Localized Lipodystrophy

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Practice Essentials

Lipodystrophy or lipoatrophy is primary idiopathic atrophy of adipose tissue. Lipodystrophy is a very rare disorder with no known etiology. Lipodystrophy can be total, partial, or localized.[1]  Total lipodystrophy consists of congenital or acquired complete loss of adipose tissue usually associated with hepatomegaly, hyperglycemia, insulin resistance, hyperlipidemia, and hypermetabolism.

Partial lipodystrophy is manifested as symmetrical loss of facial fat tissue with or without similar atrophy of the arms and upper part of the trunk. This syndrome has been associated with renal disease, glomerulonephritis, diabetes, hirsutism, hyperlipidemia, hypocomplementemia, and immunologic disorders. Localized lipodystrophy is localized loss of adipose tissue, usually involving multiple areas.[2]  This article focuses on localized lipodystrophy; total and partial lipodystrophy are not discussed further in this article.

Pathophysiology

Localized lipodystrophy or atrophy is localized loss of adipose tissue. Patients with localized lipodystrophy usually have single or multifocal, well-demarcated, atrophic lesions. Some patients have local panatrophy involving muscle, fat, and morphealike changes. Localized lipodystrophy can present as panatrophy that includes the manifestation of hemifacial atrophy.

Associations with localized scleroderma and lichen sclerosus et atrophicus have been noted. One subset group has annular atrophy of the ankles and semicircular lipoatrophy of the anterolateral region of the thighs. Annular lipodystrophy is another form of lipoatrophy in which underlying inflammation has been described. Lipoatrophy can be a common sequela of panniculitis in patients with connective tissue diseases (eg, systemic lupus erythematosus, subcutaneous morphea, the syndrome of lobular lymphocytic connective tissue panniculitis of Winkelmann and Padilha-Goncalves[3] ). Lipoatrophy can be associated with nephritis, hypocomplementemia, scleroderma, Sjögren syndrome, recurrent pyogenic infections, immune thrombocytopenic purpura (ITP), and thyroiditis.[4, 5]

The etiology of lipodystrophy is believed to be either inflammatory or noninflammatory. Patients with serologic and immunologic abnormalities tend to have inflammatory patterns on histopathologic examinations, although these changes are not diagnostic of a particular connective tissue disease. These histopathologic abnormalities can be a manifestation of an immunologic disease. Patients with inflammatory patterns tend to have multiple lesions, as opposed to single areas of lipoatrophy. Patients with no inflammatory features have a more benign form of the disease.

Localized lipodystrophy can also be observed in patients having intradermal or subcutaneous injections (eg, insulin, corticosteroids, IM penicillin G, iron dextran, diphtheria/pertussis/tetanus vaccine, acupuncture, recombinant growth hormone). In a Japanese study by Hisamichi et al, two patients with localized involutional lipoatrophy were reported. These patients received intramuscular steroid injections and in the immunohistochemical studies with the antibody against macrophage (anti-CD68 antigen) showed that positive cells were scattered around blood vessels and shrunken lipocytes in the subcutaneous tissues. Most of these cells in the fat lobules were also positive for mucin stains such as Alcian blue.[6]

In a report by Yamamoto et al, six patients were reported with localized involutional lipoatrophy who presented with a depressive plaque on the lateral part of their upper arms after receiving injections for allergic rhinitis.[7]  A report by Cook described a case of localized lipoatrophy that likely resulted from the inadvertent subcutaneous injection of COVID-19 vaccine in the left upper arm of a 60-year-old woman.[8] Tanrıkulu et al reported a case of localized lipoatrophy following intramuscular steroid injection to both buttocks.[9]

Hamp et al reported the case of a patient who had localized lipoatrophy in the left gluteal region from the previous drainage of a deep abscess. There was no history of corticosteroid or antibiotic injection or use of highly active antiretroviral therapy.[10]

Lipodystrophy is also a common complication in patients who are infected with HIV and are taking protease inhibitors. This form of lipodystrophy is more of a generalized lipodystrophy and is not discussed in this article. Localized lipoatrophy has also been observed with subcutaneous glatiramer acetate (Copaxone) injection used for the treatment of multiple sclerosis.[11]

Touraine et al conducted a randomized, double-blind, placebo-controlled study on 105 patients with growth hormone (GH) deficiency to test the safety and efficacy of a long-acting GH molecule. The molecule, which requires weekly subcutaneous injections, rather than daily injections, was produced by covalent binding of polyethylene glycol with recombinant human GH. The study was terminated, however, after 13 patients developed injection-site lipodystrophy; in 3 patients, the atrophy occurred after the first injection. The investigators concluded that this side effect may limit the development of this long-acting GH molecule.[12]

Etiology

The cause of lipodystrophic syndromes is unknown. One subset of the lipodystrophic syndromes is associated with subcutaneous and intradermal injection sites. In this group, trauma may induce the release of macrophage cytokines (eg, tumor necrosis factor, interleukin-1) that might enhance lipocyte catabolism. Impure animal insulin might lead to localized lipodystrophy, possibly because of a cross-reaction with lipid tissues and insulin antibody. Localized lipodystrophy caused by a cross-reaction is very rare with synthetic insulin.[13]

Epidemiology

United States statistics

Localized lipodystrophy is extremely rare. Other than localized lipodystrophy secondary to injections, only a few case series of lipodystrophic syndromes are reported in the literature.

