docCLINICAL AND LABORATORY STUDIES Eosinophilic myositis
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CLINICAL AND LABORATORY STUDIES Eosinophilic myositis
CLINICAL AND LABORATORY STUDIES Eosinophilic myositis/perimyositis: Frequency and spectrum of cutaneous manifestations Ralph M. Trtieb, MD, Marcus Pericin, MD, Brigitte Winzeler, Brunello Wtithrich, MD, and Gtinter Burg, MD Zurich, Switzerland Background: Eosinophilic myositis/perimyositis (EM/P) are a group of rare idiopathic muscle disorders associated with eosinophilia. Objective: We describe the frequency and spectrum of cutaneous manifestations in EM/P and compare them with the idiopathic hypereosinophilic syndrome (HES). Methods: We review the literature on EM/P and describe an additional case associated with angioedema. Results: Of a total of 26 reported patients with EM/P, cutaneous manifestations were observed in 10. These were, in order of frequency, deep subcutaneous induration, erythema, angioedema, urticaria, and papular lesions. Conclusion: Skin lesions occur less frequently in EM/P than in HES. Although erythematous papulonodular lesions and urticaria/angioedema are most commonly observed in HES, the most frequent skin manifestations of EM/P are subcutaneous induration and erythema. In HES, angioedema has been correlated with a favorable prognosis. At least some of these patients apparently have an idiopathic eosinophilic disorder distinct from HES, including EM/P. In contrast to HES, the overall prognosis of EM/P is good, particularly when muscle lesions are focal, and the principal histopathologic finding is perimysial infiltrates. (J Am Acad Dermatol 1997;37:385-91.) Significant elevations in the number (> 0.7 x 109 cells]L) and percentage (> 5%) of peripheral blood eosinophils are associated with a group of idiopathic inflammatory disorders. These include both local and multisystem diseases with variable expression of either direct eosinophilotoxic or vasculitic tissue damage and end-stage fibrosis. 1 Since the introduction of the term "hypereosinophilic syndrome" (HES) by Hardy and Anderson2 and diagnostic criteria for HES by Chusid et al. 3 (persistent eosinophilia > 1.5 x 109 cells/L for at least 6 months, with signs of organ system involvement, without evidence of other apparent causes for eosinophilia), it has become apparent that there are patients with eosinophilic disorders that are clinically distinct from HES, whether the cause is From the Department of Dermatology, University Hospital of Zurich. Accepted for publication April 3, 1997. Reprint requests: Ralph M. Triieb, MD, Department of Dermatology, University Hospital of Zurich, Gloriastr. 31, 8091 Zurich, Switzerland. Copyright © 1997 by the American Academy of Dermatology, Inc. 0190-9622/97/$5.00 + 0 16/1/82575 known, such as in L-tryptophan-associated eosinophilia-myalgia and toxic oil syndrome,4 or unknown, such as in eosinophilic fasciitis,4 episodic angioedema with eosinophilia, 5 and eosinophilic myositis/perimyositis (EM/P). 6 EM/P encompasses a clinically and pathologically diverse group of rare, idiopathic, inflammatory muscle diseases associated with peripheral or tissue eosinophilia. 6 As with the other idiopathic eosinophilic disorders, the diagnosis of EM/P is one of exclusion, and requires exclusion of an underlying infectious process (in particular, parasitic infestation), noneosinophilic myopathies, and other eosinophilic disorders (such as eosinophilia-myalgia syndrome). Although eosinophilic myositis (EM) is well described in the veterinary literature (it primarily affects the masticator muscles of dogsT), it has only recently been discussed in the rheumatologic6 and dermatologic literature. 