Lipodystrophies are the category of conditions that share the common finding of a reduction in subcutaneous fat. There are multiple subtypes of lipodystrophy, which may be either congenital or acquired and vary in the distribution of fat loss. Although all are relatively rare in incidence, acquired variants have become more common as an adverse effect of certain medications and iatrogenic mechanisms. Regardless of subtype, decreases in overall adipose burden may lead to metabolic complications, with subsequent increases in morbidity and mortality in lipodystrophy patients.[1][2][3]
Congenital Generalized Lipodystrophy
Congenital generalized lipodystrophy, sometimes referred to as Berardinelli-Seip syndrome, is an uncommon lipodystrophy variant with significant and sometimes near-total fat loss.
Familial Partial Lipodystrophy
Familial partial lipodystrophy is most often an autosomal dominant condition with fat loss primarily involving the extremities, more commonly lower than upper.
Acquired Generalized Lipodystrophy
Acquired generalized lipodystrophy is an extremely rare condition of widespread subcutaneous fat loss.
Acquired Partial Lipodystrophy
Acquired partial lipodystrophy, or Barraquer-Simons syndrome, is characterized by gradual loss of fat from the upper body and truncal region during childhood. Over the past few decades, however, highly active anti-retroviral therapy induced lipodystrophy has become the most common form of acquired partial lipodystrophy.
Congenital Generalized Lipodystrophy[1][2][3]
Congenital generalized lipodystrophy, sometimes referred to as Berardinelli-Seip syndrome, is an uncommon lipodystrophy variant with significant and sometimes near-total fat loss. It has autosomal recessive inheritance and patients present with findings at birth or in early infancy. Mutations in four genes coding for the proteins AGPAT2, seipin, caveolin-1, and cavin-1 have been implicated in the different subtypes of congenital generalized lipodystrophy.
Familial Partial Lipodystrophy
Familial partial lipodystrophy is most often an autosomal dominant condition with fat loss primarily involving the extremities, more commonly lower than upper.To date, seven variants of familial partial lipodystrophy have been described. Multiple genetic defects have been reported which can serve to explain the heterogeneity in clinical findings. The best-characterized variant, familial partial lipodystrophy type 2 or Dunnigan’s lipodystrophy, results from defects in the gene encoding lamins A and C.
Acquired Generalized Lipodystrophy
Acquired generalized lipodystrophy is an extremely rare condition of widespread subcutaneous fat loss. The etiology is poorly understood, but these patients may also have associated autoimmune connective tissue disease.
Acquired Partial Lipodystrophy
Acquired partial lipodystrophy, or Barraquer-Simons syndrome, is characterized by gradual loss of fat from the upper body and truncal region during childhood.Though no mechanism for the development of acquired partial lipodystrophy has been confirmed, some studies have linked complement induced adipocyte lysis to patients with serum positive for nephritic factor.
Over the past few decades, highly active anti-retroviral therapy induced lipodystrophy has become the most common form of acquired partial lipodystrophy. It is associated with the use of anti-viral agents including the protease inhibitors or nucleoside analogs used to treat human immunodeficiency virus. Although the mechanism is still unclear, it is known that these medications can damage adipocytes.
Lipodystrophy Associated with Insulin Treatment
Lipodystrophy associated with subcutaneous insulin injections may present as either lipohypertrophy (LH) or lipoatrophy (LA). Lipoatrophy presents as a large, often deep, retracted scar on the skin and likely has an immunological basis. LH is a thickened ‘rubbery’ tissue swelling that can be picked up by a directed, accurate physical examination. [4] Lipodystrophy is associated with increased glycemic variability and unexplained episodes of hypoglycemia further driving up healthcare costs while affecting patient compliance. Studies have shown that the correct rotation technique of insulin sites has the strongest protective value in preventing lipohypertrophy. [5]
Congenital Generalized Lipodystrophy[6]
Congenital generalized lipodystrophy is extremely rare with approximately 250 cases reported in the literature. Assuming that a minority of patients with this condition report, it is estimated that the prevalence worldwide ranges from 1 case per 200,000 persons to 1 case per 12 million persons. Patients present at birth or in early infancy.
Familial Partial Lipodystrophy[7]
Familial partial lipodystrophies, including the variants of Dunnigan’s lipodystrophy and Kobberling lipodystrophy, are uncommon. It is thought that the prevalence of the Dunnigan’s variant is less than 1 case in 15 million persons. The mode of transmission is autosomal dominant. The Kobblering variant is less well characterized regarding prevalence and mode of transmission, though some sporadic cases have been reported.
Acquired Generalized Lipodystrophy[8]
Acquired generalized lipodystrophy has been described in at least 100 patients though this may be under-recognized or reported. Patients most often present in adolescence. Recent proposals seek to further categorize these patients into one of three categories: panniculitis, autoimmune, and idiopathic; patients either have one of these pre-existing conditions before the development of generalized lipodystrophy or have the spontaneous development of generalized lipodystrophy. Women have affected more than men in approximately a 3:1 ratio.