International statistics

Because localized lipodystrophy is extremely rare, only a few case series of lipodystrophic syndromes are reported in the literature.

Race-, sex-, and age-related demographics

No studies addressing the racial distribution in localized lipodystrophy syndromes exist.

Females seem to be affected more often than are males, but the ratio is not known.

Lipodystrophy can present at any age, from early infancy through adulthood. Onset usually occurs during the first or second decade of life.

Prognosis

Prognosis is usually benign. Mortality and morbidity depends on associated organ system involvement and comorbid conditions.

Patients without other organ system involvement experience no disability and are anticipated to have a normal life expectancy.

Morbidity/mortality

The natural course of lipodystrophy is benign. Mortality and morbidity usually depend on associated organ system involvement and comorbid conditions.

Patients without other organ system involvement experience no disability and are anticipated to have a normal life expectancy.

Cosmetically, lipodystrophy can be disturbing; in extreme cases, the patient's body self-image can be impaired significantly.

Complications

Complications include the following:

Patient Education

Patients can be taught to change insulin injection sites if lipodystrophy is related to insulin injections.

For more information, please see the patient education resource Giving Yourself an Insulin Shot for Diabetes.

History

Localized lipodystrophy usually presents as isolated or multiple, atrophic, depressed areas with induration and indentations typically found in the extremities and other parts of the body in early childhood. These lesions may expand and, sometimes, spontaneously disappear. Lesions usually have no overlying skin changes and might have secondary skin pigmentations. Patients generally do not have any underlying diseases or associated symptoms at the time of presentation.

Physical Examination

Localized lipodystrophy typically presents as depressions of the skin in various areas; lesions are multifocal, well-demarcated, and atrophic.

Some patients have local panatrophy involving muscle, fat, and morphealike changes.

Laboratory and Imaging Studies

Laboratory studies

No specific laboratory blood tests exist to diagnose lipodystrophy.

Serological markers of systemic connective tissue diseases can be present with the inflammatory type of lipodystrophies.

Imaging studies

No specific imaging study to diagnose localized lipodystrophy exists.

Histologic Findings

Obtaining a biopsy of lesions is the diagnostic procedure of choice, and performing a histopathological examination might be helpful to diagnose and guide the treatment. Histopathological examination is the hallmark of diagnosis.

Histology depends on the type of lipodystrophy. According to one study, 2 main histopathological subsets exist.[14] One form, termed involutional fat, is a distinctive picture characterized by lobules of small lipocytes embedded in hyaline connective tissue, peripheral lobular accentuation, absence or scarcity of inflammatory cells, and myxoid stroma with numerous capillaries. Most of the patients with this type of histology have a single lesion, usually of the upper arm. Results of serological studies are normal. Of 3 cases in which direct immunofluorescence was performed, only one patient showed immunoreactants in the blood vessels.

The other type of histology is more of an inflammatory type, with inflammation of the fat. Normal-appearing lipocytes and normal vasculature are present, as well as scattered focal lymphocytes, histiocytes, and plasma cells. This histology involves multiple areas of localized lipoatrophy. In the early biopsy specimens of a series of 4 patients, lymphocytic panniculitis was observed, emphasizing the inflammatory basis for this disorder.[15]

Staging

Classification of partial or localized lipodystrophy involves association with the following:

Medical Care

No specific medical treatment exists.[16]

Follow-up of lesions with biopsies to determine disease activity and obtaining serological markers for immunological disorders might be helpful to guide treatment.

Treatment of insulin lipodystrophy consists of reassuring the patient that the condition is benign, switching to purified insulin (pork or human), and having the patient inject insulin in noninvolved areas and rotate the injection sites. This regimen is effective in more than 95% of patients. Improvement begins in 2-4 weeks, and normal consistency generally is restored within 2 months.

Treatment of underlying immunological disorders might prevent progression of the disease.

No known method for prevention exists. Controlling the underlying immunological disorder might be preventative.

Dermatological, medical, and surgical consultations are appropriate.

 

 

Surgical Care

Surgical treatment with adipofascial flaps has been successful in some cases.

No specific inpatient care is necessary.

Diet and Activity

Diet

No specific dietary recommendations or restriction of diet has been recommended.

Activity

No specific activity or restriction of activity has been proposed.

Medication Summary

No specific medical therapy has proven to be beneficial.