8,9 We describe an additional patient with EM associated with angioedema, review the literature on patients with EM/P with respect to the frequency and spectrum of cutaneous manifestations, and compare these with the skin manifestations of HES. 386 Journal of the American Academy of Dermatology September 1997 Triieb et al. T a b l e I. Characteristics o f the 10 patients with eosinophilic m y o s i t i s / p e r i m y o s i t i s and r e p o r t e d cutaneous manifestations Muscle manifestations Case No. (Ref.) Age (yr) Eosinophilic myositis 117 Sex Localization Pain Swelling Weakness 47 M Lower extremities + + 217 55 M Lower extremities + + 318 70 F Unilateral epicondylus + + 49 44 F Proximal upper/lower extremities + + 5 (present report) 39 F Upper/lower extremities + + 47 M Lower extremities + + NR 715 35 M Lower extremities - NR NR 86 55 M Lower extremities - + NR 916 55 M Proximal extremities + NR NR 48 M Upper/lower extremities + + - Eosinophilic perimyositis 614 108 N, Normal; NR, not reported. PATIENTS AND METHODS Review of the literature A MEDLINE literature search was performed for reports on EM/P and related conditions since the 1993 review by Kaufman et al. 6 of 29 patients (not 31: cases 8 & 10 and 9 & 12 actually represent the same patients). Patients with an apparent cause of their EM syndrome (such as I~-tryptophan-associated eosinophilia-myalgia syndrome and parasitic infection), as well as other welldelineated, idiopathic eosinophilic disorders, such as eosinophilic fasciitis, systemic necrotizing vasculitis with eosinophilia (Churg-Strauss syndrome and periarteritis nodosa), and HES were excluded. Of the cases included in the review of idiopathic EM by Kaufman et al., 6 the following were not included in this study: allegedly drug-associated cases of EM (tranilast, 1° sulfisoxazolell), a single case report with a granulomatous histology, 12 and eosinophilic polymyositis. The latter was excluded because it represents a multisystem disease with widespread eosinophilic infiltration of tissues, blood eosinophilia, poor response to glucocorticoid therapy, and cardiac and thromboembolic complica- Journal of the AmericanAcademyof Dermatology Volume 37, Number 3, Part 1 Cutaneous manifestations Triieb et al. 387 Eosinophil count (109/L) CPK/Aidolase Skin histopathology 2.6 $/NR N 1.5 $/NR N 0.3 N/NR NR 5.9 $/NR Dermal infiltrates of eosinophils with "flame figures" Moderate perivascular mononuclear infiltrate Deep subcutaneous induration Deep subcutaneous induration Erythema overlying swelling Pruritic urticarial lesions, erythematous plaques and trates of morphealike induration Angioedema 4.6 Tense, hard, nonpitting edema Skin induration 2.0 N/N NR NR/NR Erythema 4.5 N/NR Angioedema 9.2 N/N Macular erythema overlying swollen muscles and on the dorsa of the hands; palmar erythematous papules 1.1 N/~" tions, 12,13 suggesting--as formerly proposed14--that it belongs to HES rather than to the variants of EM/P. Illustrative e a s e report A 39-year-old white woman had a 2-year history of episodic swelling of the face, hands, arms, feet, and legs associated with pain and weakness of the proximal muscles of the arms and legs. She also complained of periarticular joint pain of the hands and knees. She had no fever or fatigue. She denied use of any drugs, including L-tryptophan. Alcohol consumption was NR Treatment Course Indomethacin (75 mg/day) Prednisone (40 rag/day) Prednisone (20 mg/day) Prednisone (60 mg/day) Resolution Prednisone (50 mg/day) Improvement, relapse Indomethacin (100 mg/day) Prednisone (60 mg/day) Improvement relapse Improvement Lymphoplasmacellular and eosinophilic infiltration of the dermis and subcutaneous tissue with fibrosis Scant dermal Prednisone infiltrates of (30 mg/day) eosinophils NR Prednisone (60 mg/day) Lymphocytic Prednisoue small-vessel (15 rag/day) vasculitis Improvement, relapse Resolution Improvement, relapse Improvement, relapse Improvement, relapse Improvement, relapse moderate, and there was no recent travel or history of ingesting poorly cooked meat. Pertinent laboratory findings were total eosinophil counts greater than 1.5 x 109 cells/L and elevated lactate dehydrogenase (1024 U/L; normal, < 430 U/L) and aldolase (9.2 U/L; normal, < 7.8 U/L). A bone marrow aspirate revealed eosinophilia without evidence of myeloid dysplasia. Investigations for parasites were negative. A biopsy specimen of the biceps brachial muscle was interpreted as showing eosinophilic small-vessel vasculitis. We reviewed the specimen and found both perimysial and 388 Triieb et al. Journal of the American Academy of Dermatology September 1997 antinuclear