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Lipohypertrophy

Lipohypertrophy is a common dermatological complication in individuals receiving subcutaneous insulin therapy for diabetes mellitus, characterized by the abnormal enlargement and proliferation of adipose tissue at injection sites, resulting in visible or palpable lumps under the skin.^[1] This condition arises primarily from repeated injections into the same area without proper site rotation, leading to localized fat hypertrophy rather than malignancy or inflammation.^[2] While most prevalent among insulin-dependent patients, lipohypertrophy can also manifest in other scenarios, such as antiretroviral therapy for HIV, where it contributes to broader lipodystrophy syndromes involving central fat accumulation.^[3] The pathogenesis of insulin-induced lipohypertrophy involves the lipogenic effects of insulin on adipocytes, compounded by mechanical trauma from injections, needle reuse, and factors like high body mass index (BMI) or prolonged therapy duration.^[2] Symptoms typically include painless, rubbery swellings that may cause discomfort, bruising, or altered skin texture, often detected through physical examination or ultrasound imaging.^[1] Prevalence varies globally but affects approximately 50% of insulin users, with higher rates (up to 73%) reported in regions like China, underscoring its significance in diabetes management.^[2] Clinically, it impairs insulin absorption, leading to glycemic variability, increased insulin requirements (up to 30% more), higher rates of hypoglycemia, and elevated hemoglobin A1c (HbA1c) levels, which in turn heighten risks for microvascular and macrovascular complications.^[1] Management focuses on prevention through patient education on injection techniques, including regular site rotation across areas like the abdomen, thighs, and arms, use of shorter needles (e.g., 4-mm), and avoiding needle reuse.^[1] In established cases, avoiding affected sites allows gradual resolution over months, while surgical options like liposuction provide symptomatic relief but do not address underlying causes.^[2] For HIV-associated forms, treatments may involve switching antiretroviral regimens or adjunctive therapies like growth hormone-releasing factors, though evidence remains limited.^[3] Overall, addressing lipohypertrophy is crucial for optimizing therapeutic outcomes and quality of life in affected populations.^[4]

Definition and Classification

Definition

Lipohypertrophy refers to the abnormal, localized accumulation of adipose tissue beneath the skin, leading to the formation of visible or palpable lumps, thickened areas, or rubbery swellings in the subcutaneous layer. This condition involves an increase in the volume of fat cells rather than a diffuse expansion of body fat, distinguishing it from general obesity. In cellular terms, lipohypertrophy encompasses both hypertrophy, which is an enlargement of existing adipocytes (fat cells), and hyperplasia, the proliferation of new adipocytes within the affected subcutaneous tissue. This dual process results in discrete, non-pitting masses that can vary in size and firmness, primarily affecting the subcutaneous layer without involving deeper structures. The condition most commonly manifests at sites of repeated mechanical stress or intervention, such as the abdomen, thighs, arms, and buttocks, where localized fat buildup creates uneven skin contours. While it can occur in various medical scenarios, lipohypertrophy is particularly noted in contexts involving long-term subcutaneous therapies, though it remains a localized rather than systemic phenomenon.

Types

Lipohypertrophy is primarily classified by its underlying etiology and presentation, encompassing injection-related forms, non-injection-related cases, and those associated with systemic conditions. The most prevalent type is insulin-induced lipohypertrophy, which occurs in individuals with diabetes due to repeated subcutaneous insulin injections at the same site, leading to localized accumulation of adipose tissue.^[2] This form is reported in up to 64% of insulin-treated patients globally, with higher rates linked to non-rotation of injection sites.^[5] Other medication-related types arise from repeated injections of agents beyond insulin, including recombinant human growth hormone, which can cause localized lipohypertrophy at administration sites, as documented in pediatric cases where frequent dosing without site rotation results in soft, tumor-like swellings.^[6] Similarly, certain other injectables, such as those used in hormone therapies, contribute to this category, though less commonly than insulin.^[7] Non-injection-related forms include traumatic lipohypertrophy, which develops following physical trauma such as blunt injury, resulting in pseudolipoma-like enlargements of subcutaneous fat, often observed in areas like the shoulders from repetitive mechanical stress.^[8] Lipohypertrophy associated with syndromes, such as HIV-related lipodystrophy, involves truncal fat accumulation as part of a broader dysmorphic pattern, distinct from isolated injection-site lesions but sharing pathological features like adipose hyperplasia; it is classified within partial lipodystrophy syndromes.^[9] In medical contexts, similar presentations can occur with prolonged use of certain therapies, though these are differentiated from non-medical scenarios. These pathological tissue changes generally consist of fibrous fat deposits with increased adipocyte proliferation.^[7]

