A Practical Approach to Panniculitis
Transcription
A Practical Approach to Panniculitis
2 0 0 7 www.dermatologyrounds.ca DERMATOLOGY AS Rounds A Practical Approach to Panniculitis By SUSAN M POELMAN, MD, DENIS SASSE VILLE, MD Vo l u m e 6 , TM I s s u e 5 PRESENTED IN THE ROUNDS OF THE D IVISION OF D ERMATOLOGY, ® M C G ILL U NIVERSITY H EALTH C ENTRE Members of the Division of Dermatology Denis Sasseville, MD, Director Editor, Dermatology Rounds Panniculitis has always been a difficult topic in dermatology, mainly due to the diverse spectrum of disorders that may present as inflammation of subcutaneous fat. Traditionally, most textbooks classify the panniculitides based on histologic features (Figure 1) because they are difficult to differentiate clinically (most present with deep-seated tender nodules with surrounding erythema and edema); however, the histologic approach is not helpful in the clinic. This issue of Dermatology Rounds presents a practical approach to panniculitis that will allow clinicians to develop a differential diagnosis in the office and direct the investigation and management of patients with panniculitis. A brief commentary on diagnostic histopathological features and treatment of each entity is also given. For a comprehensive review of the histopathologic features of panniculitis, the reader is referred to an excellent article by Requena et al.1, 2 Alfred Balbul, MD The clinical approach to panniculitis David Gratton, MD The first thing to consider when panniculitis is suspected is whether it is caused by an exogenous or endogenous source (Table 1). After exogenous causes have been ruled-out, endogenous causes may be expanded by carefully eliciting the medical history and reviewing body systems (Table 2). On physical examination, the appearance and location of the nodules may narrow the differential diagnosis as indicated in Table 2. The skin biopsy should be a deep excisional or incisional biopsy to the level of subcutaneous fat. A portion of the biopsy should be sent to microbiology for special stains and culture. The features listed in Table 3 should be included in the pathology report. Once a clinical entity is suspected and the biopsy performed, laboratory or radiologic investigations may be indicated to confirm the diagnosis. These include, but are not limited to, the tests outlined in Table 3. Basic supportive care for patients with panniculitis includes rest, leg elevation, elastic compression stockings (Comprilan® or ACE® bandages), and salicylates or nonsteroidal anti-inflammatory drugs (NSAIDs) for pain. Manish Khanna, MD Alain Brassard, MD Judith Cameron, MD Wayne D. Carey, MD Ari Demirjian, MD Anna Doellinger, MD Odette Fournier-Blake, MD Roy R. Forsey, MD William Gerstein, MD Raynald Molinari, MD Linda Moreau, MD Brenda Moroz, MD Khue Huu Nguyen, MD Elizabeth A. O’Brien, MD Wendy R. Sissons, MD Beatrice Wang, MD Ralph D. Wilkinson, MD Noninfectious granulomatous panniculitis Erythema nodosum (EN): EN, the most common type of panniculitis, is recognized as a reactive disorder to a variety of stimuli. Streptococcal infection is the most common precipitant of EN in children while, in adults, sarcoidosis, drugs, and inflammatory bowel disease are the most common causes. EN typically presents in young women with tender warm nodules and plaques on the shins that change to a colour that is similar to deep bruises and resolve without ulceration, atrophy, or scarring. Commonly associated symptoms include fever, fatigue, malaise, arthralgias, headache, cough, abdominal pain, vomiting, and diarrhea. A characteristic change on histology are Miescher’s radial granulomas, small collections of macrophages surrounding a stellate-shaped cleft. The clinical course of EN lasts 3 to 6 weeks, but lesions may persist and frequently recur. Treatment involves supportive care3-5 and potassium iodide 400 to 900 mg daily or 2 to 10 drops in water or orange juice TID may be used adjunctively.6, 7 Panniculitis involving vessels Elastin stains