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| ID | Type | Description | Link |
|---|---|---|---|
| 1R01HL157378-01 | U.S. NIH Grant/Contract | View source | |
| 210181 | Other Identifier | Vanderbilt University Medical Center |
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| Name | Class |
|---|---|
| National Heart, Lung, and Blood Institute (NHLBI) | NIH |
| Vanderbilt University Medical Center | OTHER |
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This work will address clinical unmet needs for patients with lipedema using advanced magnetic resonance imaging (MRI) methods, in sequence with portable clinical tools, by testing fundamental hypotheses regarding potential screening methods, lymphatic therapy, and vascular dysfunction in patients with lipedema.
Lipedema is a disease marked by disproportionate subcutaneous adipose tissue (SAT) accumulation in the lower extremities that is accompanied by somatic pain and edema. Importantly, lipedema is commonly misdiagnosed as obesity and has been estimated to affect a high 11% of women. However, symptoms are refractory to diet, exercise, and other interventions for obesity leading to a mean delayed diagnosis of 22 years, high physical morbidity, and lifelong distress. Despite growing awareness of lipedema as a distinct clinical entity and a recent call to action for lipedema research, fundamental gaps persist in knowledge regarding both disease mechanisms and treatment options for this debilitating disease.
Over the past four years, multi-disciplinary study from investigators in radiology, vascular medicine, and physical therapy has demonstrated that lipedema has distinct characteristics from obesity. Using whole-body fat-and-water MRI, lipedema is characterized by a 42% higher lower-extremity SAT deposition compared to BMI-matched females without lipedema (p<0.001). Using noninvasive sodium MRI technologies, skin sodium is also elevated in patients with lipedema compared to controls (14.9±2.9 vs. 11.9±2.0 mmol/L, p=0.01) in the lower extremities, but not upper extremities. Importantly, skin sodium decreases following 6-weeks of lymphatic stimulation by complete decongestive therapy (CDT) in preliminary study of patients with lipedema. These tissue signatures are consistent with those of patients with known lymphatic insufficiencies (i.e., secondary lymphedema). Recent findings of elevated arterial perfusion and inflammatory profiles in lipedema raise significant questions about how blood and lymphatic circulation are involved in lipedema.
The critical barrier to interrogating these systems, and more broadly addressing clinical unmet needs for evidence-based therapies for patients with lipedema, is that noninvasive lymphatic imaging strategies are traditionally underdeveloped. To address this barrier, non-tracer based MR lymphangiography is capable of visualizing lymphatic dilation and stasis in unilateral lymphedema, and similar features of lymphatic insufficiency are observed in the lower extremities of patients with lipedema.
This study will apply these MRI tools together with standard clinical tools to test the following hypotheses:
Hypothesis 1A: Ultrasound can be used as an accessible alternative to MRI for measuring subcutaneous fat deposition to distinguish lipedema from obesity.
Hypothesis 1B: Ultrasound measurement of fat deposition together with bedside tools for measuring water deposition have improved ability than ultrasound alone for distinguishing lipedema from controls.
Hypothesis 2: Tissue sodium is reduced following CDT in the lower extremities, but not in the untreated upper extremities, of patients with lipedema consistent with improved patient-reported outcomes.
Hypothesis 3: Lymphatic flow velocity is reduced, while arterial blood flow is elevated, in the legs of patients with lipedema compared to controls.
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| Label | Type | Description | Intervention Names |
|---|---|---|---|
| Participants pre CDT |
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| Controls |
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| Participants post CDT |
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| Measure | Description | Time Frame |
|---|---|---|
| Change in tissue sodium content: quantification of tissue sodium content in treated limbs following the completion of therapy | Tissue sodium content (mmol/L) quantified by sodium MRI | at baseline and approximately 6 weeks later |
| Change in lymphedema severity: quantification of lymphatic stasis in treated limbs following the completion of therapy | Lymphatic stasis area (mm^2) quantified by MR lymphangiography | at baseline and approximately 6 weeks later |
| Baseline tissue sodium content: quantification of tissue sodium in affected limbs | Tissue sodium content (mmol/L) quantified by sodium MRI | At baseline |
| Baseline lymphedema severity: quantification of lymphatic stasis in affected limbs | Lymphatic stasis area (mm^2) quantified by MR lymphangiography | At baseline |
| Change in limb extracellular water: quantification of limb extracellular water in treated limbs following the completion of therapy | Limb extracellular water (Ohms) estimated by bioimpedance spectroscopy | at baseline and approximately 6 weeks later |
| Change in skin water: quantification of skin water in treated limbs following the completion of therapy | Skin water (percent) estimated by tissue dielectric probe | at baseline and approximately 6 weeks later |
| Change in skin elasticity: quantification of skin elasticity in treated limbs following the completion of therapy |
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Inclusion Criteria:
Exclusion Criteria:
Also excluded are subjects incapable of giving informed written consent:
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Study Population:
The investigators will recruit adults with and without lipedema
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| Name | Affiliation | Role |
|---|---|---|
| Rachelle Crescenzi, PhD | University of Virginia | Principal Investigator |
| Facility | Status | City | State | ZIP | Country | Contacts |
|---|---|---|---|---|---|---|
| University of Virginia | Charlottesville | Virginia | 22903 | United States |
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| ID | Term |
|---|---|
| D065134 | Lipedema |
| D005355 | Fibrosis |
| ID | Term |
|---|---|
| D003240 | Connective Tissue Diseases |
| D017437 | Skin and Connective Tissue Diseases |
| D010335 | Pathologic Processes |
| D013568 | Pathological Conditions, Signs and Symptoms |
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Blood and urine samples obtained during the course of this research will be aliquoted, de-identified and stored in freezers for future analysis.
Skin elasticity (Newtons) quantified by fibrometer |
| at baseline and approximately 6 weeks later |
| Baseline limb extracellular water: quantification of limb extracellular water in affected limbs | Limb extracellular water (Ohms) estimated by bioimpedance spectroscopy | At baseline |
| Baseline skin water: quantification of skin water in affected limbs | Skin water (percent) estimated by tissue dielectric probe | At baseline |
| Baseline skin elasticity: quantification of skin elasticity in affected limbs | Skin elasticity (Newtons) quantified by fibrometer | At baseline |