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HIV-associated lipodystrophy is a syndrome characterized by body habitus changes associated with HIV treatment. The syndrome comprises 2 distinct clinical manifestations that can sometimes occur together. Lipodystrophy is a redistribution of adipose tissue, manifesting as abnormal fat accumulation resulting in central adiposity or subcutaneous fat loss, resulting in severe body image changes from lipoatrophy. Several treatment options have been identified to help decrease the morbidity patients may experience due to this condition. This activity reviews the evaluation and management of HIV-associated lipodystrophy and highlights the role of the interprofessional team in the care of patients affected by this condition. Objectives: Identify the etiology of HIV-associated lipodystrophy. Evaluate a patient with HIV-associated lipoatrophy. Compare treatment and management options available for the various clinical manifestations of HIV-associated lipodystrophy. Strategize with the interprofessional team to improve care coordination and communication, thereby improving outcomes for patients with HIV-associated lipodystrophy. Access free multiple choice questions on this topic.

HIV-associated lipodystrophy is an undesirable effect of antiretroviral therapy (ART) that occurs due to the redistribution of adipose tissue (see Image. HIV-Induced Lipodystrophy). The first reports of this condition were in 1997 among people taking ART. HIV-associated lipodystrophy can manifest as two distinct phenotypes: fat accumulation (lipohypertrophy) or fat loss (lipoatrophy). In some patients, the 2 manifestations may coexist as well. Lipoatrophy occurs on the face, buttocks, arms, and legs. In contrast, lipohypertrophy occurs in the truncal areas and manifests as abdominal obesity, mammary hypertrophy, accumulation of fat on the neck, or lipomas. These body image and habitus changes, especially facial lipoatrophy, have been linked to depression, decreased self-esteem, sexual dysfunction, and social isolation and can greatly affect the patient’s quality of life and adherence to ART.[1][2] Lipodystrophy also contributes to morbidity via the development of insulin resistance, hyperlipidemia, and endothelial dysfunction, which can increase the risk of cardiovascular disease. Therefore, identification and prompt management of HIV-associated lipodystrophy are of utmost importance.[3]

The exact cause of lipodystrophy is unknown. However, using specific thymidine analog nucleoside reverse transcriptase inhibitors (NRTI), such as zidovudine and stavudine, is associated with developing lipoatrophy. Switching to newer agents, such as abacavir or tenofovir, has been shown to prevent the progression of this disease. In contrast, although lipohypertrophy sometimes occurs with protease inhibitors (PI), switching or discontinuing PI has not been shown to reverse fat accumulation.[4][5] Given the two distinct phenotypes of this disease, it is useful to separate the two manifestations to help understand etiological factors. Lipoatrophy As stated above, the leading risk factor for lipoatrophy is using NRTIs. The drugs that are most notorious for causing lipoatrophy include stavudine and zidovudine. An open-label randomized controlled trial comparing abacavir or stavudine, with each group receiving additional antiretroviral therapy with lamivudine and efavirenz, reported 38% incidence of lipoatrophy in the stavudine group versus 5% incidence in abacavir group.[6] Another study comparing stavudine to tenofovir disoproxil fumarate, with each group receiving additional antiretroviral therapy with lamivudine and efavirenz, reported no evidence of lipoatrophy in patients taking tenofovir at 144 weeks, whereas 50% of the patients taking stavudine developed lower limb fat mass during the same period.[7] Other antiretroviral classes have also been implicated in the risk of this disease; however, the evidence is less clear as most of these studies had concurrent use of NRTIs. There is some evidence to suggest that the use of culprit NRTI with a protease inhibitor may have a synergistic effect on lipoatrophy.[8] It is clear, however, that protease inhibitors alone do not cause lipoatrophy.[4] Other factors associated with an increased risk of lipoatrophy include increased age, coinfection with hepatitis C, higher HIV viral loads, and lower CD4 cell counts at the time of initiation of HIV therapy.[9][10] Lipohypertrophy