are useful in cases of panniculitis with vasculitis because arteries have elastic lamina and will stain positively, whereas veins do not. Nodular vasculitis: Nodular vasculitis typically occurs in obese, middle-aged women with venous insufficiency who present with ulcerating nodules on the posterior legs that are aggravated by cold weather. When tuberculosis (TB), the most common cause of nodular vasculitis, is present, the nodules are renamed erythema induratum of Bazin. Nodular vasculitis has also Centre universitaire de santé McGill McGill University Health Centre McGill University Health Centre Division of Dermatology Royal Victoria Hospital 687 Pine Avenue West Room A 4.17 Montreal, Quebec H3A 1A1 Tel.: (514) 934-1934, local 34648 Fax: (514) 843-1570 The editorial content of Dermatology Rounds is determined solely by the Division of Dermatology, McGill University Health Centre. Figure 1: Histologic classification of panniculitis1,2 Septal With vasculitis • Leukocytoclastic vasculitis (small vessels) • Cutaneous PAN (medium-sized arteries) • Superficial migratory thrombophlebitis (large veins) Lobular With vasculitis Without vasculitis • Erythema nodosum • Scleroderma/deep morphea/eosinophilic fasciitis • Erythema induratum • Erythema nodosum leprosum • Lucio’s phenomenon Without vasculitis • Trauma (cold, blunt trauma, injection) • Infection • Pancreatic • Childhood/neonatal • Cytophagic histiocytic • CTD (DM, SLE) • Lipodermatosclerosis • Calciphylaxis, • α1-antitrypsin deficiency PAN = polyarteritis nodosa; CTD = connective tissue disease; DM = dermatomyositis; SLE = systemic lupus erythematosus. been associated with hepatitis C8 and treatment with propylthiouracil.9 Lesions commonly turn bluish-red, break down into ulcers with violaceous borders and, after many years, eventually heal with atrophic scars. They frequently recur. In cases associated with TB, caseating necrosis and multinucleated giant cells may be seen on histology. Chest x-ray and a Mantoux test are recommended to rule-out TB, followed by triple therapy if indicated. Oral corticosteroids, tetracycline, and potassium iodide are occasionally indicated as adjuncts to supportive care.10 Superficial migratory thrombophlebitis (SMT): Patients with SMT often have a history of venous insufficiency and present with linear, tender, cord-like, erythematous nodules along an involved vein. SMT has been associated with malignancy11-14 and/or a hypercoagulable state;15, 16 therefore, a full coagulation and malignancy work-up is indicated. Treatment is supportive. Cutaneous polyarteritis nodosa (PAN): What separates cutaneous PAN from other panniculitides is the livedo reticularis and ulceration that accompanies the bilateral tender red nodules on the lower legs. The medium-sized arteries of the septa are involved and the process is more inflammatory than thrombotic, as in SMT. Patients with cutaneous PAN frequently have low-grade fever, arthralgias, malaise, myalgias, and fatigue.17 If there is no systemic vasculitis, the prognosis is good and patients respond well to NSAIDs, and low-dose prednisone (20 mg daily). Erythema nodosum leprosum and Lucio’s phenomenon: Patients with lepromatous leprosy may present with painful erythematous to violaceous nodules on the extremities that are associated with severe systemic symptoms. Erythema nodosum leprosum is an immune complex-mediated vasculitis that involves the dermis and occasionally extends into the subcutaneous fat. Treatment with thalidomide 400 mg nightly or clofazimine 300 mg daily and prednisone 30 mg daily is recommended.1 Lucio’s phenomenon is an uncommon diffuse form of lepromatous leprosy characterized by painful hemorrhagic ulcers and severe systemic symptoms; it occasionally leads to death. The treatment of choice for this necrotizing vasculitis is thalidomide.18 Table 1: Exogenous vs. endogenous causes of panniculitis Exogenous Endogenous • Infection: erythema nodosum, erythema induratum of Bazin, viral/fungal/bacterial • Medications: penicillin, sulfonamides, bromides/iodides, oral contraceptive pills, post-steroid panniculitis • Trauma: blunt trauma, cold trauma, injection granuloma, paraffin • Self antigens/autoantibodies: lupus panniculitis, dermatomyositis, scleroderma/morphea • Immune complex: superficial migratory thrombophlebitis, polyarteritis nodosa • Venous insufficiency: lipodermatosclerosis, nodular vasculitis • Malignancies: Pancreatic carcinoma • Abnormal histiocytes: cytophagic • Humoral factors: α1-antitrypsin deficiency, calciphylaxis • Hormonal factors: pregnancy (erythema nodosum) • Neonatal abnormal fatty acid ratio with increased propensity to crystallize with exposure to cold temperatures: sclerema neonatorum, subcutaneous fat necrosis of newborn • Associated with other diseases: sarcoidosis, inflammatory bowel disease, Behcet's disease (erythema nodosum) Table 2: Clues to the etiology of panniculitis on history and physical examination History • No systemic symptoms (trauma-induced: chemical, thermal, physical) • Fever, arthritis, abdominal pain, or history of pancreatic disease (pancreatic panniculitis) • Immunosuppressed (infectious etiology) • Pancreatitis, glomerulonephritis, emphysema, cirrhosis, cutaneous vasculitis, rheumatoid arthritis (α1-antitrypsin deficiency) • Arthritis, photosensitivity, Raynaud’s, dysphagia, and oral ulcers (connective tissue disease) • Fever, sore throat, arthralgias, malaise, bowel symptoms, history of oral contraceptives, sulfonamides, bromides/iodides (erythema nodosum) • Fever, weight loss (CHP) Physical Examination Nodules: • Fluctuant, ulcerating, draining – Pancreatic – Traumatic – α1-antitrypsin deficiency – Infection • Bilateral, tender on posterior legs of middle-aged obese female with venous insufficiency – E. induratum/nodular vasculitis, Lipodermatosclerosis (acute form) • Hemorrhagic/purpuric – α1-antitrypsin deficiency, CHP • Linear configuration (with history of varicose veins and/or hypercoagulable state) – Superficial migratory thrombophlebitis Other observations: • Venous stasis – Lipodermatosclerosis, nodular vasculitis • Livedo reticularis, small nodules in distribution of superficial arteries – Polyarteritis nodosa • Hepatosplenomegaly – CHP E. induratum = erythema induratum of Bazin, CHP = cytophagic histiocytic panniculitis Vascular disorders Sclerosing panniculitis (lipodermatosclerosis): Similar to nodular vasculitis, lipodermatosclerosis is common in middle-aged obese women with venous insufficiency. Patients with lipodermatosclerosis present with woody indurated plaques on “inverted champagne bottle”shaped lower legs. Treatment is supportive. Stanozolol 2 to 5 mg twice daily19 or pentoxifylline20 have been effective in pain control. Calciphylaxis: Approximately 4% of all patients on hemodialysis present with calciphylaxis due to calcification of vessel walls and occlusion of small arterioles. Although the most common cause of calciphylaxis is end-stage renal failure, it is also associated with secondary hyperparathyroidism and, rarely, malignancy21-23 and end-stage liver cirrhosis.24 Clinically, patients present with symmetrical violaceous to black livedo reticularis- Table 3: Investigations for panniculitis Skin biopsy: what to look for on the pathology report • Pattern: lobular, septal, or mixed • Vasculitis or no vasculitis • Characteristic histologic findings (ie, needle-shaped clefts, ghost cells, etc.) Laboratory tests • Pancreatic enzymes (amylase, lipase) • SPEP, CBC, LDH, peripheral blood smear • Calcium, phosphate, creatinine, PTH • ANA, ENA, ANCA’s, dsDNA, rheumatoid factor • α1-antitrypsin levels • Fasting glucose, HbA1c Radiologic tests • Chest x-ray • CT chest, abdomen, and pelvis • Lower leg venous Doppler studies like patches and plaques, most often on the legs, but also on the upper extremities, trunk, and penis. With time, lesions enlarge into ulcers and become painful and necrotic with black eschars. On histology, fat necrosis with calcification of vessel walls is characteristic. Mortality