antibody, syphilis, hepatitis B and C, and Lyme disease. Further immunologic studies revealed an elevated level of serum IgE (310 CAP kU/L; norreal, < 25 kU/L) with specific IgE reactivity (class 3: 3.5 to 17.5 kU/L) on RAST CAP FEIA (fluoroenzyme immunoassay) testing to grass pollen, house dust mites, and cat; the soluble interleukin-2 (IL-2) receptor level was slightly elevated (486 U/ml; normal, < 477.0 U/ml). These were in the normal range: IgA, IgM, IgG and IgG subclasses; C3, C4, Clq-binding capacity; serum levels of interferon gamma, IL-1, IL-2, IL-6, and tumor necrosis factor-c~. Findings of radiographic chest examination, electrocardiography, and echocardiographic studies were normal. A lesional skin biopsy specimen demonstrated a moderate perivascular mononuclear infiltrate devoid of eosinophils or vasculitic changes. Direct immunofluorescence was negative for fibrinogen, C3, IgG, IgA, and IgM. RESULTS Clinical and laboratory findings Fig. 1. Eosinophilic myositis with angioedema. Eosinophilic infiltration of muscle in (A) perimysial and (B) endomysial distribution. Note perivascular distribution without evidence of vasculitis. (Hematoxylineosin stain; original magnifications: A, X 25; B, × 62.5.) endomysial inflammatory infiltrates consisting of histiocytes, lymphocytes, and a large number of eosinophils in a partly perivascular distribution without overt signs of vasculitis (Fig. 1). The patient responded promptly to oral prednisone 50 mg daily. Repeated attempts to reduce the dosage resulted in recurrence of her symptoms. Further evaluation revealed angioedematous swelling of the face and neck. Laboratory studies revealed the following values: erythrocyte sedimentation rate (Westergren) 4 mm/hr; white blood cell count 25.86 x 109/L with 17.8% (4.6 x 109/L) eosinophils, 63.4% neutrophils, 16.0% lymphocytes, 1.6% monocytes, and 0.6% basophils; hemoglobin 14.8 gm/dl; hematocrit 43.5%; platelets 321 x 109/L; eosinophilic cationic protein level 270 mg/L (normal, 1.8 to 18 rag/L); slightly elevated serum aldolase (8.5 U/L; normal, < 7.6 U/L); and serum creafine kinase in the normal range. The results of these tests were also normal: C-reactive protein, serum glucose, creatinine, alkaline phosphatase, AST, ALT, basal thyroid-stimulating hormone, and routine urinalysis. Results were negative on testing for rheumatoid factor, The features of the 10 cases of EM/P with reported cutaneous manifestations 6,8,9,14-18 of a total of 26 published cases of EM/P are detailed in Table I. All cases were characterized by eosinophilia in the peripheral circulation, the bone marrow, or the involved muscle tissue. Depending on the localization of the eosinophilic infiltrate and whether there was associated myofiber necrosis, EM and eosinophilic perimyositis (EP) were differentiated; EM indicates inflammation within the endomysium with associated myoflber necrosis, whereas in EP the inflammation is limited to the perimysium in the absence of myonecrosis. 6 A summary of the demographic, clinical, and laboratory features associated with EM/P is outlined in Table II. The mean age at disease onset in the 26 patients (EM: 13; EP: 13) was 43.5 years (EM: 44 years; EP: 43 years), and the male/female ratio was 2.6:1 (EM: 2:1; EP: 3.3:1). Muscle swelling or masses were noted in 77% of the patients (EM: 100%; EP: 54%), with myalgia or palpable muscle tenderness in 73% (EM: 85%; EP: 62%). However, muscle weakness was noted in only 15% of the patients (EM: 15%; EP: 15%). The most striking laboratory finding was prominent peripheral or tissue eosinophilia. However, in five patients (24% of the 21 patients in whom the absolute eosinophil counts were reported; two patients with EP and three patients with focal lesions of EM), the peripheral blood eosinophil count was reported as less than 0.7 x 109 cells/L. Journal of the American Academy of Dermatology Volume 37, Number 3, Part 1 Triieb et al. 389 Table II. Summary of the demographic, clinical, and laboratory features in 26 patients with eosinophilic myositis/perimyositis Eosinophilic myositis or perimyositis (Total) (N = 26) Demographic features Mean age (yr) Sex (M:F) Muscle