Pathophysiology

Development mechanisms

Lipohypertrophy develops through the combined effects of repeated mechanical trauma from subcutaneous injections and insulin's lipogenic properties, which disrupt local tissue integrity and trigger an inflammatory response contributing to adipocyte hypertrophy and hyperplasia in the affected areas.^[10] This localized injury promotes the proliferation and enlargement of fat cells, altering the subcutaneous adipose layer over time.^[2] The exact pathogenesis remains incompletely understood, with possible contributions from immunological factors such as anti-insulin antibodies.^[2] Insulin contributes significantly to this process via its lipogenic effects, enhancing glucose uptake and stimulating lipid and protein synthesis directly in adipocytes at the injection sites, thereby favoring fat storage and tissue expansion.^[2] These anabolic actions of insulin, combined with the mechanical stress, amplify the hypertrophic changes in adipose tissue.^[11] The inflammatory cascade initiated by injection-related trauma involves the release of cytokines, such as tumor necrosis factor-alpha (TNF-α), and other growth factors that drive fibroblast activation and extracellular matrix deposition, resulting in fibrotic remodeling and vascular modifications within the subcutaneous layer.^[1] Elevated TNF-α levels have been observed in individuals with lipohypertrophy, underscoring the role of chronic inflammation in sustaining these pathological changes.^[12] Prolonged exposure to these mechanisms, often spanning months with frequent injections into the same sites, culminates in fibrosis that unevenly distributes fat and forms palpable lumps, further impairing tissue function.

Tissue changes

Macroscopically, lipohypertrophy presents as rubbery, non-pitting lumps with irregular borders, often measuring 2-10 cm in diameter, which are initially painless but may become firm upon progression.^[13]^[14] These lesions consist of thickened, elastic adipose tissue that is palpable and visible, particularly on the abdomen and thighs.^[1] At the microscopic level, affected tissues exhibit increased adipocyte size and number, with up to 75% of subcutaneous tissue comprising large or very large adipocytes exceeding 70 µm in diameter, forming nests that expand into the dermal layer.^[15]^[16] These hypertrophic adipocytes are interspersed with fibrous septa and show abundant collagen deposition, contributing to interstitial fibrosis and a dense extracellular matrix.^[15] Core areas display reduced vascularity, appearing avascular with no supporting capillary network, alongside evidence of apoptosis and cellular debris.^[15] Biochemically, the lesions feature elevated local lipid accumulation within the mega-adipocytes, accompanied by altered extracellular matrix composition due to fibrosis and collagen buildup, which impairs insulin absorption by reducing peak concentration by approximately 25% and overall bioavailability.^[15]^[1] Histological studies from biopsies reveal a progression timeline beginning in an acute phase with edematous, colliquated areas containing insulin-rich fluid, transitioning to a chronic phase characterized by surrounding fibrotic streaks and persistent structural remodeling.^[15] This evolution is often triggered by mild inflammatory mechanisms, such as foreign-body-like responses to repeated injections.^[15]

Etiology and Risk Factors

Causes

Lipohypertrophy primarily arises from the repeated subcutaneous administration of insulin, which promotes localized adipose tissue proliferation through its lipogenic effects and mechanical trauma from injections.^[17] This condition affects 30-50% of long-term insulin users, with meta-analyses reporting pooled prevalence rates around 42% among people with diabetes.^[18] The direct precipitants include the anabolic action of insulin on adipocytes, leading to fat accumulation at injection sites, compounded by repeated needle punctures that induce fibrosis and inflammation.^[2] Other medications administered subcutaneously can trigger similar localized fat hypertrophy. For instance, recombinant human growth hormone injections have been associated with lipohypertrophy at administration sites in pediatric patients.^[6] Non-pharmacological contributors, such as chronic mechanical trauma from injection techniques, can exacerbate lipohypertrophy. For example, prolonged use of insulin pumps at fixed sites can lead to localized tissue changes due to continuous insulin infusion and repeated trauma.^[1] Historically, lipohypertrophy became more prevalent following the introduction of purified human recombinant insulin in the 1980s, shifting the dominant injection-site complication from lipoatrophy—common with earlier impure animal-derived insulins—to hypertrophy.^[1] This transition reflects reduced immunogenicity but increased lipogenic potential of modern formulations.^[19]

Risk factors

Lipohypertrophy is influenced by several behavioral factors related to injection practices. Repeated injections into the same site without adequate rotation, particularly for more than one year, significantly increases the risk, with a pooled odds ratio (pOR) of 8.85 (95% CI: 5.10-15.33).^[20] Improper injection technique, including the use of longer needles, has also been associated with higher prevalence, as longer needles may cause greater tissue trauma.^[21] Additionally, reusing needles contributes to the development of lipohypertrophy by increasing local trauma from dull tips, with a pOR of 3.20 (95% CI: 1.99-5.13).^[20] Patient-related factors play a key role in elevating the likelihood of lipohypertrophy. A longer duration of insulin therapy, exceeding five years, is a substantial risk, with a pOR of 2.62 (95% CI: 1.70-4.04).^[20] Higher daily insulin doses, such as greater than 0.7 units per kg body weight, remain a significant predictor even after multivariate adjustment.^[22] Obesity, defined by a BMI over 30 kg/m², further heightens the odds, particularly in overweight and obese individuals.^[20] Demographic characteristics show varied associations with lipohypertrophy risk. While sex and age are not significant overall, prevalence can be notably higher in certain ethnic or regional groups; for instance, studies in Middle Eastern populations, such as in Jordan, report rates around 55-57% among insulin-treated patients.^[23] Device-related issues, including the use of insulin pens without proper priming, can exacerbate tissue trauma and contribute to lipohypertrophy development through inconsistent dosing and increased local irritation.^[24] Furthermore, more than two daily injections per site elevates risk, with a pOR of 2.27 (95% CI: 1.58-3.25).^[20]