Other antiretroviral classes have also been implicated in the risk of this disease; however, the evidence is less clear as most of these studies had concurrent use of NRTIs. There is some evidence to suggest that the use of culprit NRTI with a protease inhibitor may have a synergistic effect on lipoatrophy.[8] It is clear, however, that protease inhibitors alone do not cause lipoatrophy.[4] Other factors associated with an increased risk of lipoatrophy include increased age, coinfection with hepatitis C, higher HIV viral loads, and lower CD4 cell counts at the time of initiation of HIV therapy.[9][10] Lipohypertrophy In contrast to lipoatrophy, the risk factors for fat accumulation tend to be host factors. These include advanced age, female gender, and higher body fat percentage at baseline.[11] In addition, host lifestyle factors, such as high caloric intake with resultant elevated baseline triglyceride levels, have also been implicated as a risk factor for lipohypertrophy in patients with HIV.[12] In contrast, a high-fiber, high-protein diet may help prevent fat deposition and accumulation.[13] There is no evidence to suggest specific antiretroviral agents lead to fat accumulation. However, fat accumulation, specifically central adiposity, has been associated with antiretroviral therapy (ART). Although PI therapy was initially thought to cause lipohypertrophy, randomized controlled trials that substituted PI with alternative ART (eg, nonnucleoside reverse transcriptase inhibitors [NNRTIs] or integrase inhibitors) in patients with lipodystrophy did not result in a decrease in visceral fat. Therefore, studies have not been able to definitively report an association between ART, especially PI, and fat accumulation in HIV-infected individuals.[14]

The exact prevalence of HIV-associated lipodystrophy has been challenging to establish due to differences in case definition, but estimates range from 10% to 80% among all people living with HIV worldwide.[15] The newer HIV medicines are thought to be less likely to cause lipodystrophy than the previously used agents. A 2005 study evaluating 452 patients reported a baseline prevalence of 35% for fat atrophy, 44% for fat accumulation (central adiposity), and 14% for a combination of the two syndromes in patients living with HIV.[11] Moreover, this study noted a change in the prevalence of these syndromes over time. After a 1-year follow-up, 22% developed new lipoatrophy, while 16% of the patients who previously had it did not. Similarly, 23% of the patients developed new fat deposition syndromes, whereas 15% of those with fat deposition at baseline did not have it at 1-year follow-up.[11]

The underlying mechanisms associated with HIV-associated lipodystrophy involve changes induced by HIV infection itself and metabolic changes triggered by certain classes of antiretroviral drugs. HIV-1 virus infection per se results in a proinflammatory change in adipose tissue, which can contribute to lipodystrophy and subsequent metabolic abnormalities. It stimulates the expression of pro-inflammatory cytokines (TNF-alfa, IL-6, and IL-1beta), which induce a stress response in adipocytes, leading to physical cell damage. TNF-alfa mediates insulin resistance by reducing insulin receptor kinase activity, which triggers apoptosis and lipolysis. It also downregulates the insulin receptor kinase substrate (IRS-10) and GLUT-4 transporter. Inflammation contributes to insulin resistance through impaired adipocyte metabolism and lipolysis.[16] The mechanisms by which antiretroviral drugs play a role in developing lipodystrophy are incompletely understood. Protease inhibitors (PIs) and reverse transcriptase inhibitors (NRTIs) have been shown to disrupt adipocyte function and lipid and glucose metabolism. These drugs reduce adipocyte differentiation and adiponectin's expression, secretion, and release from adipose tissue. Adiponectin is a key player in glucose regulation and fatty acid oxidation. Antiretroviral drugs increase lipolysis and suppress lipogenesis, decreasing free fatty acids (FFA) uptake by adipocytes and increasing the release of stored triglycerides and glycerol in the bloodstream.[17] Mitochondrial toxicity induced by NRTIs also plays a role in the development of the syndrome. This drug class inhibits mitochondrial DNA polymerase gamma, stimulating catabolic activity by dysregulating the production and synthesis of hormones and cytokines. Mitochondrial toxicity, insulin resistance, and genetics are also thought to be some of the additional pathophysiological mechanisms related to the development of HIV-associated lipodystrophy. Lipoatrophy correlates with severe mitochondrial dysfunction and inflammation. Lipohypertrophy is linked to mild mitochondrial dysfunction and cortisol activation stimulated by inflammation. Further, lipoatrophy in the lower part of the body and lipohypertrophy in the abdomen carries associations with metabolic changes similar to metabolic syndrome, especially dyslipidemia, and insulin resistance.[16]

