Lipoatrophy induced by subcutaneous insulin infusion: ultrastructural analysis and gene expression profiling

Lipodystrophy following Covid-19 Vaccination: A case report

Lipodystrophy is a medical condition characterized by complete or partial loss of adipose tissue. The etiology of lipoatrophy can be congenital or acquired, including traumatic, iatrogenic, or idiopathic. Rarely, vaccination can cause lipodystrophy. Here, we report the first case of lipodystrophy associated with the COVID-19 Sinopharm vaccine in a 55-year-old woman.

Evaluation of Insulin Pump Infusion Sites in Type 1 Diabetes: The DERMIS Study

OBJECTIVE

Continuous subcutaneous insulin infusion (CSII) for type 1 diabetes is increasing in use. Pump site failures are common, but little is known about skin changes from pump use. Using noninvasive optical coherence tomography (OCT), OCT angiography (OCTA), and skin biopsies, we evaluated skin changes from chronic insulin infusion.

RESEARCH DESIGN AND METHODS

In this cross-sectional study, OCT operating at a 1,310-nm central wavelength with a bandwidth of 100 nm was performed immediately before skin punch biopsies were collected at three sites: the current site, with the infusion set removed at time of OCT and biopsy; the recovery site, with the infusion set removed 3 days before biopsy; and the control site, which was never used for any insulin infusion or injection.

RESULTS

OCT and OCTA identified characteristics of increased inflammation and vessel density at pump sites compared with control sites. Histologic analysis of pump sites showed differences in skin architecture, including fibrosis, inflammation (including increased tissue eosinophils), and fat necrosis. Immunohistochemical staining showed differences between infusion and control sites regarding staining of ILGF-I and transforming growth factor-β3.

CONCLUSIONS

These findings support allergic sensitization as a potentially common reaction at CSII sites. The leading candidates causing this include insulin preservatives, plastic materials, and adhesive glue used in device manufacturing. The inflammatory response caused by these common allergic responses may result in tissue changes responsible for the infusion site failures seen frequently in clinical practice.

Validation of mid-upper-arm-circumference cut-offs for assessment of overnutrition in Indian children and adolescents with type 1 diabetes

AIMS

Mid upper arm circumference (MUAC) measurement is an easy and low-cost method to determine nutritional status. MUAC cut-offs for screening for overnutrition in Indian children from 5 to 17 years age are recently published. We conducted this study to validate MUAC cut-offs against BMI to screen overnutrition in children with T1D in comparison with age-gender-matched healthy controls and to compare the predictive value of BMI and MUAC to assess adiposity.

METHODOLOGY

This cross sectional, observational study included 249 children and adolescents (5-17 years) with T1D attending a pediatric endocrine clinic along with same number of age and gender matched healthy controls. Demographic, anthropometric and body composition data were obtained using standardized protocols and questionnaires.

RESULTS

The co-relation between MUAC with BMI was significant for cases and controls and percent body fat with MUAC and BMI in T1D(r = 0.854,0.917 and 0.546,0.616). The AUC of MUAC to identify obesity based on BMI cut-offs for cases and controls and of BMI and MUAC for adiposity were similar(0.745,0.918 and 0.867,0.814). Sensitivity, specificity and PPV were significantly higher in controls than in cases.

CONCLUSION

MUAC is an accurate method to identify obesity and adiposity in T1D thereby reducing the risk of development of double diabetes.

Lipoatrophy, a rare complication of diabetes: a single-center experience

BACKGROUND

Lipoatrophy (LA), a rare skin complication in patients with type 1 diabetes (T1D), has decreased dramatically over the past decades due to the use of human purified insulin preparations.

METHODS

We collected data from the records of T1D patients with LA. Types of insulin and insulin regimen, presence of eosinophilia, anti-insulin (IAA), anti-GAD, anti-IA2 autoantibodies, other autoimmune disorders, site of atrophy and its relationship to catheter, HbA1c at LA onset and after resolution, and different treatment modalities (i.e., change of insulin type or site, sodium cromoglycate (SCG) cream, cortisone cream or percutaneous injections, and laser treatment) were recorded.

RESULTS

Thirteen out of 1200 T1D subjects (1%) presented with LA. The majority were on insulin pump using rapid-acting analogs. Twelve out of 13 patients had changed the type of insulin, and most of them had switched injection sites. Ten out of 13 patients used SCG cream and 7/10 showed complete/partial improvement. One patient used dexamethasone injection with improvement. Five patients showed self-improvement. In 3/7 patients who were receiving SCG, treatment was combined with change of insulin type (glulisine); however, in 1/3, the result should be attributed to concomitant laser treatment. In 4/7 patients, there was a clear, beneficial effect of SCG. In 1/4 with partial resolution of LA, laser treatment was used after SCG, which further improved the result.

CONCLUSIONS

LA is a rare skin complication seen even today with the use of insulin analogs. SCG alone or combined with change of insulin type seems to be the most effective treatment. Laser treatment is a promising new therapy.