Clinical Features

Symptoms

Patients with lipohypertrophy often report mild aching or tenderness at the affected injection sites, which can intensify with direct pressure or during subsequent injections. This discomfort arises from the localized accumulation of adipose tissue, making the area feel firm or rubbery to the touch.^[25]^[5] Functional challenges are prominent, as the altered subcutaneous tissue leads to erratic insulin absorption, resulting in glycemic variability such as unexplained hyperglycemia or hypoglycemia. This unpredictability can necessitate higher insulin doses and complicates overall diabetes management.^[19]^[5] Cosmetic concerns frequently emerge due to the visible lumps, particularly on commonly injected areas like the abdomen or thighs, leading to self-consciousness among patients. These protrusions, which may resemble raised or thickened skin, contribute to emotional distress despite being benign.^[19]^[26] In rare instances, patients may experience localized weight gain in the affected regions or subtle systemic hints like fatigue, often indirectly linked to the resulting blood glucose fluctuations rather than the lipohypertrophy itself. No fever or other signs of systemic illness are typically reported.^[27]^[28]

Physical examination findings

During physical examination, lipohypertrophy typically presents as soft to firm, non-mobile subcutaneous nodules that are often bilateral and symmetric at common injection sites.^[29] These lesions may appear as tumor-like lumps that are visible and palpable, with a variable profile ranging from flat elevations beneath the skin to slightly protruding masses.^[30] The overlying skin is generally intact, potentially appearing stretched or shiny due to underlying tissue expansion, though ulceration or discoloration is absent unless secondary complications arise.^[30] On palpation, the nodules exhibit a rubbery or elastic consistency, reflecting the thickened adipose tissue with dense fibrous components, and are initially non-tender.^[31]^[30] Lesion size varies, commonly ranging from less than 4 cm in diameter to larger protrusions exceeding 4 cm, with smaller, flatter nodules often requiring a pinching maneuver for detection.^[29] These findings may correlate with localized tenderness upon pressure in symptomatic cases.^[30] Distribution patterns favor areas of repeated injections, with the abdomen affected in approximately 38-60% of cases, followed by the thighs (33-37%) and arms (35-42%), while sites such as the palms and soles are spared due to infrequent use.^[29]^[1] Lesions are frequently multiple, averaging about 10 per affected individual, and show a predilection for symmetry based on handedness.^[32]

Diagnosis and Differential Diagnosis

Diagnostic methods

Diagnosis of lipohypertrophy primarily relies on a thorough clinical history and physical examination, with imaging and biopsy reserved for atypical cases.^[1] The clinical history focuses on evaluating injection practices, including the duration of insulin therapy, frequency of injections, reuse of needles, and adherence to site rotation protocols, as only 48% of patients with diabetes reported receiving education on site rotation from healthcare professionals, and lack of education contributes to poor rotation habits, a key risk factor for lesion development.^[1] This assessment helps correlate the onset and progression of subcutaneous lumps with repetitive trauma from injections in the same anatomical sites, such as the abdomen, thighs, or arms.^[33] Physical examination involves systematic visual inspection and palpation of common injection sites to identify characteristic rubbery or firm subcutaneous nodules, often painless and non-mobile.^[1] Palpation techniques, such as the pinching maneuver to detect flat or subtle lesions and deep pressure to assess texture and elasticity, are essential, though studies using visual inspection and palpation have reported LH prevalence in 37% to 64% of screened individuals.^[1] Lesions may be graded based on characteristics such as visibility, consistency, size, number, and functional impact.^[34] Trained healthcare professionals achieve up to 45% higher accuracy in identifying smaller lesions (<4 cm), emphasizing the value of standardized protocols.^[1] Imaging, particularly ultrasound, serves as a complementary tool when physical exam findings are equivocal or to quantify subclinical involvement, demonstrating hypoechoic or hyperechoic fat masses with blurred tissue borders and fibrous strands in affected areas.^[1] Ultrasound is approximately 30% more sensitive than palpation alone, detecting lesions in up to 80.8% of cases compared to 61% by exam, and reveals criteria such as subcutaneous fat layer thickening (>2 mm increase) and nodular foci.^[33] Recent advances as of 2025 include diagnostic models using patient data to predict LH risk and machine learning for enhanced ultrasound detection of subclinical lesions.^[35]^[36] Magnetic resonance imaging (MRI) is rarely used but may be employed for deep or extensive involvement to differentiate from other subcutaneous pathologies.^[1] Biopsy is infrequently required and typically performed only for atypical presentations to confirm diagnosis histologically, revealing enlarged adipocytes (macro-adipocytes in about 75% of cases), fibrosis, and occasional inflammatory infiltrates without malignant features.^[1]