manifestations: No. (%) Swelling/mass Pain/tenderness Weakness Cutaneous manifestations: No. (%) Induration Erythema Angioedema Urticaria Papules Laboratory features: No. (%) Eosinophilia $CPK ~'Aldolase Eosinophilic myositis Eosinophilic perimyositis (n = 13) (n = 13) 43.5 2.6:1 24 (92) 20 (77) 19 (73) 4 (15) 10 (38) 5 (19) 4 (15) 2 (8) 1 (4) 1 (4) 44 2:1 13 (100) 13 (100) 11 (85) 2 (15) 5 (38) 3 (23) 2 (15) 1 (8) 1 (8) 0 43 3.3:1 11 (85) 7 (54) 8 (62) 2 (15) 5 (38) 2 (15) 2 (15) 1 (8) o 1 (8) 16/21 (76) 10/20 (50) 5/9 (56) 8/11 (73) 8/12 (67) 3/4 (75) 8/10 (80) 2/8 (25) 2/5 (40) CPK, Creatine phosphokinase. Essentially all patients demonstrated eosinophilic infiltrates in muscle biopsy specimens. Elevation of the creatine phosphokinase was found in 50% of the 20 patients (67% of 12 with EM; 25% of eight with EP) for whom these measurements were available. The serum aldolase level was elevated in 56% of the nine patients (75% of four with EM; 40% of five with EP) in whom it was recorded. Cutaneous manifestations were observed in 38% (10 of 26): These included deep subcutaneous induration/solid edema in 19% (EM: 23%; EP: 15%), erythemain 15% (EM: 15%; EP: 15%), angioedema in 8% (EM: 8%; EP: 8%), urticaria in 4% (EM: 8%; EP: 0%), and papular lesions in 4% (EM: 0%; EP: 8%). Peripheral edema was observed in four patients. papular skin changes, a biopsy specimen of an erythematous lesion revealed perivascular inflammatory infiltrates of lymphocytes devoid of eosinophils, with associated endothelial swelling in the superficial dermal vessels, and moderate erythrocyte extravasation compatible with lymphocytic small vessel vasculitis. 8 In a case of EM with urticarial and erythematous lesions, later evolving to indurated morphealike plaques, histologic examination demonstrated a striking infiltration of the dermis with leukocytes, mostly eosinophils, and "flame figures. ''9 Finally, in our patient with EM with angioedema, only a moderate perivascular mononuclear infiltrate devoid of eosinophils and an absence of vasculitic changes were noted. Dermatohistopathologic findings DISCUSSION Skin biopsies were reportedly performed in 13 patients with EM/P, but positive histopathologic findings were specified in only five patients with skin manifestations. 6'8,9 In one case of EP associated with skin induration, a lymphoplasmacellular and eosinophilic infiltration and fibrosis of the dermis and subcutaneous tissue were noted15; in a case of EP associated with erythema, scant infiltrates of eosinophils were observed in the dermis6; in a case of EP associated with erythematous and The term eosinophilic perimyositis was first coined by Serratrice et al. 14 in 1980. They described two patients with a benign relapsing myalgia involving the legs, with perimysial eosinophilic infiltrates, peripheral eosinophilia, normal creatine phosphokinase levels, and no evidence of systemic involvement. They explicitly distinguished it from the formerly reported cases of eosinophilic polymyositis, 12 which they considered as probably a variant of HES. Subsequently, EP 390 Tr~ieb et al. was recognized to represent one of a pathologically diverse group of disorders affecting the muscle or its supporting connective tissue structures with infiltration of eosinophils. 15 Although there have been claims of muscle involvement in eosinophilic fasciitis, 15 EM/P is distinguished by an absence of fascial infiltrates and prompt response to antiinflammatory therapy. The pathogenesis of these disorders has remained elusive. It has been proposed that, after an undefined triggering event (e.g., trauma, physical exertion, alcohol abuse, or exposure to some unknown toxin), there is an increase in eosinophil production and activation, mediated by cytokines (granulocyte-macrophage colony-stimulating factor, IL-3, IL-5) that possess eosinophilopoietic activity and enhance eosinophilic cell survival and function, including leukotriene production and eosinophil degranulation. 