rates of 60% to 70% have been reported, mainly due to sepsis from secondarily-infected ulcers. Treatment options are limited, but include parathyroidectomy and hyperbaric oxygen with subcutaneous low-molecular weight heparin.25-27 Connective tissue disorders Lupus panniculitis: Approximately 1% to 3% of patients with lupus erythematosus (LE) will develop lupus panniculitis. It is more common in patients with discoid LE than systemic LE (SLE), and usually precedes (but may occur synchronously or after) the onset of LE. Patients with SLE who present with lupus panniculitis usually have a milder disease course. Clinically, multiple symmetric painful nodules or plaques are localized to the proximal extremities, face, and trunk. When lesions regress, they result in lipoatrophy (commonly seen on the shoulders and upper arms). On histology, epidermal changes of discoid LE such as follicular plugging, atrophy, dyspigmentation, telangiectasias, and ulceration are characteristic.28, 29 The clinical course is chronic and recurrent. Avoidance of trauma and sun protection is important. Potent topical or intralesional corticosteroids and antimalarials have been successfully used.30-32 Alternatively, dapsone, cyclophosphamide, and thalidomide are reported to be successful, with a second antimalarial added if there is no response with a single agent. Deep morphea “scleroderma panniculitis”: Patients with deep morphea present with bound down plaques or nodules that heal with atrophy and hyperpigmentation and respond poorly to treatment. Intralesional and oral corticosteroids, antimalarials, penicillamine, and methotrexate33 have been used unsuccessfully. Other: In case reports, dermatomyositis, Sjögren’s disease, and mixed connective tissue disease have been described as being associated with panniculitis.34-36 Panniculitis associated with other systemic disorders Pancreatic panniculitis: Panniculitis in patients with pancreatic disorders is rare (~2%)1 and may precede the onset of pancreatic disease.37 Pancreatic panniculitis may be associated with acute or chronic pancreatitis, pancreatic carcinomas, or rarely anatomic ductal anomalies,38 pseudocysts,39 and vasculopancreatic fistulas.40 Clinically, painful erythematous nodules that ulcerate and discharge a brownish oily exudate (if fat necrosis is severe) are typically seen on the lower legs. Patients may also present with abdominal pain or acute arthritis if peritoneal or periarticular fat is involved, respectively. Histologically, fat necrosis with saponification and “ghost cells” (adipocytes with absent nuclei) is pathognomonic.41 The pathogenesis of pancreatic panniculitis is thought to be related to a combination of fat necrosis by pancreatic enzymes and immunologic factors.42 In pancreatic cancer patients, panniculitis may herald the development of metastatic disease and predict a poor clinical outcome.37 Treatment of patients with pancreatic panniculitis is based on surgical repair of the underlying pancreatic abnormality and supportive care (which is often minimally effective). For patients with pancreatic tumours, octreotide, a synthetic somatostatin analog that inhibits secretion of pancreatic enzymes, has been reported to be of some benefit in a few cases.43 α1-antitrypsin deficiency-associated panniculitis: α1-antitrypsin is an important enzyme produced by the liver that prevents the autodigestion of tissues in the body by proteases. A deficiency in this enzyme may result in fat necrosis and panniculitis, cirrhosis, emphysema, pancreatitis, glomerulonephritis, rheumatoid arthritis, cutaneous vasculitis, or angioedema. Clinically, patients present with erythematous to purpuric painful plaques and nodules that may ulcerate and drain a brownish oily fluid. After a prolonged course, plaques heal with atrophy and scarring. Histologically, fat necrosis with splaying of neutrophils between collagen bundles in the deep dermis is a characteristic finding. Lesions are often resistant to treatment; however, oral