Differential diagnoses

Lipohypertrophy must be differentiated from lipoatrophy, which manifests as depressed, sunken areas due to localized loss of subcutaneous fat at injection sites, presenting the opposite clinical appearance to the raised, rubbery swellings of lipohypertrophy; lipoatrophy was historically more common with animal-derived insulins but has become rare with modern human insulin formulations.^[19]^[37] Infections or abscesses at insulin injection sites can mimic lipohypertrophy through the formation of subcutaneous lumps but are distinguished by signs of inflammation such as warmth, fluctuance, erythema, tenderness, and systemic symptoms including fever, often necessitating aspiration of purulent material for diagnosis.^[38]^[39] Subcutaneous tumors represent another key differential, including benign lipomas that appear as soft, mobile, nontender masses or malignant sarcomas that are typically hard, fixed, and progressively enlarging; these require biopsy for histopathological confirmation to rule out lipohypertrophy.^[40]^[41] Other conditions such as epidermal cysts, hematomas, or panniculitis may present with similar subcutaneous nodules but are differentiated primarily by clinical history—acute trauma or bleeding for hematomas and cysts versus repetitive injections for lipohypertrophy—and supportive imaging like ultrasound can help distinguish these entities.^[42]^[43]

Management

Treatment options

The primary treatment for lipohypertrophy involves rotating insulin injection sites to unaffected areas, allowing the affected sites to rest for at least two to three months to promote natural regression of the fatty deposits.^[5] This approach addresses impaired insulin absorption caused by the thickened tissue, which can lead to erratic glycemic control if injections continue in the same location.^[1] During this period, patients should use alternative sites such as the abdomen, thighs, or arms, ensuring no reuse of the hypertrophic area until visible improvement occurs, which may take several months.^[44] In conjunction with site rotation, insulin dose adjustments are essential to optimize absorption and prevent further tissue trauma from higher required doses in affected areas.^[1] Individuals with lipohypertrophy often require 25% to 30% more insulin overall due to reduced bioavailability at injection sites, so reducing the total daily dose by approximately this amount after initiating rotation can help stabilize blood glucose levels without hypoglycemia risk.^[1] Close monitoring by healthcare providers is recommended to fine-tune dosing based on glycemic response.^[45] For severe or persistent cases refractory to conservative measures, surgical interventions such as liposuction offer an effective option to remove the excess adipose tissue.^[46] Performed under local anesthesia, liposuction targets subcutaneous fat deposits that do not regress after six months or more of site avoidance, resulting in improved cosmetic appearance and insulin absorption with minimal complications.^[47] Direct surgical excision may also be considered for localized, firm lesions, though it is less commonly preferred due to potential scarring.^[5] Adjunctive therapies can support resolution, including general weight loss strategies to facilitate fat resorption, particularly in cases associated with overall obesity.^[3] A reduction of 5-10% body weight through diet and exercise has been shown to aid in diminishing hypertrophic deposits, especially when combined with site rotation.^[44] Gentle massage of the affected area may promote circulation and tissue remodeling, though evidence is anecdotal and should be guided by a clinician to avoid irritation.^[48] Ultrasound imaging is primarily diagnostic but has been explored for monitoring progress rather than direct treatment.^[49] To prevent recurrence following treatment, adherence to proper injection techniques remains crucial.^[50]

Prevention measures

Preventing lipohypertrophy primarily involves adherence to evidence-based injection protocols that minimize repetitive trauma to subcutaneous tissues. Systematic rotation of injection sites is essential, with recommendations to divide areas such as the abdomen into quadrants and alternate between them every 2-4 weeks to prevent localized fat accumulation.^[51] Similarly, sites should be spaced at least 1 cm apart within the same anatomical region, such as the abdomen, thighs, upper arms, or buttocks, to ensure even distribution of injections.^[52] Using shorter needles, specifically 4-6 mm in length for both pen devices and syringes, reduces the risk of intramuscular injection, which can exacerbate tissue damage and contribute to lipohypertrophy development.^[53] Education on proper injection technique plays a critical role in averting lipohypertrophy, particularly for individuals at risk due to repetitive injections in the same area. Patients should be instructed to clean the skin with alcohol prior to injection, insert the needle at a 90-degree angle without pinching unless necessary for very thin individuals, and alternate between upper and lower body sites to promote balanced insulin absorption.^[1] These practices, emphasized in guidelines from organizations like the American Diabetes Association, help mitigate mechanical stress on adipose tissue that arises from poor site management.^[54] Optimizing injection devices further supports prevention efforts. Needles must be changed with every injection to avoid dulling and tissue irritation, while for insulin pump users, infusion sites should be rotated every 2-3 days to prevent localized fibrosis and fat buildup.^[51] Structured rotation within an anatomical area, such as clockwise progression around the abdomen, ensures no site is reused too soon.^[55] Regular monitoring enables early detection and intervention. Patients are advised to perform self-examinations of injection sites for signs of lumps or thickening, with healthcare providers recommending periodic skin assessments, such as annually, as part of diabetes management to reinforce preventive behaviors.^[1] This proactive approach, aligned with American Diabetes Association standards, allows for timely adjustments to injection habits before lipohypertrophy manifests.^[54]