19-22 Activation and degranulation of eosinophils is accompanied by the release of cytotoxic granule proteins, in particular major basic protein and eosinophilic cationic protein, 21,22 both of which have been demonstrated either in immunofluorescence-stained sections of muscle biopsy specimens 6 or in elevated concentrations in the serum of patients with EM/P, 8,9 respectively. The few examples of allegedly drugassociated disease (tranilast, 1° sulfisoxazole v) and the L-tryptophan-associated eosinophiliamyalgia syndrome were excluded from this study. Conversely, we included a report of "episodic eosinophilia-myalgia-like syndrome in a patient without L-tryptophan u s e ''16 as a case of EP in our study. Skin changes associated with EM/P were, in order of frequency, deep subcutaneous induration (solid edema), erythema, urticarial or angioedematous plaques, and erythematous papular lesions. Biopsy specimens from patients with skin lesions demonstrated scanty-to-moderate perivascular mononuclear infiltrates with a considerable variability in the number of admixed eosinophils, ranging from lymphocytic vasculitis devoid of eosinophils 8 to eosinophilic cellulitis-like lesions with widespread dermal infiltration with "flame figures. ''9 As in HES, the cutaneous manifestations were not diagnostic either clinically or histologically. Although in HES the skin is affected in 56% of patients, 23 most commonly with erythematous, pruritic papules and nodules or angioedematous Journal of the AmericanAcademy of Dermatology September t997 and urticarial plaques, 24 skin changes in EM/P were present in 38% of patients, most frequently deep subcutaneous induration, erythema, or angioedema. Angioedema has been correlated with a favorable prognosis in HES. At least some of these patients are now recognized to have benign idiopathic eosinophilic disorders that are distinct from HES, such as episodic angioedema and eosinophilia, 5 and EM/P with angioedema. The overall prognosis of EM/P is excellent, particularly when focal lesions occur and the principal histopathologic finding is perimysial infiltrates. 6 Glucocorticoids in moderate doses (10 to 60 mg/day prednisone) have been effective in virtually all patients. 6,8,9,16 Indomethacin alone has been claimed to be effective in all of three patients in whom it was used, 14, 15, 17 but we have not had any success treating one patient with EM in this manner. 9 Although not specified as such in the criteria for the diagnosis of HES, patients with idiopathic eosinophilic disorders with distinctive features (i.e., limitation to specific organs, such as the skin or muscles, and the lack of secondary eosinophilmediated cardiac damage) should be included in the differential diagnosis of HES, although it is unclear whether these might not actually represent the benign end of a spectrum of HES. The processes that lead to the accumulation of eosinophils within specific tissue sites and to eosinophil-mediated organ damage involve both the presence of increased eosinophils and other as yet ill-defined stimuli that enable eosinophils to adhere to and transmigrate through the endothelia in preferential organ sites. 22 The pathogenic effect of eosinophils is evidenced by eosinophil activation and degranulation at sites of tissue injury. 25 IL-5 is an important factor that selectively controls the peripheral eosinophil number as well as the recruitment, survivability, and function (including degranulation and cytotoxicity) of eosinophils at sites of inflammation. 26 Although massive, life-long eosinophilia has occurred in IL5 transgenic mice, they have remained healthy without evidence of the organ damage found in HES, 27 suggesting that more than IL-5-mediated eosinophil overproduction may be needed to cause tissue damage (i.e., the migration of eosinophils from the blood to the sites of the inflammatory response). This involves the sequential interaction of specific adhesion mole- Journal of the American Academy of Dermatology Volume 37, Number 3, Part 1 cules expressed by both eosinophils and vascular endothelium. Skin-specific expression of IL-5 in transgenic m i c e leads to a distinctive phenotype with peripheral b l o o d eosinophilia, a m a r k e d increase in cutaneous eosinophil infiltrates, and eosinophilic infiltrates within the muscle. 