Mitochondrial toxicity, insulin resistance, and genetics are also thought to be some of the additional pathophysiological mechanisms related to the development of HIV-associated lipodystrophy. Lipoatrophy correlates with severe mitochondrial dysfunction and inflammation. Lipohypertrophy is linked to mild mitochondrial dysfunction and cortisol activation stimulated by inflammation. Further, lipoatrophy in the lower part of the body and lipohypertrophy in the abdomen carries associations with metabolic changes similar to metabolic syndrome, especially dyslipidemia, and insulin resistance.[16] There also appears to be a genetic component to the pathophysiology of this disease. In treatment-naive patients, for example, the development of lipodystrophy and metabolic changes on antiretroviral therapy was linked to a single nucleotide polymorphism in the resistin gene.[18] Similarly, genetic polymorphisms involved in apoptosis have been linked to lipoatrophy.[19] Recent studies have also identified the dysregulation of microRNAs as a crucial factor in causing adipose dysfunction in patients with HIV.[20]

History must include detailed information describing patient and clinician-reported changes in physical appearance associated with antiretroviral agents. Information about specific antiretroviral medications and medicines used to treat comorbid conditions is necessary. The length of treatment with each ART combination, including PIs, NRTIs, NNRTIs, and integrase inhibitors, is needed data. A personal and family history assessment for metabolic diseases such as diabetes mellitus, dyslipidemia, hypertension, and cardiovascular disease should also be a requirement. A social history should include diet, exercise regimen, smoking, alcohol consumption, and illicit drug use. Patients may report sleep difficulties due to neck enlargement. Patients should undergo evaluation for anxiety, depression, and a loss of self-esteem depression, as well as compliance with ART. It is well known that lipodystrophy can cause patients to be non-compliant with ART. A physical exam should include body mass index, waist circumference, blood pressure, and clinical signs of lipodystrophy. The clinician should evaluate for features of lipoatrophy as manifested by loss of peripheral fat tissue in the upper and lower extremities and buttocks as well as malar and temporal areas. Extremities may appear thin with the prominence of superficial veins, and loss of facial fat causes sunken eyes and cachectic facial features.[1] Patients with lipohypertrophy show an accumulation of fat tissue in certain areas. For example, central lipohypertrophy is characterized as intra-abdominal fat accumulation manifested by abdominal protuberance. Fat deposition can present in the dorsocervical area (buffalo hump), breast enlargement in both men and women and the anterior neck and mandibular area. Lipomas can also be a feature. Clinical Features of Lipoatrophy Lipoatrophy presents as loss of subcutaneous fat in the face, arms, legs, abdomen, or buttocks.[11] This is a preferential loss of fat without any evidence of muscle atrophy, which helps distinguish it from AIDS-associated wasting.[21] Facial lipoatrophy presents with buccal and temporal fat pad loss, concave cheeks, periorbital hollowing, and visible facial musculature.[22]

Lipoatrophy presents as loss of subcutaneous fat in the face, arms, legs, abdomen, or buttocks.[11] This is a preferential loss of fat without any evidence of muscle atrophy, which helps distinguish it from AIDS-associated wasting.[21] Facial lipoatrophy presents with buccal and temporal fat pad loss, concave cheeks, periorbital hollowing, and visible facial musculature.[22] Lipoatrophy in the extremities presents with a prominence of veins and musculature, while central lipoatrophy presents with loss of subcutaneous fat in the abdomen.[21] Evaluating subcutaneous abdominal fat in patients with lipoatrophy can also help identify patients with coexisting central fat deposition. In patients where the two syndromes coexist, there will be scant "pinchable" abdominal fat due to subcutaneous fat atrophy; however, there will be a high waist circumference due to increased intraabdominal fat.[23] Clinical Features of Lipohypertrophy The hallmark features of this phenotype include central adipose tissue deposition with increased abdominal girth and a "buffalo hump" in the dorsocervical area. However, these features are difficult to distinguish from general obesity. The lack of subcutaneous fat helps distinguish this syndrome from obesity.[23] This fat deposition may also occur in liver tissue and muscles over time.

