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IgG4-Related Neuropathy:  A Case Report FREE

Ken Ohyama, MD; Haruki Koike, MD, PhD; Masahiro Iijima, MD, PhD; Rina Hashimoto, MD; Minoru Tomita, MD; Yuichi Kawagashira, MD, PhD; Akira Satou, MD; Shigeo Nakamura, MD, PhD; Gen Sobue, MD, PhD
[+] Author Affiliations

Author Affiliations: Department of Neurology, Nagoya University Graduate School of Medicine (Drs Ohyama, Koike, Iijima, Hashimoto, Tomita, Kawagashira, and Sobue) and Department of Pathology and Laboratory Medicine, Nagoya University Hospital (Drs Satou and Nakamura), Nagoya, Japan.


JAMA Neurol. 2013;70(4):502-505. doi:10.1001/jamaneurol.2013.658.
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Published online

Importance The newly recognized entity IgG4-related disease (IgG4-RD) is characterized by an elevated IgG4 serum concentration and tissue infiltration by IgG4-positive plasma cells. We describe, for the first time, the clinical features and nerve biopsy findings of a patient with IgG4-RD who presented with neuropathy in the extremities.

Observations A 55-year-old man had histopathologically defined IgG4-RD that manifested as sensory-motor neuropathy. The neuropathic features were multiple mononeuropathies with electrophysiological findings suggestive of axonal neuropathy. Marked thickening with abundant collagen fibers and infiltration of IgG4-positive plasma cells were observed in the epineurium of the biopsied sural nerve. A moderate degree of myelinated fiber loss without evidence of segmental demyelination was present, whereas necrotizing vasculitis was not found. Oral prednisolone therapy ameliorated the neuropathic symptoms.

Conclusions and Relevance This case of IgG4-RD presented as sensory-motor neuropathy with pain and sclerosis of the skin in the extremities. The differential diagnosis of neuropathy should include IgG4-RD.

Figures in this Article

The newly recognized entity IgG4-related disease (IgG4-RD) is characterized by tissue infiltration by IgG4-positive plasma cells, fibrosis, and elevated serum IgG4 concentrations.1,2 These abnormalities were first reported in patients with autoimmune pancreatitis in 2001.3 Currently, IgG4-RD is known to involve various organs, including the hypophysis, lacrimal and salivary glands, thyroid, bile duct, kidneys, retroperitoneum, and skin.1,2 Therefore, the concept of this disease is expanding and involves a wide range of medical branches.1,2 It is thought that this disease is not as rare as previously considered and that the number of patients diagnosed as having IgG4-RD will increase as it becomes more widely recognized by clinicians.1,2 In the field of neurology, pachymeningitis is known to be related to IgG4-RD,4 but this disease has not been considered in the differential diagnosis of neuropathy.

For the first time to our knowledge, we describe the clinical features of a case of IgG4-related neuropathy that exhibited sensory and motor disturbances in the extremities.

A 55-year-old man had pigmentation and sclerosis of the skin around the left ankle that first presented 20 years ago. When ulcers of the skin occasionally occurred, he was treated with betamethasone. However, the skin change did not disappear and remained around the left ankle. One and a half years ago, the patient was diagnosed as having diabetes and has been receiving oral medication to maintain normal serum glycated hemoglobin values (6.0% [reference range, 4.6%-5.7%; to convert to proportion of total hemoglobin, multiply by 0.01]). Ophthalmologists and nephrologists did not note any diabetic complications. At that time, the skin change spread to the lower left leg under the knee and subsequently to the lower right leg. The patient felt numbness and continuous pain in the lower legs 4 months later. Thereafter, the patient noticed a loss of grasping power in the hands. He was admitted to our hospital as the symptoms gradually worsened.

On admission, body mass index (calculated as weight in kilograms divided by height in meters squared) was 20.2. In both lower legs, pigmentation and sclerosis of the skin with ulcerations and with and without scars were found (Figure, A). The patient was alert and well oriented, and his cranial nerves were intact. He had mild muscular weakness in his distal limbs, and his ability to grasp had decreased (right, 23 kg; left, 16 kg). There was no sign of muscle atrophy. On both sides, the deep tendon reflexes were mildly diminished in the upper and lower extremities. Flexor plantar responses were observed on both sides. Severe spontaneous pain existed in the lower legs. The sensation of pain was moderately diminished in both lower legs, and the sensation of temperature was mildly diminished in the right lower leg. The sensation of vibration was severely diminished in both feet. The sensations of light touch and position had not decreased. The patient could not walk a long distance because of leg pain. Although he had dysesthesia in both hands, objective sensory disturbance in the upper limbs was not detected, except for a mild reduction in vibration sensation.