Autoimmunity in lipodystrophy syndromes

Lipodystrophy syndromes are rare, heterogeneous disorders characterized by the complete or partial deficiency of adipose tissue and are classified according to the extent of fat loss in generalized or partial subtypes, or based on the pathogenic mechanisms in genetic or acquired. While in most cases of congenital forms of lipodystrophy a genetic alteration can be identified, the pathogenic mechanisms responsible for the acquired diseases are not fully clarified. Based on the evidence of a positive association between most acquired lipodystrophies and autoimmune disorders including immune mediated alterations in the adipose tissue of patients affected by acquired lipodystrophy, a reaction against white adipose tissue antigens is postulated. Recent acquisitions have shed new light on the possible pathogenic mechanisms and identified novel forms of acquired lipodystrophy which are possibly immune-mediated. The aim of this review is to give an update on acquired lipodystrophies describing pathogenic mechanisms involved and the relationships between acquired lipodystrophies and other autoimmune disorders. Larger studies based on international disease registries are needed to collect accurate information on the prevalence, risk factors, genetic predisposition, natural history, disease markers and treatment efficacy of these ultrarare disorders.

Multifocal lipoatrophy secondary to insulin injection in a patient with type 2 diabetes, hepatitis B virus infection, and liver cirrhosis

Lipoatrophy secondary to insulin injection is a rare complication of insulin use. Localized lipoatrophy is recognized by a loss of subcutaneous fat caused by insulin injection. We report the case of a 69-year-old non-obese female patient with type 2 diabetes mellitus, decompensated liver cirrhosis, and hepatitis B virus (HBV) infection who developed multifocal lipoatrophy during the administration of human insulin and an insulin analog.

Detemir plus aspart and glulisine induced lipoatrophy: 2015 literature review and report of a new case

BACKGROUND

In the first and only literature review, conducted in 2009, of human insulin analog- induced lipoatrophy, there were 12 published cases, including 1 with aspart, 1 with detemir, 1 with NovoMix 30 and none with detemir plus aspart. It is perceived that insulin analog induced-lipoatrophy is increasing. We conducted a 2015 literature review of published reports of lipoatrophy induced by aspart, detemir, detemir plus aspart, and NovoMix30. We also report a new case of detemir plus aspart and glulisine induced lipoatrophy.

METHODS

Our focused literature searches (limited to 1995-2014) in PubMed, Embase, and Web of Science, using a combination of insulin analog and lipoatrophy terminology, was conducted in early January 2015.

RESULTS

From the 520 unique citations there were 33 (from 13 papers and 9 abstracts) lipoatrophy cases induced by detemir (n = 5), aspart (n = 21), detemir plus aspart (n = 4) and NovoMix 30 (n = 3), representing 30 new cases since 2009. Many of these reported cases were females (76 %), had type 1 diabetes mellitus (T1DM) (94 %) and were in young persons (61 %). A 41-year-old T1DM woman developed lipoatrophy on her upper thighs, arms and abdomen 14 months after injecting detemir plus aspart at the same sites. Later on, after a year on continuous subcutaneous insulin infusion (CSII) using aspart and then glulisine, she developed lipoatrophy at the infusion sites. When CSII insulin was switched to lispro she did not develop lipoatrophy after 10 months. Meanwhile, the original lipoatrophy sites significantly improved.

CONCLUSIONS

Our literature review uncovered 30 new published cases of aspart, detemir, aspart plus detemir and NovoMix 30-induced lipoatrophy since 2009. The largest increase in cases was in aspart- induced lipoatrophy. Recent surveys showed most rapid acting insulin analog-induced lipoatrophy were associated with CSII. In our review of the reported cases, 85.7 % cases of aspart-induced lipoatrophy were associated with CSII. As in previous reports, we showed lipoatrophy was more common in females, T1DM and young persons. Our patient may be the 5^th published case of detemir plus aspart-induced lipoatrophy and possibly the first case report of glulisine induced lipoatrophy. She believed both detemir plus aspart and glulisine induced the lipoatrophy.

Model study of the pressure build-up during subcutaneous injection

In this study we estimate the subcutaneous tissue counter pressure during drug infusion from a series of injections of insulin in type 2 diabetic patients using a non-invasive method. We construct a model for the pressure evolution in subcutaneous tissue based on mass continuity and the flow laws of a porous medium. For equivalent injection forces we measure the change in the infusion rate between injections in air at atmospheric pressure and in tissue. From a best fit with our model, we then determine the flow permeability as well as the bulk modulus of the tissue, estimated to be of the order 10-11-10-10 m2 and 105 Pa, respectively. The permeability is in good agreement with reported values for adipose porcine tissue. We suggest our model as a general way to estimate the pressure build-up in tissue during subcutaneous injection.

Insulin-induced localized lipoatrophy preceded by shingles (herpes zoster): a case report

Introduction

Localized involutional lipoatrophy of subcutaneous adipose tissue may develop due to subcutaneous injection of pharmaceutical preparations. The pathogenesis of this adverse drug reaction is unknown. The progression of localized involutional lipoatrophy ceases and occasionally it resolves after withdrawing the inducing agent. In case of localized involutional lipoatrophy due to subcutaneous insulin therapy, low-dose systemic corticosteroids may be curative despite ongoing insulin administration.