corticosteroids, antimalarials, doxycycline, dapsone, colchicine, intravenous infusions of exogenous α1-antitrypsin inhibitor, and plasma exchange have been found to be effective.44-46 Cytophagic histiocytic panniculitis and subcutaneous panniculitis-like T-cell lymphoma: Cytophagic histiocytic panniculitis (CHP) is so-named because of histiocyte phagocytosis of various cells and debris, resulting in “bean bag cells” histologically. It is thought to represent the early stage of a lymphoproliferative disorder because, after a prolonged course, patients may develop T-cell, B-cell, and NK cell lymphomas, grouped together as subcutaneous panniculitis-like T-cell lymphoma (SPTL). Clinically, deep-seated erythematous nodules with overly- ing ecchymoses, symptoms of fever and weight loss, and findings of lymphadenopathy and hepatosplenomegaly are found. Patients with the benign variant of CHP , which does not transform into lymphoma, tend to respond well to prednisone or cyclosporine.1 Unlike SPTL, this nonfatal form is not associated with EpsteinBarr virus (EBV) and is most commonly seen in patients without systemic symptoms. Patients with CHP that transforms to SPTL have a poor prognosis and, although therapies such as prednisone, cyclosporine, dapsone, and high-dose chemotherapy alone or in combination with peripheral stem cell rescue have been reportedly effective, prolonged remissions are uncommon. Infectious panniculitides Infectious panniculitis is commonly found in, but is not exclusive to, immunosuppressed patients. It is most often due to the hematogenous spread of bacteria, mycobacteria, or fungi, but may also result from direct inoculation of these infectious agents. Patients with diabetes mellitus, malignancy, connective tissue disease, acquired immune deficiency syndrome (AIDS), or a history of organ transplant have been reported with infectious panniculitis1 and typically present with ulcerating fluctuant nodules similar to those of pancreatic or α1-antitrypsin deficiency panniculitis. The histology is nondescript. Diagnosis is made on special stains for organisms and culture, and patients usually respond to antibiotics or surgery in selected cases. Traumatic panniculitis Traumatic panniculitis results from accidental, intentional, or iatrogenic injury. Typical scenarios include children who suck on popsicles, ice cubes, or ice packs and develop firm nodules on the cheeks and chin, women who wear tight pants and go horseback riding who develop erythematous to violaceous plaques on their inner thighs, and women with large breasts who develop indurated nodules that mimic inflammatory breast cancer. Traumatic panniculitis from injections most commonly occurs with substances such as mineral oil, silicones, camphor, cottonseed, and sesame oil. On histology, fat necrosis and a characteristic “swiss cheese” appearance is seen. Treatment requires removal of the inciting agent and oral or intralesional corticosteroids to control the inflammation. Childhood panniculitis Children are uniquely susceptible to panniculitis due to the increased ratio of saturated to unsaturated fatty acids, resulting in a higher melting point and increased propensity towards crystallization upon exposure to cold. Sclerema neonatorum: The typical patient with sclerema neonatorum is a premature baby with congestive heart failure (CHF) who presents in the first DERMATOLOGY Rounds T week of life with a generalized distribution of cold, rigid, wooden board-like skin. This child may have underlying hypothermia, lung abnormalities, CHF, diarrhea, or intestinal blockage, and commonly dies of septicemia. There is sparing of the palms, soles, and genitalia and common precipitants include exposure to cold, defective complement, and dehydration. Needle-shaped clefts in lipocytes are characteristic on histology. There is no effective treatment and supportive measures to control sepsis are indicated. Subcutaneous fat necrosis of the newborn (SFN): In contrast to sclerema neonatorum, SFN