Place holder to copy figure label and caption
Graphic Jump Location

Figure. Clinical photograph and biopsy findings. A, Skin pigmentation with ulcers. B and C, Skin biopsy findings. Fibrosis and infiltration of inflammatory cells were observed in the subcutaneous tissue in addition to numerous IgG4-positive plasma cells (hematoxylin-eosin [B] and IgG4 immunostain [C], scale bar = 50 μm). D-H, Sural nerve biopsy findings. D and E, Marked thickening with abundant collagen fibers and infiltration of IgG4-positive plasma cells were observed in the epineurium (hematoxylin-eosin [D] and azan [E], scale bar = 500 μm). F, Perineural infiltration of inflammatory cells was observed (hematoxylin-eosin, scale bar = 30 μm). G, More than 10 IgG4-positive plasma cells exist in the epineurium (IgG4 immunostain, scale bar = 30 μm). H, There was a moderate reduction in large and small myelinated fibers (toluidine blue, scale bar = 50 μm).

The IgA, IgE, and IgG levels increased (IgA, 569 mg/dL [reference range, 110-410 mg/dL; to convert to milligrams per liter, multiply by 10]; IgE, 847.2 μg/L [reference range, <484.8 μg/L; to convert to milligrams per liter, multiply by 0.001]; and IgG, 2544 mg/dL [reference range, 870-1700 mg/dL; to convert to grams per liter, multiply by 0.01]). Additionally, the serum IgG4 level was elevated (259 mg/dL [reference range, 5-105 mg/dL; to convert to grams per liter, multiply by 0.01]). A serum autoantibody test was positive for antinuclear antibody (titer, 1:160 [reference range, <1:40]) but negative for anti–SS-A antibodies, anti–SS-B antibodies, antiribonucleoprotein antibodies, anti-DNA antibodies, and anticardiolipin antibodies. The test was also negative for cytoplasmic antineutrophil cytoplasmic autoantibody and myeloperoxidase antineutrophil cytoplasmic autoantibody. The serum vascular endothelial growth factor level was normal, as were results of a cerebrospinal fluid examination. Findings on gallium 67 scintigraphy and on chest and abdomen computed tomographic, positron emission tomographic, and magnetic resonance imaging scans of the cranial, pituitary, and lumbar spinal cord did not show any apparent abnormalities.

Nerve conduction studies showed the existence of sensory-motor neuropathy (Table). Motor conduction velocities in the median, ulnar, and tibial nerves were normal (±2 SDs of controls5). The amplitudes of the compound muscle action potentials were preserved in the median and ulnar nerves but decreased in the tibial nerve. Additionally, the sensory conduction velocities were decreased in the median and ulnar nerves, whereas the sensory nerve action potentials were normal. A sensory nerve action potential was not evoked in the sural nerve.

Table Graphic Jump LocationTable. Nerve Conduction Study Results

A skin biopsy of the left lower leg showed marked fibrosis and infiltration of IgG4-positive cells in the subcutaneous tissue (Figure, B and C). There was no evidence of necrotizing vasculitis. The frequency of IgG4-positive cells as a percentage of IgG-positive cells in the skin was approximately 30%.

A sural nerve biopsy revealed marked thickening with abundant collagen fibers and infiltration of IgG4-positive plasma cells in the epineurium (Figure, D and E). Although infiltration of inflammatory cells was abundant in the epineurial perivascular areas, findings suggestive of necrotizing vasculitis such as occlusion of blood vessels or fibrinoid necrosis were not found. Immunohistochemical assessments revealed a mixture of CD20-positive B lymphocytes, CD3-positive T lymphocytes, CD68-positive macrophages, and IgG-positive plasma cells in the perineurium and the epineurial perivascular areas. The CD20-positive B lymphocytes were especially abundant in the epineurial perivascular areas, while they were scarce in the perineurium. There were no inflammatory cells in the endoneurium. Clusters of IgG4-positive plasma cells were observed in the perineural tissue. The number of IgG4-positive plasma cells was higher than 10 per high-power field (Figure, F and G). Moderate decreases in the densities of large and small fibers were observed (Figure, H). A few clusters of myelinated fibers, ie, potentially regenerating fibers, were observed. A teased-fiber study indicated axonal degeneration (11.9%) without evidence of segmental demyelination. Amyloid deposition was not detected with Congo red staining.