Complications

Immediate effects

Lipohypertrophy leads to erratic insulin absorption due to altered subcutaneous tissue structure, resulting in blunted and highly variable insulin pharmacokinetics compared to normal sites. Studies show intrasubject variability in insulin area under the curve (AUC) can reach 52% when injecting into lipohypertrophic tissue, versus 11% in unaffected areas, contributing to 20-50% fluctuations in blood glucose levels and episodes of hypoglycemia or hyperglycemia.^[56]^[1] Affected sites often cause local discomfort, with lumps that may feel firm or tender, and injections into these areas can exacerbate pain or irritation despite sometimes being perceived as less acutely painful due to tissue thickening. This discomfort limits viable injection sites, reducing options for rotation and potentially worsening glycemic control.^[1]^[44] The visible lumps and unpredictable glucose effects from lipohypertrophy can induce psychological distress, including anxiety over body image changes and fear of injection complications, which may reduce adherence to insulin therapy regimens. Patients report heightened emotional burden, such as frustration and self-consciousness, further impacting daily diabetes management.^[1]^[57] Poor hygiene during injections into lipohypertrophic areas raises the risk of minor infections like cellulitis, manifesting as localized redness, swelling, and warmth, though specific incidence rates vary and are generally low. Prompt recognition of these signs is essential to prevent escalation.^[40]^[1]

Long-term impacts

Lipohypertrophy, if left untreated, contributes to chronic deterioration in glycemic control among insulin-dependent diabetes patients, primarily due to fibrosis and altered subcutaneous tissue that impairs insulin absorption by 25-30%, resulting in elevated postprandial blood glucose levels up to 40% higher and increased glucose variability.^[1] This leads to persistently higher HbA1c levels, with studies showing an average increase of 0.8% in affected individuals compared to those without lipohypertrophy, often exceeding 8% and heightening the risk of long-term diabetes complications such as neuropathy, retinopathy, and cardiovascular disease.^[58]^[59] Cosmetically, untreated lipohypertrophy causes persistent tumor-like lumps and skin irregularities from adipose hyperplasia and fibrosis, which can result in permanent dimpling or asymmetry even after partial regression, as the fibrotic changes alter tissue structure irreversibly in many cases.^[2] Functionally, these hardened, elastic nodules may lead to localized discomfort and scarring that limits skin flexibility, particularly in severe thigh or abdominal sites, though widespread mobility impairment is uncommon.^[1] The economic burden of untreated lipohypertrophy is substantial, driven by increased insulin requirements—up to 24 international units per day more due to reduced absorption efficiency—leading to excess annual insulin costs estimated at approximately $500-1,000 per patient in high-resource settings, alongside higher expenditures for managing recurrent hypoglycemia and related hospitalizations.^[60] Systemically, while global insulin resistance is not conclusively linked, localized inflammation in lipohypertrophic areas elevates tumor necrosis factor-alpha levels and insulin antibody titers, potentially exacerbating peripheral insulin resistance and contributing to broader metabolic dysregulation.^[1]

Epidemiology

Prevalence

Lipohypertrophy is a common complication among individuals with insulin-treated diabetes, with a global pooled prevalence of 41.8% (95% CI 35.9–47.6%) as of 2021, derived from a meta-analysis of 45 studies encompassing over 26,000 participants.^[61] This figure highlights the substantial burden of the condition in this population, where physical examination and palpation at injection sites are typically used to detect it. Prevalence varies by diabetes type, with rates of 39.9% (95% CI 28.3–51.6%) in type 1 diabetes and 45.9% (95% CI 29.5–62.4%) in type 2 diabetes, according to the same meta-analysis.^[61] In regions characterized by limited patient education on proper injection techniques, such as parts of the Middle East and Asia, prevalence can exceed 70%, reaching up to 73.4% in some cohorts where reuse of needles and lack of site rotation are common.^[62]

Distribution

Lipohypertrophy exhibits distinct demographic patterns among insulin users, with an overall prevalence of approximately 42% in this population as of 2021.^[61] Pooled data indicate a higher prevalence in type 2 diabetes mellitus (T2DM) at 45.9% compared to 39.9% in type 1 diabetes mellitus (T1DM); however, some individual studies report the opposite trend, such as a 2020 Iranian study finding 46.4% in T1DM versus 35.8% in T2DM.^[61]^[63] Gender differences show variability, but several investigations report elevated rates in females, with one analysis finding females significantly more affected (37.3% overall prevalence, P=0.005).^[64] Age shows no consistent significant association in studies, though one Malaysian study of T2DM patients found the population peaked in the 50-59 age group (52.3% of participants), with no link to lipohypertrophy prevalence (p=0.22).^[65] Geographically, lipohypertrophy prevalence varies by region, often linked to differences in patient education and injection practices. In Asia and the Middle East, rates are generally higher, ranging from 41% to 51.6% in studies from Malaysia and Saudi Arabia, attributed to factors such as inconsistent site rotation.^[66]^[65]^[67] For instance, Iranian research reports a 37.3% prevalence, while broader Asian meta-analyses confirm 41% pooled rates.^[64] In contrast, Europe and the USA show lower figures around 30-37%, with European pooled prevalence at 37%, potentially due to more standardized diabetes education programs.^[62] Prevalence is notably elevated in low-resource settings, where limited access to education and supplies hinders proper injection techniques, exacerbating non-rotation of sites. Regarding comorbidities, obese patients (BMI >30 kg/m²) face roughly twice the risk, with odds up to 3.44 times higher.^[65]