is a localized self-limited disorder that is much less severe. Newborns between 2 to 3 weeks old present with red to violaceous plaques or nodules on the cheeks, shoulders, trunk, buttocks, and thighs that often resolve within a few days. Predisposing factors include hypothermia, gestational diabetes, hypoglycemia, meconium aspiration, placenta previa, seizures, and preeclampsia.47,48 Common complications of SFN are hypercalcemia and thrombocytopenia; therefore, monitoring of serum calcium is recommended and dietary restriction of calcium and vitamin D, hydration, and furosemide may be indicated to control calcium levels. On histology, needle-shaped clefts in both adipocytes and giant cells are characteristic. Treatment involves supportive care. Patients recover quickly, but corticosteroids may occasionally be indicated. Post-steroid panniculitis: Post-steroid panniculitis presents in children aged 2 to 14 years who have recently (within the last 1 to 40 days) undergone rapid withdrawal of corticosteroids. Firm red plaques on the cheeks, arms, and trunk are typically seen. The histologic appearance is identical to subcutaneous fat necrosis of the newborn. There is no treatment as lesions spontaneously resolve after months to one year or after corticosteroids are restarted. References: 1. Requena L, Sanchez Yus E. Panniculitis. Part II. Mostly lobular panniculitis. J Am Acad Dermatol 2001;45(3):325-361. 2. Requena L, Yus ES. Panniculitis. Part I. Mostly septal panniculitis. J Am Acad Dermatol. Aug 2001;45(2):163-183. 3. Marshall JK, Irvine EJ. Successful therapy of refractory erythema nodosum associated with Crohn’s disease using potassium iodide. Can J Gastroenterol 1997;11(6):501-502. 4. Hanauer SB. How do I treat erythema nodosum, aphthous ulcerations, and pyoderma gangrenosum? Inflamm Bowel Dis 1998;4(1):70; discussion 73. 5. Cohen PR, Holder WR, Rapini RP. Concurrent Sweet’s syndrome and erythema nodosum: a report, world literature review and mechanism of pathogenesis. J Rheumatol 1992; 19(5):814-820. 6. Horio T, Imamura S, Danno K, Ofuji S. Potassium iodide in the treatment of erythema nodosum and nodular vasculitis. Arch Dermatol 1981;117(1):29-31. 7. Schulz EJ, Whiting DA. Treatment of erythema nodosum and nodular vasculitis with potassium iodide. Br J Dermatol 1976; 94(1):75-78. 8. Cardinali C, Gerlini G, Caproni M, Pimpinelli N, Fabbri P. Hepatitis C virus: a common triggering factor for both nodular vasculitis and Sjögren’s syndrome? Br J Dermatol 2000; 142(1):187-189. 9. Wolf D, Ben-Yehuda A, Okon E, Naparstek Y. Nodular vasculitis associated with propylthiouracil therapy. Cutis 1992;49:253-255. 10. Shaffer N, Kerdel FA. Nodular vasculitis (erythema induratum): treatment with auranofin. J Am Acad Dermatol 1991; 25(2 Pt 2):426-429. 11. Bazin E. Lecons theoriques et cliniques sur la scrofule. Paris: A. Delahaye 1861;2nd edition:146. 12. Newton J WF. Pustular panniculitis in rheumatoid arthritis. Br J Dermatol 1988;119:97-98. 13. Tran TA, DuPree M, Carlson JA. Neutrophilic lobular (pustular) panniculitis associated with rheumatoid arthritis: a case report and review of the literature. Am J Dermatopathol 1999;21(3):247-252. 14. Cribier B, Grosshans E. [Bazin’s erythema induratum: obsolete concept and terminology]. Ann Dermatol Venereol 1990; 117(12):937-943. 15. Rea TH, Ridley DS. Lucio’s phenomenon: a comparative histological study. Int J Lepr Other Mycobact Dis 1979;47(2): 161-166. 16. Anstey A, Wilkinson JD, Wojnarowska F, Kirk A, Gowers L. Pustular panniculitis in rheumatoid arthritis. J R Soc Med 1991;84(5):307-308. 17. Siberry GK, Cohen BA, Johnson B. Cutaneous polyarteritis nodosa. Reports of two cases in children and review of the literature. Arch Dermatol 1994;130(7):884-889. 18. Walters M. An internationally controlled double blind trial of thalidomide in severe erythema nodosum leprosum. Lepr Rev 1971;42:26-42. 19. Kirsner RS, Pardes JB, Eaglstein WH, Falanga V. The clinical spectrum of lipodermatosclerosis. J Am Acad Dermatol 1993; 28(4):623-627. 