Acquired Partial Lipodystrophy[9]
Acquired partial lipodystrophy is also rare with approximately 250 cases described. The typical age of presentation is after puberty, with one study showing a median age of 25 years. Patients have been identified from multiple ethnic backgrounds, but the largest studies to date involve patients primarily of European descent. Women are again affected more than men with ratios that range from 4:1 to 8:1.
The metabolic alterations seen in patients with lipodystrophies result from an overall decrease in adipose tissue burden. Adipose is a metabolically active tissue that has many physiologic functions. Adipose tissue not only provides insulation but also serves to mediate inflammation and secrete many hormones involved in endocrine regulation. In patients with lipodystrophies, a reduction in adipose leads to a deficiency in certain hormones. In particular, a decrease in leptin has been described in many lipodystrophy patients. Leptin is a proinflammatory adipokine secreted by adipose tissue. It is often referred to as the “satiety hormone” because it regulates mediators of appetite and energy expenditure. A decrease in leptin, whether in the setting of intrinsic leptin deficiency or lipodystrophy, leads to the downstream complications of hyperinsulinemia, insulin resistance with possible progression to diabetes, hypertriglyceridemia, and hepatic steatosis.[10][11][12]
When obtaining a biopsy from patients with suspected lipodystrophy, it is important to consider the depth of pathology. An ideal specimen would extend to at least include epidermis, dermis, and subcutaneous fat. There may be a benefit to increasing the depth of the biopsy to include fascia to allow visualization of the full subcutis. The histopathological findings of the lipodystrophy syndromes are somewhat nonspecific. The background is typically pauci-inflammatory, and individual adipocytes become shrunken and separated. In certain circumstances with localized involvement, a perivascular lymphocytic inflammatory infiltrates may be seen.[13]
Congenital Generalized Lipodystrophy[14]
The extent of fat loss results in a striking clinical appearance. Patients not only have a widespread fat loss but also have skeletal muscle hypertrophy due to excess adipose deposition within the musculature. As is common to many lipodystrophies, metabolic anomalies including hyperinsulinemia, insulin resistance, and hypertriglyceridemia often occur. Due to the early onset of this condition, these findings occur before adulthood. The life expectancy of patients with congenital generalized lipodystrophy is reduced due to complications of diabetes or from liver or heart disease.
Familial Partial Lipodystrophy[8]
The patient demonstrates fat loss primarily involving the extremities, more commonly lower than upper. Patients appear normal at birth and throughout childhood regarding fat distribution but develop clinically apparent changes near puberty. In contrast to the fat loss involving the extremities, patients demonstrate a fat gain in the face, neck, and abdomen.
These patients show clinical findings consistent with that described above and additionally may have hypertriglyceridemia severe enough to induce pancreatitis. Insulin resistance, adverse cardiac events, and hepatic steatosis may also be present and sometimes severe.
Acquired Generalized Lipodystrophy[15]
At birth fat distribution is normal but as time progresses fat loss develops. The face, arms, and legs are most commonly affected. The absence of mature adipocytes inhibits the ability to synthesize adipocytokines that are important for normal metabolism. This loss leads to leptin deficiency and severe metabolic derangements. Fat deposition in the liver may lead to cirrhosis. Diabetes mellitus and hypertriglyceridemia are often also present. One-quarter of patients will develop inflammatory panniculitis at the time the fat loss begins, though this is not specific to acquired generalized lipodystrophy.
Acquired Partial Lipodystrophy[16]
Acquired partial lipodystrophy is characterized by gradual loss of fat from the upper body and truncal region during childhood. This condition is progressive, and patients may demonstrate compensatory fat deposition in the hips and legs. The metabolic complications seen in the other lipodystrophies do not seem to be as common in patients with acquired partial lipodystrophy. However, these patients may be more susceptible to kidney disease. Most patients with acquired partial lipodystrophy have circulating levels of the nephritic factor.
Highly active antiretroviral therapy-induced lipodystrophy has become the most common form of acquired partial lipodystrophy. The resultant lipodystrophy is well-documented and has a typical clinical presentation. Patients demonstrate subcutaneous fat loss of the extremities and the face and an increase in adiposity of the trunk. Due to this classic clinical picture, the appearance became stigmatized as an association with HIV.
Lipodystrophy Associated With Insulin Treatment[4]
Patients taking insulin should receive a detailed physical examination. An inspection alone is not sufficient and concerned areas should be palpated to evaluate for lipohypertrophy.
As described above, in patients who present with findings suspicious for a lipodystrophy syndrome, a metabolic work up must be pursued. Patients should have a complete metabolic panel checked for hyperglycemia and any alterations of hepatic enzymes. A cholesterol panel should also be checked to rule out hypertriglyceridemia. Leptin levels can be obtained and, if low, may predict responsiveness to replacement treatment. Genetic testing is not routine at this time but for certain subtypes of lipodystrophy may be performed in clinical laboratories. There are ongoing clinical trials which can be reviewed at www.clinicaltrials.gov.
