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Diabetologia

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01-08-2005 | Article

Lack of effect of intermittently administered sodium fusidate in patients with newly diagnosed type 1 diabetes mellitus: the FUSIDM trial

Authors: I. Conget, E. Aguilera, S. Pellitero, S. Näf, K. Bendtzen, R. Casamitjana, R. Gomis, F. Nicoletti

Published in: Diabetologia | Issue 8/2005

Abstract

Aims/hypothesis

We evaluated in a double-blind study the effect of early treatment with the immunomodulatory drug fusidin in patients with newly diagnosed type 1 diabetes mellitus.

Methods

Twenty-eight adults with newly diagnosed type 1 diabetes were included in the study. The patients were randomly assigned (computer-generated random number sequence) to two experimental groups. Patients allocated to the fusidin (FUS) group (n=15) received sodium fusidate (fusidin; 500 mg orally three times daily for 4 weeks). Subsequently the drug was given at the same dose and scheduled for two consecutive weeks a month followed by 2 weeks a month without the drug for 20 weeks. Subjects allocated to the placebo (PCB) group (n=13) received placebo according to the same schedule and conditions described for sodium fusidate in the FUS group. All patients received a diet adjusted to their age and BMI, and intensive insulin therapy.

Results

There were no statistically significant differences between the FUS and PCB groups in beta cell function, evaluated by basal and glucagon-stimulated C-peptide values during the follow-up (24 and 48 weeks). There was also no difference between the two groups in insulin requirement after 48 weeks (0.4±0.2 and 0.4±0.2 U/kg body weight for the FUS and PCB groups, respectively). Antibody titres, including insulin autoantibodies, were similar in the two groups during the follow-up.

Conclusions/interpretation

Early treatment of newly diagnosed type 1 diabetes patients with intermittently administered fusidin failed to influence the natural course of the disease.

Winter WE, Schatz D (2003) Prevention strategies for type 1 diabetes mellitus. Biodrugs 17:39–64PubMed

Nicoletti F, Meroni PL, Bendtzen K (1996) Fusidic acid and insulin-dependent diabetes mellitus. Autoimmunity 24:187–197PubMed

Bendtzen K, Diamant M, Faber V (1990) Fusidic acid, an immunosuppressive drug with functions similar to cyclosporin A. Cytokine 2:423–429PubMed

Nicoletti F, Zaccone P, Di Marco R et al (1995) Effects of sodium fusidate in animal models of insulin-dependent diabetes mellitus and septic shock. Immunology 85:645–650PubMed

Nicoletti F, Di Marco R, Morrone S et al (1994) Reduction of spontaneous autoimmune diabetes in diabetes-prone BB rats treated with the novel immunosuppressant fusidic acid. Effect on T-cell proliferation and production of interferon-γ. Immunology 81:317–321PubMed

Hageman I, Buschard K (2002) Antidiabetogenic effect of fusidic acid in diabetes prone BB rats: a sex-dependent organ accumulation of the drug is seen. Pharmacol Toxicol 91:123–128PubMed

Nicoletti F, Di Marco R, Conget I et al (2000) Sodium fusidate ameliorates the course of diabetes induced in mice by multiple low doses of streptozotocin. J Autoimmun 15:395–405PubMed

Nicoletti F, Meroni PL, Lunetta M et al (1991) Sodium fusidate and increased remission rate of insulin-dependent diabetes mellitus. Lancet 337:1292

Nicoletti F, Nicoletti A, Giuffrida S et al (1998) Sodium fusidate in Guillain Barré syndrome: a case report. J Neurol Neurosurg Psychiatry 65:266–268PubMed

10.

Nicoletti F, Patti F, Nicoletti A et al (1999) Sodium fusidate in steroid resistant relapses of multiple sclerosis. Mult Scler 5:377PubMed

11.

Vidal J, Fernandez Balsells M, Sesmilo G et al (2000) Effects of nicotinamide and intravenous insulin therapy in newly diagnosed type 1 diabetes. Diabetes Care 23:360–364PubMed

12.

Greenbaum C, Harrison LC (2003) Guideleines for interventions trials in subjects with newly diagnosed type 1 diabetes. Diabetes 52:1059–1065PubMed

13.

Herold KC, Hagopian W, Auger JA et al (2002) Anti-CD3 monoclonal antibody in new-onset type 1 diabetes mellitus. N Engl J Med 346:1692–1698PubMed

14.

Raz I, Elias D, Avron A et al (2001) Beta-cell function in new onset type 1 diabetes and immunomodulation with a heat-shock protein peptide (DiaPep277): a randomised, double-blind, phase II trial. Lancet 358:1749–1753PubMed

15.

Madsbad S, Krarup T, Regeur L, Faber OK, Binder C (2001) Effects of strict blood glucose control on residual beta-cell function in insulin dependent diabetics. Diabetologia 20:530–534

16.

The Diabetes Control and Complications Trial Research Group (1988) Effect of intensive therapy on residual beta-cell function in patients with type 1 diabetes in the diabetes control and complications trial. A randomized, controlled trial. Ann Intern Med 128:517–523

17.

Mori Y, Suko M, Okudaira H et al (1986) Preventive effects of cyclosporin on diabetes in NOD mice. Diabetologia 29:244–247PubMed

18.

Like AA, Dirodi V, Thomas S, Guberski DL, Rossini AA (1984) Prevention of diabetes mellitus in the BB/W rat with cyclosporin-A. Am J Pathol 117:92–97PubMed

19.

Sestier C, Odent-Pogu S, Bonneville M, Maurel C, Lang F, Sai P (1985) Cyclosporin enhances diabetes induced by low-dose streptozotocin treatment in mice. Immunol Lett 10:57–60PubMed

20.

Roep BO, Atkinson M (2004) Animal models have little to teach us about type 1 diabetes: 1. In support of this proposal. Diabetologia 47:1650–1656PubMed

21.

Roep BO, Atkinson M, von Herrath M (2004) Satisfaction (not) guaranteed: re-evaluating the use of animal models of type 1 diabetes. Nat Rev Immunol 4:989–997PubMed

Title: Lack of effect of intermittently administered sodium fusidate in patients with newly diagnosed type 1 diabetes mellitus: the FUSIDM trial
Authors: I. Conget
E. Aguilera
S. Pellitero
S. Näf
K. Bendtzen
R. Casamitjana
R. Gomis
F. Nicoletti
Publication date: 01-08-2005
Publisher: Springer-Verlag
Published in: Diabetologia / Issue 8/2005
Print ISSN: 0012-186X
Electronic ISSN: 1432-0428
DOI: https://doi.org/10.1007/s00125-005-1823-2

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Aims/hypothesis

Methods

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