20. Segal S, Cooper J, Bolognia J. Treatment of lipodermatosclerosis with oxandrolone in a patient with stanozolol-induced hepatotoxicity. J Am Acad Dermatol 2000;43(3):558-559. 21. Raper RF, Ibels LS. Osteosclerotic myeloma complicated by diffuse arteritis, vascular calcification and extensive cutaneous necrosis. Nephron 1985;39(4):389-392. 22. Mastruserio DN, Nguyen EQ, Nielsen T, Hessel A, Pellegrini AE. Calciphylaxis associated with metastatic breast carcinoma. J Am Acad Dermatol 1999;41(2 Pt 2):295-298. 23. Riegert-Johnson DL, Kaur JS, Pfeifer EA. Calciphylaxis associated with cholangiocarcinoma treated with low-molecularweight heparin and vitamin K. Mayo Clin Proc 2001;76(7): 749-752. 24. Fader DJ, Kang S. Calciphylaxis without renal failure. Arch Dermatol 1996;132(7):837-838. 25. Mathur RV, Shortland JR, el-Nahas AM. Calciphylaxis. Postgrad Med J 2001;77(911):557-561. 26. Hafner J, Keusch G, Wahl C, et al. Uremic small-artery disease with medial calcification and intimal hyperplasia (so-called calciphylaxis): a complication of chronic renal failure and benefit from parathyroidectomy. J Am Acad Dermatol 1995; 33(6):954-962. 27. Podymow T, Wherrett C, Burns KD. Hyperbaric oxygen in the treatment of calciphylaxis: a case series. Nephrol Dial Transplant 2001;16(11):2176-2180. 28. Blaustein A, Moreno A, Noguera J, de Moragas JM. Septal granulomatous panniculitis in Sweet’s syndrome. Report of two cases. Arch Dermatol 1985;121(6):785-788. 29. McMillan A. Reiter’s disease in a female, presenting as erythema nodosum. Br J Vener Dis 1975;51(5):345-347. 30. Miescher G. Zur Histologie des Erythema nodosum. Acta Derm Venereol 1947;27:447-468. 31. Miescher G. Zur Frage der Radiarknotchen beim Erythema nodosum. Arch Dermatol Syphil 1951;193:251-256. 32. Kim B, LeBoit PE. Histopathologic features of erythema nodosum—like lesions in Behcet disease: a comparison with erythema nodosum focusing on the role of vasculitis. Am J Dermatopathol 2000;22(5):379-390. 33. Peterson LS, Nelson AM, Su WP. Classification of morphea (localized scleroderma). Mayo Clin Proc 1995;70(11):10681076. 34. Chao YY, Yang LJ. Dermatomyositis presenting as panniculitis. Int J Dermatol 2000;39(2):141-144. DERMATOLOGY Rounds T 35. Tait CP, Yu LL, Rohr J. Sjogren’s syndrome and granulomatous panniculitis. Australas J Dermatol 2000;41(3):187-189. 36. Itoh O, Nishimaki T, Itoh M, et al. Mixed connective tissue disease with severe pulmonary hypertension and extensive subcutaneous calcification. Intern Med 1998;37(4):421-425. 37. Heykarts B, Anseeuw M, Degreef H. Panniculitis caused by acinous pancreatic carcinoma. Dermatology 1999;198(2):182-183. 38. Haber RM, Assaad DM. Panniculitis associated with a pancreas divisum. J Am Acad Dermatol 1986;14(2 Pt 2):331-334. 39. Kobayashi H, Itoh T, Shima N, et al. Periduodenal panniculitis due to spontaneous rupture of a pancreatic pseudocyst into the duodenum. Abdom Imaging 1995;20(2):106-108. 40. Reynaud D AL, Escourrou J, et al. Traitment endoscopique d’une cytosteatonecrose secondaire a une fistule pancreaticovasculaire: a propos d’un cas. Rev Med Interne 1998;19:123-127. 41. Syzmanski FJ. Nodular fat necrosis and pancreatic diseases. Arch Dermatol 1961;83:224-229. 42. Dhawan SS, Jimenez-Acosta F, Poppiti RJ, Jr., Barkin JS. Subcutaneous fat necrosis associated with pancreatitis: histochemical and electron microscopic findings. Am J Gastroenterol 1990;85(8):10251028. 43. Hudson-Peacock MJ, Regnard CF, Farr PM. Liquefying panniculitis associated with acinous carcinoma of the pancreas responding to octreotide. J R Soc Med 1994;87(6):361-362. 44. Smith KC, Pittelkow MR, Su WP. Panniculitis associated with severe alpha 1-antitrypsin deficiency. Treatment and review of the literature. Arch Dermatol 1987;123(12):1655-1661. 45. Humbert P, Faivre B, Gibey R, Agache P. Use of anti-collagenase properties of doxycycline in treatment of alpha 1-antitrypsin deficiency panniculitis. Acta Derm Venereol 1991;71(3):189-194. 