History

Early observations

The discovery of insulin in 1921 by Frederick Banting and Charles Best revolutionized diabetes treatment, enabling subcutaneous injections that saved countless lives but also led to early reports of local skin changes at injection sites. By 1923–1926, cases of abnormal fat accumulation or loss were noted in patients receiving animal-derived insulin, with early reports primarily describing lipoatrophy due to visible depressions in subcutaneous tissue. These observations occurred shortly after the first human insulin injection in 1922, with early users experiencing localized fat alterations that were not fully understood at the time.^[68]^[69]^[70] A seminal description in 1926 by C. J. Barborka highlighted fatty atrophy from insulin injections. Early reports also began to distinguish lipohypertrophy as a hypertrophic process at injection sites. Early misconceptions attributed these changes to impurities in animal insulin preparations, including proteins from bovine or porcine sources that triggered local immune responses or direct lipogenic effects. By the 1930s, lipohypertrophy was recognized as a common complication, particularly those with repeated injections in the same area without rotation.^[70]^[71] Initial management strategies emerged in the 1940s, emphasizing rotation of injection sites to prevent further accumulation and improve insulin absorption, though formal guidelines were absent and the condition persisted due to limited understanding of its mechanisms. These early observations laid the foundation for later research into injection techniques, but misconceptions about insulin purity delayed more effective interventions.^[72]^[73]

Modern understanding

The introduction of recombinant human insulin in the 1980s represented a pivotal advancement in diabetes management, largely eliminating the immune-mediated lipoatrophy previously seen with animal-derived insulins at rates of 10–55%. However, this purer formulation shifted the predominant complication toward lipohypertrophy, with prevalence rising to 34–49% among insulin-treated patients, primarily due to insulin's lipogenic effects and repeated injections into the same sites without adequate rotation. During this period, lipohypertrophy also emerged as a component of lipodystrophy syndromes in patients on antiretroviral therapy for HIV.^[74]^[75] During the 2000s and 2010s, key meta-analyses solidified understanding of lipohypertrophy's prevalence and underlying mechanisms, estimating pooled rates at 38% overall, with similar rates of approximately 40% in both type 1 and type 2 diabetes, driven by a combination of insulin's anabolic stimulation of adipocytes and mechanical tissue trauma from improper injection techniques. These investigations also quantified the economic burden, revealing that lipohypertrophy necessitated 20–30% higher insulin doses, contributing to annual healthcare costs exceeding €2,000 per patient in regions like China due to worsened glycemic control and increased hypoglycemia events.^[75]^[58]^[76] In the 2020s, emphasis has grown on technological and educational interventions to mitigate lipohypertrophy, including smart insulin pens that monitor injection sites and dosing patterns to enforce rotation, alongside structured training programs. Multicenter studies demonstrate these approaches can reduce lipohypertrophy prevalence by 50% or lead to complete resolution in many cases, while also lowering insulin needs by up to 14 units daily. Concurrent research is probing genetic factors, such as variations influencing anti-insulin antibody formation and adipose tissue response, to identify at-risk individuals beyond behavioral contributors.^[77]^[78]^[2] Contemporary guidelines from the American Diabetes Association (ADA) and European Association for the Study of Diabetes (EASD), updated in 2022, explicitly mandate systematic injection site rotation every 2–3 cm within anatomical regions to prevent lipohypertrophy, integrating this with routine screening in clinical practice. A 2021 centennial review of insulin therapy's history further highlighted the complication's enduring presence despite formulation improvements, advocating sustained focus on patient education and device innovations to address its metabolic and financial toll.^[79]

