GALOP syndrome: a treatable immune-mediated late-age onset polyneuropathy with gait ataxia.Various studies have established an association between elevated titers of antibodies against sulfatide (the main acidic glycosphingolipid component of the myelin sheath) and a number of systemic and neurologic disorders. These auto-antibodies have been reported in patients with idiopathic thrombocytopenic purpura Idiopathic Thrombocytopenic Purpura Definition Idiopathic thrombocytopenic purpura, or ITP, is a bleeding disorder caused by an abnormally low level of platelets in the patient's blood. , (1) autoimmune chronic active hepatitis autoimmune chronic active hepatitis Lupoid hepatitis, see there , (2) human immunodeficiency virus human immunodeficiency virus n. HIV. Human immunodeficiency virus (HIV) A transmissible retrovirus that causes AIDS in humans. , (3) Guillain-Barre syndrome, (4) and chronic inflammatory demyelinating polyradiculoneuropathy. (5) In the past decade, most researchers have focused on the association between these auto-antibodies and peripheral neuropathies. (6) Pestronk et al. (7,8) identified a subgroup of older patients with peripheral neuropathy, gait ataxia ataxia (ətăk`sēə), lack of coordination of the voluntary muscles resulting in irregular movements of the body. Ataxia can be brought on by an injury, infection, or degenerative disease of the central nervous system, e.g. , and elevated titers of serum immunoglobulin M (IgM) binding to galopin and used the term GALOP syndrome (Gait disorder, Antibody, Late-age Onset, Polyneuropathy polyneuropathy /poly·neu·rop·a·thy/ (-ndbobr-rop´ah-the) neuropathy of several peripheral nerves simultaneously. amyloid polyneuropathy ) to delineate common features among these patients. The authors also reported experience with three different treatment modalities in the management of their six patients with GALOP syndrome: 1) plasma exchange, 2) intravenous immunoglobulin (IV Ig), and 3) cyclophosphamide cyclophosphamide /cy·clo·phos·pha·mide/ (-fos´fah-mid) a cytotoxic alkylating agent of the nitrogen mustard group; used as an antineoplastic, as an immunosuppressant to prevent transplant rejection, and to treat some diseases . (6) However, our knowledge of GALOP syndrome remains limited to anecdotal reports. Significant details of this syndrome remain unknown, such as the relationship between IgM auto-antibodies, central nervous system myelin myelin /my·elin/ (mi´e-lin) the lipid-rich substance of the cell membrane of Schwann cells that coils to form the myelin sheath surrounding the axon of myelinated nerve fibers. antigens, and clinical features of GALOP syndrome, particularly ataxic gait. In addition, the frequency of occurrence of these auto-antibodies in patients with chronic polyneuropathies is unclear. In this issue of the Southern Medical Journal, Alpert (9) reports the first case of GALOP syndrome with a 7-year follow-up. This case involves an elderly female patient who initially presented with gait ataxia associated with sensory complaints, weakness of the distal lower extremities, and diffuse hyporeflexia. Electrophysiologic examination showed abnormalities supporting a diagnosis of sensory motor polyneuropathy with primary axonal axonal pertaining to or arising from an axon. axonal degeneration an axon dies and cannot be replaced if its cell body is destroyed. loss. Serum immunofixation showed a monoclonal IgM kappa protein, and GALOP gal·op also gal·o·pade or gal·lo·pade n. 1. A lively dance in duple time, popular in the 19th century. 