46. O’Riordan K, Blei A, Rao MS, Abecassis M. alpha 1-antitrypsin deficiency-associated panniculitis: resolution with intravenous alpha 1antitrypsin administration and liver transplantation. Transplantation 1997;63(3):480-482. 47. Fretzin DF, Arias AM. Sclerema neonatorum and subcutaneous fat necrosis of the newborn. Pediatr Dermatol 1987;4(2):112-122. 48. Burden AD, Krafchik BR. Subcutaneous fat necrosis of the newborn: a review of 11 cases. Pediatr Dermatol 1999;16(5):384-387. Abstract of Interest Normal subcutaneous fat, necrosis of adipocytes and classification of the panniculitides more vasculitis than panniculitis and include superficial thrombophlebitis and cutaneous polyarteritis nodosa. Mostly septal panniculitides with no vasculitis include erythema nodosum, necrobiosis lipoidica, deep morphea, subcutaneous granuloma annulare, rheumatoid nodule, and necrobiotic xanthogranuloma. Mostly lobular panniculitis with vasculitis is only represented by erythema induratum of Bazin. In contrast, mostly lobular panniculitides without vasculitis comprise a large series of disparate disorders, including sclerosing panniculitis, calciphylaxis, sclerema neonatorum, subcutaneous fat necrosis of the newborn, poststeroid panniculitis, lupus erythematosus profundus, pancreatic panniculitis, alpha(1)-antitrypsin deficiency panniculitis, subcutaneous Sweet syndrome, infective panniculitis, factitial panniculitis, lipodystrophy, traumatic panniculitis, subcutaneous sarcoidosis, and sclerosing postirradiation panniculitis. Finally, some cutaneous lymphomas may simulate panniculitis, both from clinical and histopathologic points of view and, for that reason, they will be included in this review, although they are not inflammatory processes, but authentic lymphocytic neoplasms involving subcutaneous tissue. Semin Cutan Med Surg 2007;26(2):66-70. Upcoming Scientific Meetings 17-20 January 2008 American Academy of Cosmetic Surgery 24th Annual Scientific Meeting Orlando, Florida Contact: [email protected] or www.cosmeticsurgery.org 1-6 February 2008 American Academy of Dermatology 66th Annual Meeting Henry B. Gonzalez Convention Center San Antonio, Texas Contact: [email protected] or: www.aad.org R E Q U E N A L, M A D R I D , S PA I N . The panniculitides represent a group of heterogeneous inflammatory diseases that involve the subcutaneous fat. The specific diagnosis of these diseases requires histopathologic study because different panniculitides usually show the same clinical appearance, which consists of erythematous nodules on the lower extremities. However, the histopathologic study of panniculitis is difficult because of an inadequate clinicopathologic correlation and the changing evolutive nature of the lesions. In addition, large scalpel incisional biopsies are required. From histopathologic point of view, all panniculitides are somewhat mixed because the inflammatory infiltrate involves both the septa and lobules. However, nearly always the differential diagnosis between a mostly septal and a mostly lobular panniculitis is straightforward at scanning magnification on the basis of the structures more intensely involved by the inflammatory infiltrate. Mostly septal panniculitides with vasculitis are actually Disclosure statement: Dr. Poelman and Dr. Sasseville have stated that they have no disclosures to announce in association with the contents of this issue. Change of address notices and requests for subscriptions for Dermatology Rounds are to be sent by mail to P.O. Box 310, Station H, Montreal, Quebec H3G 2K8 or by fax to (514) 932-5114 or by e-mail to [email protected]. Please reference Dermatology Rounds in your correspondence. Undeliverable copies are to be sent to the address above. Publications Post #40032303 This publication is made possible by an unrestricted educational grant from Astellas Pharma Canada, Inc. © 2007 Division of Dermatology, McGill University Health Centre, Montreal, which is solely responsible for the contents. 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