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Nov 2, 2017 · Our aim is to estimate the prevalence of LH among insulin-treated patients, to identify its association with errors in insulin injection technique and storage.
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Are People With Type 1 Diabetes Mellitus Appropriately Following ...
Jan 1, 2024 · LH can be associated with pain, bleeding, and bruising at the injection site, especially due to the reuse of needles and poor rotation.Missing: concerns | Show results with:concerns
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Diabetes Related Common Terms | ADA
Buildup of fat below the surface of the skin, causing lumps. Lipohypertrophy may be caused by repeated injections of insulin in the same spot.
[29]
Insulin-induced Lipohypertrophy in a Patient with Type 2 Diabetes
Lipohypertrophy (LH) is a common side effect of insulin treatment in ... fatigue, and frequent hypoglycemic episodes. Upon examination, LH with skin ...
[30]
Lipohypertrophy in Individuals with Type 2 Diabetes - NIH
Jun 1, 2018 · Hypoglycemia: Defined as presence of one or more symptoms associated with hypoglycemia (palpitations, fatigue ... Lipohypertrophy: Lipohypertrophy ...
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Insulin-Induced Lipohypertrophy | New England Journal of Medicine
Jun 19, 2024 · Insulin-induced lipohypertrophy is a type of localized lipodystrophy that results from repeated subcutaneous injections at the same site.Missing: idiopathic | Show results with:idiopathic
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Missed Diagnosis of Lipohypertrophy by Inspection and Palpation
Jun 30, 2020 · There is a high false-negative rate for lipohypertrophy diagnosis on physical examination in patients with type 1 or type 2 diabetes.<|control11|><|separator|>
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59-LB: Prevalence and Risk Factors of Lipohypertrophy and ...
Jun 1, 2019 · The degree of lipohypertrophy was classified as follows: grade 0 = no change; grade 1 = visible hypertrophy of fat tissue but with normal ...
[36]
View of Insulin induced lipodystrophy | British Journal of Diabetes
Lipohypertrophy is thought to be the direct anabolic effect of insulin on local skin leading to fat and protein synthesis9 and hence this is observed even with ...
[37]
Image Challenge | The New England Journal of Medicine
Aug 3, 2017 · Abscess. Abscess. Abscess. Try again! That is not the correct answer. 2 ... Insulin-induced lipohypertrophy. Insulin-induced ...
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Dec 11, 2013 · [2] Areas of focal lipohypertrophy can be mistaken for an abscess, particularly when associated with scarring. Patients may prefer to place ...
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Apr 25, 2025 · Lipohypertrophy is a medical condition characterized by the abnormal accumulation of fat in specific areas of the body.Lipohypertrophy - Causes... · Causes And Risk Factors · Diagnosis
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Lipomas, Lipoma Variants, and Well-Differentiated Liposarcomas ...
Well-differentiated liposarcoma should be considered in the differential diagnosis of a grossly fatty mass that does not meet these criteria. In our series, ...
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Aug 16, 2024 · Panniculitis is a broad term for conditions resulting from inflammation of the subcutaneous fat, which can be due to infection, trauma, ...
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Lipodystrophies are conditions that involve the loss of body fat, in particular subcutaneous adipose tissue in the absence of malnutrition or a catabolic state.
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What Is Lipohypertrophy? Symptoms, Treatments, and More - WebMD
Jul 11, 2025 · Lipohypertrophy is when lumps of fat or scar tissue form under your skin. It is caused by repeat injections or infusions in the same area of the body.
[44]
Relationship Between Lipohypertrophy, Glycemic Control, and ...
Lipohypertrophy is a common complication in patients with diabetes treated with insulin therapy. Several risk factors for developing lipohypertrophy among ...Missing: causes | Show results with:causes
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Impact of ultrasound‐diagnosed lipohypertrophy subtypes on insulin ...
Apr 2, 2025 · Physicians can provide individualised insulin dose adjustment for patients with type 1 diabetes after avoiding injection at different subtypes ...
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Severe insulin-induced lipohypertrophy successfully ... - PubMed
Conclusions: Liposuction surgery could be useful in patients with diabetic lipohypertrophy who do not respond to more conservative treatments.
[47]
Insulin-Induced Lipohypertrophy Treated With Liposuction
Aug 30, 2023 · The use of liposuction to treat insulin-induced lipohypertrophy is a safe and effective procedure that achieves improved cosmetics with high patient ...Missing: surgical | Show results with:surgical
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Lipohypertrophy Treatment At Home: Several Tips And More
Can You Massage Lipohypertrophy? Yes, gentle massage can be beneficial in the management of lipohypertrophy. However, it must be done with caution. Massage can ...What Is Lipohypertrophy? · What Are Some... · Rotate Injection Sites
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Mar 20, 2024 · This study aims to investigate the clinical application value of high-frequency ultrasound technology in diagnosing subcutaneous lipohypertrophy at insulin ...Missing: loss | Show results with:loss
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These lesions, called “lipohypertrophy” (LH or colloquially “lipos”), are not malignant and do not behave like tumors, but they can be unsightly and worrisome ...
[51]
The Injection Technique Factor: What You Don't Know or Teach Can ...
Injection sites should be rotated systematically to prevent lipohypertrophy, which also substantially affects insulin uptake and action.
[52]
Advance Insulin Injection Technique and Education With FITTER ...
Insulin should be injected at least 1 cm from previous injection sites (approximately the width of one adult finger), rotating in a consistent direction. If a ...
[53]
The Injection Technique Factor: What You Don't Know or Teach Can ...
Jul 1, 2019 · Needles that are 12.7 mm in length are not recommended for any patients, and patients who are using 8-mm needles should be switched to shorter ...
[54]
9. Pharmacologic Approaches to Glycemic Treatment: Standards of ...