All patients on ART should be monitored for the development of lipodystrophy, which can be performed by measuring abdominal girth, hip, and mid-upper arm circumferences. Monitoring body weight and body mass index is of the utmost importance for identification, and early intervention is likely more effective than reversing fat accumulation. The diagnosis of HIV-associated lipodystrophy is based on the patient's characteristic physical appearance. Due to the increased incidence of metabolic abnormalities in patients with HIV-associated lipodystrophy, lipid profile, and glucose tolerance should be evaluated, ideally before the initiation of antiretroviral therapy, and repeated every six months. Hemoglobin A1c may be useful; however, it may underestimate hyperglycemia due to increased red blood cell turnover in HIV infection. Liver and kidney function tests are necessary at regular intervals as well. Objective fat accumulation or loss evaluation can be obtained by radiographic imaging such as computed tomography, dual-energy X-ray absorptiometry, or magnetic resonance imaging; however, they are not more sensitive than patient self-report and physical examinations, especially given the added cost of these tests.[4] Anthropometric measurements are more useful in assessing and monitoring patients with lipodystrophy, although the interobserver differences in measurements may make them less reliable. Evaluation and Monitoring The recommended evaluation and monitoring strategies for HIV-associated lipodystrophy include: Waist Measurement An abdominal circumference greater than 102 cm for men and 88 cm for women is considered abnormal and should warrant further evaluation for fat accumulation. Serial weight and body mass index (BMI) measurements This is particularly helpful when compared to an increased waist circumference. Routine fasting lipid profile Both lipoatrophy and lipohypertrophy have been associated with elevated triglycerides and decreased high-density lipoprotein cholesterol.[24] Fasting lipid profiles should be checked before initiating antiretroviral therapy and annually thereafter.[4] Routine testing for glucose metabolism

Treatment for HIV-associated lipodystrophy depends on the phenotypic profile of the patient. Treatment of HIV-associated Lipoatrophy The most important treatment strategy in patients with this disease is to switch the antiretroviral therapy combination to exclude the use of stavudine and zidovudine. Alternate NRTIs that may be used include tenofovir or abacavir. Multiple clinical trials have shown improvement in lipoatrophy with this treatment strategy.[5][25] An alternative to NRTI-based regimens is a protease inhibitor-containing, nucleoside-sparing regimen. Support for this therapy comes from a clinical trial evaluating patients with advanced HIV who were switched either to a regimen containing lopinavir/ritonavir and efavirenz or two nucleoside analogs and efavirenz.[26] At a 48-week follow-up, the study reported a significant increase in limb fat in the nucleoside-sparing group; however, it also reported an increase in serum triglycerides and total cholesterol levels. Careful evaluation of the patient’s underlying comorbidities, such as hepatitis B and resistance profile, should be taken into consideration when making a switch in ART therapy to prevent any untoward complications. Regimen changes that have not shown any clinical benefit in treating lipoatrophy include switching from a protease inhibitor to an NNRTI or an older-generation protease inhibitor to a newer agent in the same class.[27][28] Thiazolidinediones are another possible treatment that can be considered for patients with lipoatrophy. However, their use has not proven beneficial and remains investigational. In patients who do not improve with ART regimen alterations and need treatment for lipoatrophy, a trial of pioglitazone can be considered if they have evidence of insulin resistance.[29] In a randomized, double-blind, placebo-controlled trial, pioglitazone was shown to increase limb fat at 48 weeks.[30] The clinical benefit was not perceived by the patients in this trial. However, the study did report improved lipid profiles with this treatment. It is important to note that regimen changes may favorably affect limb lipoatrophy but have minimal effect on facial lipoatrophy. Plastic surgery is the mainstay of therapy for patients affected with facial lipoatrophy, which may require injectable gel fillers or autologous fat transplantation.[31][32]