2. The music for this dance. autoantibody autoantibody /au·to·an·ti·body/ (-an´ti-bod?e) an antibody formed in response to, and reacting against, an antigenic constituent of one's own tissues. au·to·an·ti·bod·y n. screen revealed very high titers of specific IgM binding to the GALOP antigen. Neuropathologic examination of the sural nerve disclosed a loss of myelinated nerve fibers with segmental demyelination demyelination /de·my·elin·a·tion/ (de-mi?e-li-na´shun) destruction, removal, or loss of the myelin sheath of a nerve or nerves. Called also myelinolysis. of teased nerve fibers and mild axonal loss. Periodic treatment with IV Ig increased the strength of her distal lower extremities and improved her gait ataxia. Discontinuation of IV Ig therapy was followed by a recurrence of the clinical manifestations of GALOP syndrome as well as a rise in GALOP auto-antibody titers. A thorough seven-year follow-up of this patient has indicated that longterm immunosuppressive therapy is a crucial step in the stabilization of these patients. Current knowledge is limited concerning the treatment and long-term prognosis of patients with peripheral neuropathies associated with antisulfatide antibodies and GALOP syndrome. Alpert's is the first report which highlights the long-term follow-up of a patient with GALOP syndrome, and which demonstrates the role of IV Ig in the management of this relatively unknown syndrome. The patient's favorable therapeutic response to IV Ig, which was associated with a drop in antisulfatide antibody titers, further emphasizes the role of the immune system in the pathogenesis of GALOP syndrome and the significance of chronic immunosuppression immunosuppression Suppression of immunity with drugs, usually to prevent rejection of an organ transplant. Its aim is to allow the recipient to accept the organ permanently with no unpleasant side effects. in management of these patients. In conclusion, a diagnosis of GALOP syndrome should be strongly considered in elderly patients with peripheral neuropathy and otherwise idiopathic gait dysfunction, since it may be treatable with IV Ig. Accepted November 16, 2003. Copyright [c] 2004 by The Southern Medical Association 0038-4348/04/9704-0333 Please see "GALOP Syndrome: Case Report with 7-year Follow-up" on page 410 of this issue. References 1. Van Villet HH, Kappers-Klune MC, van der Hel JW, Abels J. Antibodies against glycosphingolipids in sera of patients with idiopathic thrombocytopenic purpura. Br J Haematol 1987;67:103-108. 2. Toda G, Ikeda Y, Kashiwagi M, Iwamori M, Oka H. Hepatocyte hepatocyte /hep·a·to·cyte/ (hep´ah-to-sit?) a hepatic cell. hep·a·to·cyte n. A parenchymal liver cell. Hepatocyte A liver cell. plasma membrane glycosphingolipid reactive with sera from patients with autoimmune chronic active hepatitis; its identification as sulfatide. Hepatology 1990;12:664-670. 3. Petratos S, Turnbull VJ, Papadopoulos R, Ayers M, Gonzales MF. High titer anti-sulfatide antibodies in HIV-infected individuals. NeuroReport 1999;10:2557-2562. 4. Van den Berg Van den Berg is the surname of:
5. Pestronk A, Li F, Griffin J, et al. Polyneuropathy syndromes associated with serum antibodies to sulfatide and myelin-associated glycoprotein. Neurology 1991;41:357-362. 6. Latov N. Pathogenesis and therapy of neuropathies associated with monoclonal gammopathies. Ann Neurol 1995;37:S32-S42. 7. Pestronk A, Choksi R, Bieser K, et al. GALOP syndrome: a treatable autoimmune gait disorder with late-age onset. Ann Neurol 1993;34:268-269. 8. Pestronk A, Choksi R, Bieser K, et al. Treatable gait disorder and polyneuropathy associated with high titer serum IgM binding to antigens that copurify with myelin-associated glycoprotein. Muscle Nerve 1994;17:1293-1300. 9. Alpert JN. GALOP syndrome: case report with a 7-year follow-up. South Med J 2004;97;410-412. Alireza Minagar, MD From the Department of Neurology, Louisiana State University Louisiana State University and Agricultural and Mechanical College, generally known as Louisiana State University or LSU, is a public, coeducational university located in Baton Rouge, Louisiana and the main campus of the Louisiana State University System. Health Sciences Center, Shreveport, LA. Reprint requests to Alireza Minagar, MD, Department of Neurology, Louisiana State University Health Sciences Center, 1501 Kings Highway, Shreveport, LA 71130. Email: aminag@lsuhsc.edu |
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