Because the patient was diagnosed as having IgG4-RD, he was treated with oral prednisolone therapy (30 mg/d). After starting prednisolone, his symptoms of numbness and continuous pain gradually improved and his grasping power increased in 3 weeks (right, 36 kg; left, 30 kg). He could walk a long distance. Blood tests showed that his IgA and IgG levels became normal after 2 weeks (IgA, 375 mg/dL; IgG, 1443 mg/dL) and his IgG4 level became normal after 3 weeks (IgG4, 102 mg/dL).

The entity of IgG-RD has been reported to involve a variety of organs, and some organ-specific diagnostic criteria for IgG4-RD have been proposed.1,6 However, there is no consensus on the diagnosis for IgG4-related peripheral neuropathy. According to the “Comprehensive Diagnostic Criteria for IgG4-RD, 2011,”6 the following items are necessary for diagnosis: (1) swelling or masses in single or multiple organs; (2) elevated serum IgG4 concentrations (>135 mg/dL); and (3) marked lymphocyte and plasmacyte infiltration with IgG4-positive plasma cells (ratio of IgG4-positive/IgG-positive cells >40% and >10 IgG4-positive plasma cells per high-power field) and fibrosis in a histopathological examination. In our case, swelling of the peripheral nerves, elevated serum IgG4 concentration, and fibrosis with IgG4-positive plasma cell infiltration were identified. Thus, most of the characteristic features of IgG4-RD were present.

Focal ischemia resulting from the occlusion of vessels by infiltrating inflammatory cells or constriction by marked fibrosis could be considered mechanisms of IgG4-related neuropathy. The patient's clinical symptoms showed multiple mononeuropathy patterns, and the findings from the sural nerve biopsy showed axonal neuropathy. These features, in addition to perivascular inflammatory cell infiltration, suggest that vasculitis was the cause of the neuropathy.7 However, there were no findings suggestive of necrotizing vasculitis. Recently, a few reports described intraorbital, trigeminal, and paravertebral nerve involvement.8,9 A pathological assessment revealed that the nerves were surrounded by inflammatory infiltration, including the infiltration of IgG4-positive plasma cells with fibrosis. Therefore, constriction by surrounding tissues was likely in such cases. Future studies are necessary to clarify the pathogenesis of neuropathy in IgG4-RD.

In conclusion, we describe the first case, to our knowledge, of IgG4-related neuropathy, which presented as sensory-motor neuropathy with pain and sclerosis of the skin in the extremities. The histopathological findings of a sural nerve biopsy indicated IgG4-RD, and oral prednisolone therapy was highly effective. The differential diagnosis for the mononeuritis multiplex type of neuropathy should include IgG4-RD.

Correspondence: Gen Sobue, MD, PhD, Department of Neurology, Nagoya University Graduate School of Medicine, 65 Tsurumai-Cho, Showa-Ku, Nagoya, 466-8550, Japan (sobueg@med.nagoya-u.ac.jp).

Accepted for Publication: August 30, 2012.

Published Online: February 25, 2013. doi:10.1001/jamaneurol.2013.658

Author Contributions:Study concept and design: Ohyama, Koike, Iijima, and Sobue. Acquisition of data: Ohyama, Koike, Iijima, Hashimoto, Tomita, Kawagashira, Satou, Nakamura, and Sobue. Analysis and interpretation of data: Ohyama, Koike, Iijima, and Sobue. Drafting of the manuscript: Ohyama. Critical revision of the manuscript for important intellectual content: Koike, Iijima, Hashimoto, Tomita, Kawagashira, Satou, Nakamura, and Sobue. Administrative, technical, and material support: Ohyama, Koike, Iijima, Hashimoto, Tomita, Kawagashira, Satou, Nakamura, and Sobue.

Conflict of Interest Disclosures: None reported.

Funding/Support: This work was supported by grants from the Ministry of Health, Labor, and Welfare and the Ministry of Education, Culture, Sports, Science, and Technology of Japan.