Regimen changes that have not shown any clinical benefit in treating lipoatrophy include switching from a protease inhibitor to an NNRTI or an older-generation protease inhibitor to a newer agent in the same class.[27][28] Thiazolidinediones are another possible treatment that can be considered for patients with lipoatrophy. However, their use has not proven beneficial and remains investigational. In patients who do not improve with ART regimen alterations and need treatment for lipoatrophy, a trial of pioglitazone can be considered if they have evidence of insulin resistance.[29] In a randomized, double-blind, placebo-controlled trial, pioglitazone was shown to increase limb fat at 48 weeks.[30] The clinical benefit was not perceived by the patients in this trial. However, the study did report improved lipid profiles with this treatment. It is important to note that regimen changes may favorably affect limb lipoatrophy but have minimal effect on facial lipoatrophy. Plastic surgery is the mainstay of therapy for patients affected with facial lipoatrophy, which may require injectable gel fillers or autologous fat transplantation.[31][32] Although uridine supplementation can theoretically protect patients from lipoatrophy while on thymidine analogs, a multicenter clinical trial found uridine supplementation ineffective after 48 weeks of treatment compared to a placebo.[33] Treatment of HIV-associated Lipohypertrophy The mainstay of therapy for patients with this syndrome is lifestyle modifications with diet and exercise.[34] If patients have concomitant glucose intolerance or diabetes, metformin can be added, which may also benefit fat deposition.[35] Counseling regarding the importance of smoking cessation, dietary modifications, and regular exercise is essential and is similar to that of healthy patients. Dietary counseling should focus on reducing the intake of saturated fats and cholesterol and increasing the consumption of vegetables, protein, and fiber-containing foods. Cardiovascular and strength training can reduce visceral adiposity and improve muscle strength, lean body mass, and lipid levels.

The mainstay of therapy for patients with this syndrome is lifestyle modifications with diet and exercise.[34] If patients have concomitant glucose intolerance or diabetes, metformin can be added, which may also benefit fat deposition.[35] Counseling regarding the importance of smoking cessation, dietary modifications, and regular exercise is essential and is similar to that of healthy patients. Dietary counseling should focus on reducing the intake of saturated fats and cholesterol and increasing the consumption of vegetables, protein, and fiber-containing foods. Cardiovascular and strength training can reduce visceral adiposity and improve muscle strength, lean body mass, and lipid levels. In severe cases, who do not respond to conservative treatment, tesamorelin can be considered. This is a growth hormone-releasing hormone (GHRH) analog that can be used to treat excess abdominal fat. Although the efficacy of this therapy in reducing abdominal fat deposition is established, long-term safety data is still lacking; therefore, prolonged treatment should be pursued with extreme caution.[36] The beneficial effects on central adiposity wane when therapy is discontinued, further limiting its use.[37] Surgical management of lipohypertrophy includes liposuction and lipectomy. However, the duration of the effect is variable, and recurrence is common, which renders these options less favorable.[38][39][40] Medical Treatment of Dyslipidemia Lipid-decreasing therapy can be considered when low-density lipoprotein levels are high. In such cases, 3-hydroxy-3-methylglutaryl-coenzyme A (HMG-CoA) reductase inhibitors (statins) would be preferred; however, caution is advised given the risk of side effects with concomitant ART therapy. Pravastatin, low-dose atorvastatin, or fluvastatin are recommended as first-line agents in patients receiving protease inhibitors, and dose adjustments may be needed to avoid the risk of statin toxicity.[4] When triglyceride elevations predominate, fibrate therapy can be considered as well. Ezetimibe use in patients with HIV is limited due to scant data supporting its tolerability with ART therapy. Bile acid sequestrants are contraindicated in these patients due to their effect on the absorption of antiretrovirals.[4]

The differential diagnosis for lipoatrophy includes: Malnutrition Hyperthyroidism AIDS-wasting syndrome Anorexia nervosa Cachexia The differential diagnosis for lipohypertrophy includes: Cushing syndrome Glucocorticoid therapy Simple obesity