Management of lipodystrophies is dependent upon the specific subtype and the extent of associated metabolic abnormalities. For patients with severe metabolic derangement, it is important to implement the use of lipid-lowering agents and diabetic medications. With a goal of increasing insulin sensitivity, pioglitazone has been shown to be more efficacious than metformin in this patient population. Severe cases may require insulin. Leptin analogs, particularly metreleptin, have shown efficacy in maintaining normal metabolism in patients who cannot effectively synthesize leptin naturally. Metreleptin is recombinant human leptin and the only FDA-approved replacement therapy for certain patients with lipodystrophy. Hypertriglyceridemia may respond to troglitazone, through interventions may not be very effective in fixing dyslipidemias in these patients. Furthermore, patients with lipodystrophy in cosmetically sensitive areas may be treated with fillers such as poly-L lactic acid and calcium hydroxyapatite. More research needs to be done in the field of lipodystrophies to establish diagnostic and management guidelines. As we learn more about the intricacies of metabolic regulation, it is anticipated that more treatment options will emerge for this patient population.[17][18][19]
Lack of adipose tissue results in marked hypoleptinemia in patients with lipodystrophy. These patients have an increased risk of difficult to treat metabolic disorders including hypertriglyceridemia, marked insulin resistance, type 2 diabetes, recurrent pancreatitis, fatty liver disease, NASH, and liver fibrosis[20]
Various trials have been carried out to study the efficacy of Human recombinant leptin (metreleptin) in patients with lipodystrophy.
A 2011 study by Chan et al[21] enrolled fifty-five patients (36 with generalized lipodystrophy and 19 with partial lipodystrophy) with at least 1 of 3 metabolic abnormalities (diabetes mellitus, fasting triglyceride level ≥200 mg/dL, and insulin resistance) and low leptin levels received subcutaneous injections of metreleptin once or twice daily. Results demonstrated marked improvements in metabolic abnormalities evident by 4 months and sustained over 3 years. Mean hemoglobin A1c reduction was over 2% and serum triglycerides declined by over 30%.
Acquired partial lipodystrophy- Misra et al demonstrated that the prognosis of acquired partial dystrophy is dependent on renal dysfunction. The age of onset of lipodystrophy is significantly lower in the patients with APL having membranoproliferative glomerulonephritis. Patients on average developed MPGN 8 years from diagnosis though the clinical course is variable. The incidence of MPGN is reported to be as high as 22%. [16]
Acquired generalized dystrophy- Panniculitis associated generalized lipodystrophy is generally less severe than the other forms of this disorder. Autoimmune associated generalized lipodystrophy causes greater susceptibility to autoimmune diseases in these individuals.
Lipodystrophy can be associated with difficult to control type 2 DM requiring high doses of insulin. Uncontrolled hypertriglyceridemia can lead to recurrent pancreatitis. Fat deposition in the liver can cause cirrhosis of the liver leading to cirrhosis. [20]
Loss of fat tissue in patients with acquired lipodystrophy cannot be reversed and patients might require cosmetic procedures.
Lipodystrophy associated with insulin treatment can result in unpredictable blood glucose concentrations and an unexplained episode of hypoglycemia. Patients should be advised to rotate injection sites and not inject in areas directly involved with lipodystrophy. Patients should also be advised against the frequent use of the same insulin needle.[4]
Patients with lipodystrophy are at an increased risk of metabolic syndrome. Hence aggressive medical management and lifestyle interventions must be pursued. [20]
Oral contraceptive pills must be avoided in patients with lipodystrophy as they worsen lipid profile. Switching to efavirenz or withdrawing protease inhibitors is useful in the treatment of HIV associated lipodystrophy.[22]
Tesamorelin, a growth hormone-releasing factor analog a growth hormone-releasing factor analog has been approved by the FDA for treatment of HIV associated lipodystrophy. [23]
There are many causes of lipodystrophies. Healthcare workers who encounter patients with lipodystrophy should refer these patients to a plastic surgeon or a dermatologist. Lipodystrophy does not only result in poor cosmesis but it is also associated with metabolic complications. Hence, a referral to an internist is also recommended.
Management of lipodystrophies is dependent upon the specific subtype and the extent of associated metabolic abnormalities. For patients with severe metabolic derangement, it is important to implement the use of lipid-lowering agents and diabetic medications. With a goal of increasing insulin sensitivity, pioglitazone has been shown to be more efficacious than metformin in this patient population. Severe cases may require insulin. Leptin analogs, particularly metreleptin, have shown efficacy in maintaining normal metabolism in patients who cannot effectively synthesize leptin naturally. Metreleptin is recombinant human leptin and the only FDA-approved replacement therapy for certain patients with lipodystrophy.[24] Hypertriglyceridemia may respond to troglitazone, through interventions may not be very effective in fixing dyslipidemias in these patients. Furthermore, patients with lipodystrophy in cosmetically sensitive areas may be treated with fillers such as poly-L lactic acid and calcium hydroxyapatite. The outlook for a patient with lipodystrophy depends on the cause, but in general, the prognosis is guarded. (Level V)
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