Dec 9, 2024 · Injection or infusion site rotation is additionally necessary to avoid lipohypertrophy, an accumulation of subcutaneous fat in response to the ...
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The infusion set must be replaced and rotated every 2-3 days. Establish a rotation schedule that best fits your needs. With experience, you will find areas that ...Missing: frequency | Show results with:frequency
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Jul 13, 2016 · Insulin absorption and action are blunted and considerably more variable with LHT injection, leading to profound deterioration in postprandial ...
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Anxiety and Body Image Distress in a Type 1 Diabetes Patient With ...
Dec 6, 2024 · Studies indicate that patients with lipodystrophy face significant emotional challenges, including anxiety, depression, and a distorted body ...Missing: adherence | Show results with:adherence
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Insulin-Related Lipohypertrophy: Lipogenic Action or Tissue Trauma?
Lipohypertrophy has been suggested as an outcome of lipogenic action of insulin and/or injection-related tissue trauma. In a cross-sectional study, ...
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burden of lipohypertrophy among insulin dependent diabetes ...
Sep 1, 2018 · Total cost of excess insulin consumption adjusted for adherence was estimated to be $313 million 2015 USD. Conclusions. LH widespread ...Missing: extra | Show results with:extra
[60]
The Economic Burden of Insulin Injection-Induced Lipohypertophy ...
Mar 19, 2022 · Lipohypertrophy (LH) is a complication affecting almost 50% of insulin-treated patients and is responsible for poor metabolic control and ...
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Prevalence, Risk Factors, and Clinical Characteristics of Lipodystroph
Nov 26, 2020 · The prevalence of lipohypertrophy (LH) in overall patients was 37.3% (T1DM 46.4% and T2DM 35.8%). The highest prevalence (57.5%) was observed in ...
[64]
Prevalence of Lipohypertrophy and Associated Risk Factors in ...
Objectives: This study was conducted to estimate the prevalence of LH among insulin-treated patients with Patients with T2DM, to identify the risk factors ...
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Lipohypertrophy prevalence and its associated risk factors in insulin ...
Lipohypertrophy (LH) is a common complication among insulin-treated diabetic patients (Pozzuoli et al., 2018) as a result of the lipogenic action of insulin or ...<|control11|><|separator|>
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Prevalence of lipohypertrophy in insulin‐treated diabetes patients: A ...
Sep 1, 2017 · Lipohypertrophy (LH) is a common complication of insulin therapy. It has been reported that patients with LH have an almost sixfold higher ...
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The prevalence of lipohypertrophy and its associated factors among ...
The most common site of injection used by our study population was the thigh, followed by the abdomen. Hajheydari et al. and Nasser et al. also found no ...
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Risk factors for Lipohypertrophy in People With Insulin-Treated ...
Mar 20, 2025 · This systematic review with meta-analysis revealed that incorrect injection site rotation and needle reuse are the most substantial factors in developing ...
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The Discovery of Insulin: An Important Milestone in the History of ...
Oct 23, 2018 · The discovery of insulin has been a milestone and has truly revolutionized both the therapy and the prognosis of the diabetes.
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First Human Insulin Injection to Treat Diabetes
In January 1922, 14-year-old Leonard Thompson became the first person to ever receive a successful insulin injection as treatment for diabetes in Toronto.
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FATTY ATROPHY FROM INJECTIONS OF INSULIN - JAMA Network
I am reporting here two cases of unusual localized subcutaneous fatty atrophy at the sites of insulin injections which have been observed recently in the Mayo ...Missing: hypertrophy 1920s
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the introduction of insulin treatment in Britain 1922-1926 - PubMed
This paper charts the introduction of insulin in England and examines its effects on medical practice. Before 1922 there were few effective drugs and only ...Missing: lipohypertrophy | Show results with:lipohypertrophy
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Why We Rotate Insulin Injections - Children with Diabetes
Sep 13, 2022 · To help prevent lipodystrophies, rotate the places you inject or infuse insulin in a pattern. Many people will go back and forth from their left ...Missing: frequency | Show results with:frequency
[74]
Impaired Absorption of Insulin Aspart From Lipohypertrophic ...
Aug 1, 2005 · Lipohypertrophy is a common side effect of subcutaneous insulin therapy, occurring in up to 50% of patients with type 1 diabetes (1–3).Missing: incidence | Show results with:incidence
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An Old Problem in a New Era of Modern Insulin
Nov 26, 2020 · Our present study confirms previous findings from a recent meta-analysis that the prevalence of lipohypertrophy was a common complication in ...
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Prevalence of lipohypertrophy in insulin‐treated diabetes patients
We found that the prevalence of LH ranged from 1.9% to 73.4%, and the overall prevalence was 38% (95% CI 29–46%). Subgroup analysis revealed some interesting ...
[77]
Lipohypertrophy in China: Prevalence, Risk Factors, Insulin ...
Jan 1, 2017 · LH is common in China and associated with worse glycemic control, despite nearly one-third greater insulin consumption, with large cost implications.Missing: extra | Show results with:extra
[78]
An Effective Intervention for Diabetic Lipohypertrophy: Results of a ...
Nov 1, 2017 · Abstract Background: Lipohypertrophy (LH) is highly prevalent and is potentially harmful to insulin-injecting patients.
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[PDF] Lipohypertrophy and Insulin: An Update From the Diabetes ...
They received a comprehensive educational inter- vention and were switched to using 4-mm needles. In the end, there was a reported 50% reduction or complete ...
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Hundred-year experience with insulin and lipohypertrophy
Such a history lasted 100 years, from the discovery of insulin to the most technologically advanced technologies aimed at making treatment as close to ...