28 The striking similarity to a recently reported observation of E M with eosinophilic dermal infiltrates and increased serum levels of IL-5, 9 suggests that the overproduction of IL-5 and its localization in specific target organs would be a candidate m e c h anism for explaining eosinophilia with eosinophil-mediated tissue damage. Progress in k n o w l e d g e o f the regulatory m e c h a n i s m s governing the eosinophil reaction promise m o r e sophisticated therapeutic approaches in the m a n a g e m e n t of eosinophil-mediated disease, whether they act on IL-5,29-31 immune cells elaborating eosinophilopoietins, or other yet to be identified factors responsible for the entry and activation of eosinophils within specific target tissues. REFERENCES 1. Hall FC, Walport MJ. Hypereosinophilic syndromes: association with vasculifis, fibrosis and autoimmunity. Clin Exp Allergy 1993;23:542-7. 2. Hardy WR, Anderson RE. The hypereosinophilic syndromes. Ann Intern Med 1968;68:1220-9. 3. Chusid MK, Dale DC, West BC, Wolff SM. The hypereosinophilic syndrome: analysis of fourteen cases with review of the literature. Medicine (Baltimore) 1975;54:1-27. 4. Silver RM. Eosinophilia-myalgia syndrome, toxic-oil syndrome, and diffuse fasciitis with eosinophilia. Curt Opin Rheumatol 1992;4:851-6. 5. 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Eosinophilic polymyositis. Ann Neurol 1977; 1:65-71. 13. Stark RJ. Eosinophilic polymyositis. Arch Neurol 1979;36:721-2. 14. Serratrice G, Pellissier JR Cros D, et al. Relapsing eosinophilic perimyositis. J Rheumatol 1980;7:199-205. 15. Serratrice G, Pellissier JF, Roux H, Quilichini R Fasciitis, perimyositis, myositis, polymyositis, and eosinophilia. Muscle Nerve 1990;13:385-95. 16. Bochner BS, Friedman B, Krishnaswami G, et al. Episodic eosinophilia-myalgia-like syndrome in a patient without L-tryptophan use: association with eosinophil activation and increased serum levels of granulocyte-macrophage colony-stimulating factor. J Allergy Clin Immunol 1991;88:629-36. 17. Sladek GD, Vasey FB, Sieger B, et al. Relapsing eosinophilic myositis. J Rheumatol 1983;10:467-70. 18. Yonker RA, Panush RS. Idiopathic eosinophilic myositis with preexisting fibromyalgia. J Rheumatol 1985;12:165-7. 19. Silberstein DS, David JR. The regulation of human eosinophil function by cytokines. Immunol Today 1987;8:380-5. 20. Fujisawa T, Abu-Ghazaleh R, Kita H, et al. Regulatory effect of cytokines on eosinophil degranulation. J Immunol 1990;144:642-6. 21. Weller PE The immunobiology of eosinophils. N Engl J Med 1991;324:1110-8. 22. Weller PF. Eosinophils: structure and functions. Curr Opin Immunol 1994;6:85-90. 23. Fauci AS, Harley JB, Roberts WC, et al. The idiopathic hypereosinophilic syndrome: clinical, pathophysiologic, and therapeutic considerations. Ann Intern Med 1982;97:78-92. 24. Kazmierowski JA, Chusid M J, Parrillo JE, et al. Dermatologic manifestations of the hypereosinophilic syndrome. Arch Dermatol 1978; 114:531-5. 25. Weller PF, Bubley GJ. The idiopathic hypereosinophilic syndrome. Blood 1994;83:2759-79. 26. Sanderson CJ. Interleukin-5, eosinophils, and disease. Blood 1992;79:3101-9. 27. Dent LA, Strath M, Mellor AL, Sanderson CJ. Eosinophilia in transgenic mice expressing interleukin 5. J Exp Med 1990;172:1425-31. 28. Fredrikson LJ, Lee JJ, Lee NA. Skin-specific expression of interleukin-5 in transgenic mice: characterization of the resulting leukocyte infiltrate and pathophysiologic responses [abstract]. J Invest Dermatol 1996;106:937. 29. Egan RW, Athwahl D, Chou CC, et al. Inhibition of pulmonary eosinophilia and hyperreactivity by antibodies to interleukin-5. Int Arch Allergy Immunol 1995;107:3212. 30. Kung TT, Stelts DM, Zurcher JA, et al. Involvement of IL-5 in the murine model of allergic pulmonary inflammation: prophylactic and therapeutic effect of an antML5 antibody. Am J Resp Cell Mol Biol 1995;13:360-5. 31. Mori A, Suko M, Kamimuna R et al. Enhanced production and gene expression of IL-5 in bronchial asthma: possible management of atopic diseases with IL-5 specific gene transcription inhibitor. In: Schon A, Kraft D, editors. Molecular biology of allergens and the atopic immune responses. New York: Plenum Press; 1995.