Umehara H, Okazaki K, Masaki Y,  et al; Research Program for Intractable Disease by Ministry of Health, Labor and Welfare Japan G4 team.  A novel clinical entity, IgG4-related disease (IgG4RD): general concept and details.  Mod Rheumatol. 2012;22(1):1-14
PubMed   |  Link to Article
Stone JH, Zen Y, Deshpande V. IgG4-related disease.  N Engl J Med. 2012;366(6):539-551
PubMed   |  Link to Article
Hamano H, Kawa S, Horiuchi A,  et al.  High serum IgG4 concentrations in patients with sclerosing pancreatitis.  N Engl J Med. 2001;344(10):732-738
PubMed   |  Link to Article
Lindstrom KM, Cousar JB, Lopes MB. IgG4-related meningeal disease: clinico-pathological features and proposal for diagnostic criteria.  Acta Neuropathol. 2010;120(6):765-776
PubMed   |  Link to Article
Koike H, Hirayama M, Yamamoto M,  et al.  Age associated axonal features in HNPP with 17p11.2 deletion in Japan.  J Neurol Neurosurg Psychiatry. 2005;76(8):1109-1114
PubMed   |  Link to Article
Umehara H, Okazaki K, Masaki Y,  et al.  Comprehensive diagnostic criteria for IgG4-related disease (IgG4-RD), 2011.  Mod Rheumatol. 2012;22(1):21-30
PubMed   |  Link to Article
Collins MP, Dyck PJ, Gronseth GS,  et al; Peripheral Nerve Society.  Peripheral Nerve Society Guideline on the classification, diagnosis, investigation, and immunosuppressive therapy of non-systemic vasculitic neuropathy: executive summary.  J Peripher Nerv Syst. 2010;15(3):176-184
PubMed   |  Link to Article
Katsura M, Morita A, Horiuchi H, Ohtomo K, Machida T. IgG4-related inflammatory pseudotumor of the trigeminal nerve: another component of IgG4-related sclerosing disease?  AJNR Am J Neuroradiol. 2011;32(8):E150-E152
PubMed   |  Link to Article
Inoue D, Zen Y, Sato Y,  et al.  IgG4-related perineural disease.  Int J Rheumatol. 2012;2012:401890
PubMed

Figures

Place holder to copy figure label and caption
Graphic Jump Location

Figure. Clinical photograph and biopsy findings. A, Skin pigmentation with ulcers. B and C, Skin biopsy findings. Fibrosis and infiltration of inflammatory cells were observed in the subcutaneous tissue in addition to numerous IgG4-positive plasma cells (hematoxylin-eosin [B] and IgG4 immunostain [C], scale bar = 50 μm). D-H, Sural nerve biopsy findings. D and E, Marked thickening with abundant collagen fibers and infiltration of IgG4-positive plasma cells were observed in the epineurium (hematoxylin-eosin [D] and azan [E], scale bar = 500 μm). F, Perineural infiltration of inflammatory cells was observed (hematoxylin-eosin, scale bar = 30 μm). G, More than 10 IgG4-positive plasma cells exist in the epineurium (IgG4 immunostain, scale bar = 30 μm). H, There was a moderate reduction in large and small myelinated fibers (toluidine blue, scale bar = 50 μm).

Tables

Table Graphic Jump LocationTable. Nerve Conduction Study Results

References

Umehara H, Okazaki K, Masaki Y,  et al; Research Program for Intractable Disease by Ministry of Health, Labor and Welfare Japan G4 team.  A novel clinical entity, IgG4-related disease (IgG4RD): general concept and details.  Mod Rheumatol. 2012;22(1):1-14
PubMed   |  Link to Article
Stone JH, Zen Y, Deshpande V. IgG4-related disease.  N Engl J Med. 2012;366(6):539-551
PubMed   |  Link to Article
Hamano H, Kawa S, Horiuchi A,  et al.  High serum IgG4 concentrations in patients with sclerosing pancreatitis.  N Engl J Med. 2001;344(10):732-738
PubMed   |  Link to Article
Lindstrom KM, Cousar JB, Lopes MB. IgG4-related meningeal disease: clinico-pathological features and proposal for diagnostic criteria.  Acta Neuropathol. 2010;120(6):765-776
PubMed   |  Link to Article
Koike H, Hirayama M, Yamamoto M,  et al.  Age associated axonal features in HNPP with 17p11.2 deletion in Japan.  J Neurol Neurosurg Psychiatry. 2005;76(8):1109-1114
PubMed   |  Link to Article
Umehara H, Okazaki K, Masaki Y,  et al.  Comprehensive diagnostic criteria for IgG4-related disease (IgG4-RD), 2011.  Mod Rheumatol. 2012;22(1):21-30
PubMed   |  Link to Article
Collins MP, Dyck PJ, Gronseth GS,  et al; Peripheral Nerve Society.  Peripheral Nerve Society Guideline on the classification, diagnosis, investigation, and immunosuppressive therapy of non-systemic vasculitic neuropathy: executive summary.  J Peripher Nerv Syst. 2010;15(3):176-184
PubMed   |  Link to Article
Katsura M, Morita A, Horiuchi H, Ohtomo K, Machida T. IgG4-related inflammatory pseudotumor of the trigeminal nerve: another component of IgG4-related sclerosing disease?  AJNR Am J Neuroradiol. 2011;32(8):E150-E152
PubMed   |  Link to Article
Inoue D, Zen Y, Sato Y,  et al.  IgG4-related perineural disease.  Int J Rheumatol. 2012;2012:401890
PubMed

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