 mg low-molecular weight iron dextran for a total dose of 1 g. One week after the last dose, any subject on RLS medication tapered off the RLS medications. Blood and CSF samples were taken to measure iron parameters at baseline and again, three weeks after the last dose. We have been following their response to the drug for two years after treatment. Results Twenty-five patients (age 55.2 ± 9.3, 18 female) enrolled in this study without serious adverse reactions. Seventeen of the 25 patients (68%) showed moderate or complete improvement of all RLS symptoms after treatment based on the Korean-translated versions of the International RLS Severity scale (K-IRLS). Changes in the K-IRLS did not correlate significantly with changes in CSF ferritin. The response to IV iron could not be predicted by patients’ demographics, or by blood or CSF iron baseline characteristics. RLS symptom improvement started between one and six weeks after treatment and the treatment benefits lasted from one month to 22 months. Fourteen patients, (56%) completely stopped all medications, for a mean duration of 31.3 ± 33.1 weeks. These results are comparable to those from a prior study with high molecular weight dextran. Conclusions Intravenous low-molecular weight iron dextran produced significant improvement of RLS symptoms in a majority of patients without any significant adverse effects. Serious anaphylaxis occurs with high molecular weight, but rarely, if ever, with this low molecular weight dextran. Given apparent comparable efficacy the low molecular weight and not the high molecular weight iron dextran, should be considered for RLS treatment. Although changes in CSF ferritin were seen following therapy, these changes were not related to clinical improvements.
Author	Earley, Christopher J. Cho, Yong Won Allen, Richard P.
Author_xml	– sequence: 1 givenname: Yong Won surname: Cho fullname: Cho, Yong Won email: neurocho@dsmc.or.kr, neurocho@dreamwiz.com organization: Department of Neurology, Dongsan Medical Center, Keimyung University School of Medicine, Daegu, South Korea – sequence: 2 givenname: Richard P. surname: Allen fullname: Allen, Richard P. organization: Department of Neurology, Johns Hopkins University, Hopkins Bayview Medical Center, Baltimore, MD, USA – sequence: 3 givenname: Christopher J. surname: Earley fullname: Earley, Christopher J. organization: Department of Neurology, Johns Hopkins University, Hopkins Bayview Medical Center, Baltimore, MD, USA
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Keywords	Restless legs syndrome Therapy Cerebrospinal fluid Iron dextran Ferritin
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Snippet	Various techniques used to assess brain iron concentrations have demonstrated the presence of low iron stores in patients with restless legs syndrome (RLS).... Abstract Background Various techniques used to assess brain iron concentrations have demonstrated the presence of low iron stores in patients with restless...
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SubjectTerms	Brain - metabolism Brain Chemistry - drug effects Cerebrospinal fluid Drug Administration Schedule Female Ferritin Ferritins - blood Ferritins - cerebrospinal fluid Hematinics - administration & dosage Hematinics - adverse effects Hematinics - chemistry Humans Injections, Intravenous Iron dextran Iron-Dextran Complex - administration & dosage Iron-Dextran Complex - adverse effects Iron-Dextran Complex - chemistry Male Middle Aged Molecular Weight Neurology Restless legs syndrome Restless Legs Syndrome - drug therapy Restless Legs Syndrome - metabolism Sleep Medicine Therapy Treatment Outcome
Title	Lower molecular weight intravenous iron dextran for restless legs syndrome
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