Author

Serhat Aytug, MD, FACE, Endocrinologist, Division of Endocrinology, Diabetes and Metabolism, St Jude Heritage Medical Group; Associate Professor of Medicine – Endocrinology, Diabetes and Metabolism, Council of Higher Education of Turkey

Disclosure: Nothing to disclose.

Specialty Editors

Francisco Talavera, PharmD, PhD, Adjunct Assistant Professor, University of Nebraska Medical Center College of Pharmacy; Editor-in-Chief, Medscape Drug Reference

Disclosure: Received salary from Medscape for employment. for: Medscape.

Arthur B Chausmer, MD, PhD, FACP, FACE, FACN, CNS, Professor of Medicine (Endocrinology, Adj), Johns Hopkins School of Medicine; Affiliate Research Professor, Bioinformatics and Computational Biology Program, School of Computational Sciences, George Mason University; Principal, C/A Informatics, LLC

Disclosure: Nothing to disclose.

Chief Editor

George T Griffing, MD, Professor Emeritus of Medicine, St Louis University School of Medicine

Disclosure: Nothing to disclose.

Additional Contributors

David M Klachko, MD, MEd, Professor Emeritus, Department of Internal Medicine, Division of Endocrinology, Diabetes, and Metabolism, University of Missouri-Columbia School of Medicine

Disclosure: Nothing to disclose.

Acknowledgements

Rubens Sievert, MD Clinical Assistant Professor, Department of Internal Medicine, Mount Sinai School of Medicine

Rubens Sievert, MD is a member of the following medical societies: American Thyroid Association

Disclosure: Nothing to disclose.

References

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  2. Garg A. Lipodystrophies: genetic and acquired body fat disorders. J Clin Endocrinol Metab. 2011 Nov. 96(11):3313-25. [View Abstract]
  3. Winkelmann RK, Padilha-Goncalves A. Connective tissue panniculitis. Arch Dermatol. 1980 Mar. 116(3):291-4. [View Abstract]
  4. Gdynia HJ, Weydt P, Ernst A, et al. Myositis associated with localized lipodystrophy: an unrecognized condition?. Eur J Med Res. 2009 May 14. 14(5):228-30. [View Abstract]
  5. Nolis T. Exploring the pathophysiology behind the more common genetic and acquired lipodystrophies. J Hum Genet. 2014 Jan. 59(1):16-23. [View Abstract]
  6. Hisamichi K, Suga Y, Hashimoto Y, Matsuba S, Mizoguchi M, Ogawa H. Two Japanese cases of localized involutional lipoatrophy. Int J Dermatol. 2002 Mar. 41(3):176-7. [View Abstract]
  7. Yamamoto T, Yokozeki H, Nishioka K. Localized involutional lipoatrophy: report of six cases. J Dermatol. 2002 Oct. 29(10):638-43. [View Abstract]
  8. Cook IF. Localized lipoatrophy and inadvertent subcutaneous administration of a COVID-19 vaccine. Hum Vaccin Immunother. 2022 Nov 30. 18 (5):2042136. [View Abstract]
  9. Tanrıkulu O, Yesilova Y, Aksoy M. A Case Of Bilateral Acquired Localized Lipoatrophy. Case Rep Dermatol. 2016 May-Aug. 8 (2):185-8. [View Abstract]
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  11. Soos N, Shakery K, Mrowietz U. Localized panniculitis and subsequent lipoatrophy with subcutaneous glatiramer acetate (Copaxone) injection for the treatment of multiple sclerosis. Am J Clin Dermatol. 2004. 5(5):357-9. [View Abstract]
  12. Touraine P, D'Souza GA, Kourides I, et al. Lipoatrophy in GH deficient patients treated with a long-acting pegylated GH. Eur J Endocrinol. 2009 Oct. 161(4):533-40. [View Abstract]
  13. Peteiro-Gonzalez D, Fernandez-Rodriguez B, Cabezas-Agricola JM, Araujo-Vilar D. Severe localized lipoatrophy related to therapy with insulin analogs in type 1a diabetes mellitus. Diabetes Res Clin Pract. 2011 Mar. 91(3):e61-3. [View Abstract]
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  16. Gassling VL, Douglas T, Wiltfang J, et al. Unilateral atrophy of the cheek: autologous fat injection as treatment of choice. J Craniofac Surg. 2009 Mar. 20(2):423-5. [View Abstract]
  17. Buyukgebiz A, Aydin A, Dundar B, Yorukoglu K. Localized lipoatrophy due to recombinant growth hormone therapy in a child with 6.7 kilobase gene deletion isolated growth hormone deficiency. J Pediatr Endocrinol Metab. 1999 Jan-Feb. 12(1):95-7. [View Abstract]
  18. Capanni C, Mattioli E, Columbaro M, Lucarelli E, Parnaik VK, Novelli G, et al. Altered pre-lamin A processing is a common mechanism leading to lipodystrophy. Hum Mol Genet. 2005 Jun 1. 14(11):1489-502. [View Abstract]