HIV-associated lipodystrophy progressively worsens when protease inhibitors and thymidine analog NRTI therapy continue. As these conditions develop, altering body image and self-esteem may lead to poor compliance with antiretroviral therapy and, ultimately, treatment failure.[4] Moreover, developing proatherogenic dyslipidemia and alteration of glucose metabolism is a risk factor for cardiovascular disease in these patients.[4] Early identification and management of HIV-associated metabolic complications can halt the progression of these conditions and, in some cases, may help reverse lipodystrophy.[4][11]

HIV-associated lipodystrophy is known to cause significant psychological distress and correlates with depression, decreased self-esteem, and social isolation.[4] Patients may become non-compliant due to the fear of the development of lipodystrophy and concern that the presence of lipodystrophy may make the diagnosis of HIV obvious. Metabolic complications include hyperlipidemia and hyperglycemia due to insulin resistance, which increases the risk of atherosclerotic cardiovascular disease.[4] Neck enlargement can lead to neck pain and sleep apnea. Further, increased abdominal girth due to increased visceral fat accumulation can cause symptoms of abdominal distention and gastroesophageal reflux.

Consultations that are typically requested for patients with this condition include the following: An endocrinology consult is recommended for patients who are candidates for tesamorelin therapy. A plastic surgery consultation is recommended for patients interested in filler administration or removal of adipose tissue. A psychiatry or psychology consultation may be necessary for patients affected by undesired changes in body habitus. An infectious disease consult should take place when considering an antiretroviral therapy switch.

Patient education is instrumental in determining potential adverse events and the follow-up process when initiating antiretroviral therapy for patients.[4] Avoidance of antiretroviral agents associated with lipodystrophies, such as stavudine and zidovudine, can decrease the risk of this disease. Currently, stavudine or zidovudine are no longer considered first-line regimens for the treatment of HIV. Patients who are on these drugs should switch to other antiretroviral classes. Prevention of fat accumulation relies on encouraging a healthy lifestyle among patients with HIV by encouraging exercise, high-fiber and high-protein diets, and monitoring weight.[4] A healthy lifestyle, including exercise and avoidance of unhealthy behaviors such as smoking, may also be similarly beneficial and should be encouraged in patients with HIV to mitigate the risk of long-term cardiovascular disease associated with lipodystrophy in these patients.[13]

Key facts to keep in mind about HIV-associated lipodystrophy are as follows: HIV-associated lipodystrophy characteristically presents as lipoatrophy, lipohypertrophy, or a combination of both in HIV-infected patients receiving antiretroviral therapy. The syndrome can significantly impact an individual's quality of life, both physically and psychologically. Treatment regimens containing thymidine analog nucleoside reverse transcriptase inhibitors (NRTIs), such as stavudine and zidovudine, are most commonly associated with lipoatrophy and should be avoided. HIV-associated lipodystrophy can be accompanied by hyperlipidemia, insulin resistance, and hyperglycemia, contributing to morbidity. Management of lipodystrophy includes switching ART, lifestyle modifications, pharmacologic interventions, and surgical treatment. Because lipoatrophy and lipohypertrophy are challenging to treat, prevention is essential and can be accomplished by avoiding agents associated with lipodystrophy.

Recognizing and addressing HIV-associated lipodystrophy represents a challenge, given its multifactorial etiology and development over time. HIV infection and the use of specific antiretroviral agents are key factors in the development of the syndrome. Providers taking care of HIV-positive patients must closely follow glucose levels, lipid profile, and body habitus changes to detect metabolic changes secondary to antiretroviral drugs and make proper adjustments such as switching medications, adding hypoglycemic agents, or lipid-lowering drugs. Specialty nurses are key in educating patients about the potential side effects of ART and self-monitoring strategies to help identify these complications early. Pharmacists play a pivotal role in assisting clinicians in choosing an appropriate ART regimen and addressing dyslipidemia so that adverse drug effects and interactions are minimized. Consultation with a psychiatrist or mental health nurse is recommended for patients emotionally affected by body habitus and body image changes to help them cope with the treatment alterations so that treatment adherence is not affected and clinical complications are minimized. A well-coordinated interprofessional team can optimize clinical outcomes for patients with lipodystrophy.[41]