Case presentation

We report a recurrence of insulin-induced localized involutional lipoatrophy at the abdominal wall in a 57-year-old Caucasian woman with type-1 diabetes on continuous subcutaneous insulin infusion. The first episode of insulin-induced localized involutional lipoatrophy two years previously had been cured by oral prednisone. The recurrence was treated immediately with 10mg prednisone once daily for five months, and was cured thereafter. The insulin analog preparation (Humalog™) and the insulin pump equipment (Accu-Chek Spirit™) applied were the same during both episodes. Both episodes were preceded by a temporary disturbance of the immune balance (the first episode by vaccination, the second episode through shingles).

Conclusions

This case confirms that insulin-induced localized involutional lipoatrophy in type-1 diabetes can occur again, and can be cured by systemic corticosteroids. We suggest that temporary disturbance of the immune balance may trigger this transitory idiosyncratic reaction in a susceptible individual.

Lipoatrophy is associated with an increased risk of Hashimoto's thyroiditis and coeliac disease in female patients with type 1 diabetes

BACKGROUND/AIMS

Lipoatrophy (LA) is a rare, possibly under-recognised side effect of insulin treatment of unclear aetiology. The aim of this study was to describe the characteristics of patients with type 1 diabetes (T1D) who have LA and to explore the relationship between LA and other autoimmune diseases based on the hypothesis that additional autoimmune phenomena are more prevalent in T1D patients with LA.

METHODS

This was a cross-sectional observational study of T1D patients with LA in comparison to T1D patients without LA who are registered with the Diabetes Patienten-Verlaufsdokumentationssystem database of 241,650 patients in Germany and Austria.

RESULTS

Hashimoto's thyroiditis and coeliac disease were more prevalent in patients with LA (p < 0.001 for both). LA was associated with an increased risk of Hashimoto's thyroiditis and coeliac disease in female patients [odds ratio (OR) 2.5, p = 0.003, and OR 3.1, p = 0.02, respectively]. This relationship persisted after adjustment for current age, duration of diabetes and calendar year of treatment (OR 2.7, p = 0.002, and OR 3.5, p = 0.01, respectively).

CONCLUSION

These findings support the hypothesis that an immune complex-mediated inflammatory process may be important in the development of LA.

How to diagnose a lipodystrophy syndrome

The spectrum of adipose tissue diseases ranges from obesity to lipodystrophy, and is accompanied by insulin resistance syndrome, which promotes the occurrence of type 2 diabetes, dyslipidemia and cardiovascular complications. Lipodystrophy refers to a group of rare diseases characterized by the generalized or partial absence of adipose tissue, and occurs with or without hypertrophy of adipose tissue in other sites. They are classified as being familial or acquired, and generalized or partial. The genetically determined partial forms usually occur as Dunnigan syndrome, which is a type of laminopathy that can also manifest as muscle, cardiac, neuropathic or progeroid involvement. Gene mutations encoding for PPAR-gamma, Akt2, CIDEC, perilipin and the ZMPSTE 24 enzyme are much more rare. The genetically determined generalized forms are also very rare and are linked to mutations of seipin AGPAT2, FBN1, which is accompanied by Marfan syndrome, or of BANF1, which is characterized by a progeroid syndrome without insulin resistance and with early bone complications. Glycosylation disorders are sometimes involved. Some genetically determined forms have recently been found to be due to autoinflammatory syndromes linked to a proteasome anomaly (PSMB8). They result in a lipodystrophy syndrome that occurs secondarily with fever, dermatosis and panniculitis. Then there are forms that are considered to be acquired. They may be iatrogenic (protease inhibitors in HIV patients, glucocorticosteroids, insulin, graft-versus-host disease, etc.), related to an immune system disease (sequelae of dermatopolymyositis, autoimmune polyendocrine syndromes, particularly associated with type 1 diabetes, Barraquer-Simons and Lawrence syndromes), which are promoted by anomalies of the complement system. Finally, lipomatosis is currently classified as a painful form (adiposis dolorosa or Dercum's disease) or benign symmetric multiple form, also known as Launois-Bensaude syndrome or Madelung's disease, which are sometimes related to mitochondrial DNA mutations, but are usually promoted by alcohol. In addition to the medical management of metabolic syndrome and the sometimes surgical treatment of lipodystrophy, recombinant leptin provides hope for genetically determined lipodystrophy syndromes, whereas modifications in antiretroviral treatment and tesamorelin, a GHRH analog, is effective in the metabolic syndrome of HIV patients. Other therapeutic options will undoubtedly be developed, dependent on pathophysiological advances, which today tend to classify genetically determined lipodystrophy as being related to laminopathy or to lipid droplet disorders.

Severe localized lipoatrophy related to therapy with insulin analogs in type 1a diabetes mellitus

Insulin analog-related lipoatrophy is a rare complication of this type of treatment. We report a case of severe localized lipoatrophy in different locations in a patient with type 1a diabetes mellitus associated with other autoimmune disease.