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In vivo measurements in 26 female patients with lipedema and cellulite parameters were carried out before and after therapy by means of complex physical decongestive therapy (CPDT) including manual lymph drainage and compression as main components and/or shock wave therapy (SWT). Oxidative stress parameters of blood serum and biomechanic skin properties/smoothening of dermis and hypodermis surface were evaluated. Oxidative stress in lipedema and cellulite was demonstrated by increased serum concentrations of malondialdehyde (MDA) and plasma protein carbonyls compared with healthy control persons. Both MDA and protein carbonyls in blood plasma decreased after serial shock wave application and CPDT. The SWT itself and CPDT itself lead to MDA release from edematous tissue into the plasma. Obviously both therapy types, SWT and CPDT, mitigate oxidative stress in lipedema and cellulite. In parallel SWT improved significantly the biomechanic skin properties leading to smoothening of dermis and hypodermis surface. Significant correlation between MDA depletion of edematous and lipid enriched dermis and improvement of mechanic skin properties was demonstrated. From these findings it is concluded, that a release of lipid peroxidation (LPO) products from edematous dermis is an important sclerosis-preventing effect of SWT and/or CPDT in lipedema and cellulite. Expression of factors stimulating angiogenesis and lymphangiogenesis such as VEGF was not induced by SWT and/or CPDT and, therefore, not involved in beneficial effects by SWT and/or CPDT.

Aim: In pathophysiology of lipoedema, almost exclusively seen in women, lymphatic insufficiency might play a significant role. However, little is known about the pathophysiology of these abnormal localized depositions of body fat. We studied the involvement of the lymphatic system in lipoedema of the type Allen-Hines as well as of Typus Rusticanus Moncorps. Patients, methods: The standard (epifascial pathway) and a modified method (subcutaneous pathway) of lymphoscintigraphy was carried out with 28 patients suffering from lipoedema. Uptake percentages normalized to the injected dose were used as functional quantitative parameters. Visual assessment of both studies were done and scored. Patients with oedema of the legs because of venous insufficiency (Widmer stage II) served as a control group. Results: All patients of the control group and all patients with lipoedema of Typus Rusticanus Moncorps showed a normal standard lymphoscintigraphic study by visual scoring as well as by quantitative outcome. Lymph transport from the subcutaneous fat tissue was significant higher (p <0.012) in the group of patients with lipoedema diagnosed as type Allen-Hines than in Typus Rusticanus Moncorps. Conclusion: Epifascial lymph drainage in patients with lipoedema is not significantly disturbed. However, subcutaneous lymphatic drainage significantly differed in patients with lipoedema of type Rusticanus Moncorps in comparison with type AllenHines hinting at a differing lymphatic pathophysiology.

PURPOSE: To evaluate the accuracy of computed tomography (CT) scan imaging in distinguishing lymphedema from deep venous thrombosis (DVT) and lipodystrophy (lipedema) in patients with swollen legs. MATERIAL AND METHODS: CT scans of the lower limbs were performed in 55 patients with 76 swollen legs (44 lymphedemas, 12 DVT and 20 lipedemas). Thirty-four normal contralateral legs were also similarly evaluated. Primary lymphedema was verified by lymphography or lymphoscintigraphy, whereas secondary lymphedema was documented by a typical clinical history. DVT was established by ultrasound Doppler imaging. The diagnosis of lipedema was made with bilateral swollen legs where lymphoscintigraphy and Doppler examination were both unremarkable. Qualitative CT analysis was based on skin thickening, subcutaneous edema accumulation with a honeycombed pattern, and muscle compartment enlargement. RESULTS: Sensitivity and specificity of CT scan for the diagnosis of lymphedema was 93 and 100%, respectively; for lipedema it was 95 and 100%, respectively; andfor DVT it was 91 and 99%, respectively. Skin thickening was found in 42 lymphedemas (95%), in 9 DVT (75%), and in 2 lipedemas (16%). Subcutaneous edema accumulation was demonstrated in 42 legs (95%) with lymphedema and in 5 (42%) with DVT but in none with lipedema. A honeycombed pattern was present only in lymphedema (18 legs or 41%); muscle enlargement was present in all patients with DVT, in no patient with lipedema, and in 4 (9%) with lymphedema. CONCLUSION: Edema accumulation is readily demonstrated with plain CT scan and is not present in lipedema. Specific CT features of the subcutaneous fat and muscle compartments allow accurate differentiation between lymphedema and DVT.

"Lipedema," a special form of obesity syndrome, represents swelling of the legs due to an increase of subcutaneous adipose tissue. In 12 patients with lipedema of the legs and in 12 healthy subjects (controls), fluorescence microlymphography was performed to visualize the lymphatic capillary network at the dorsum of the foot, at the medial ankle, and at the thigh. Microaneurysm of a lymphatic capillary was defined as a segment exceeding at least twice the minimal individual diameter of the lymphatic vessel. In patients with lipedema, the propagation of the fluorescent dye into the superficial lymphatic network of the skin was not different from the control group (p > 0.05). In all 8 patients with lipedema of the thigh, microaneurysms were found at this site (7.9 +/- 4.7 aneurysms per depicted network) and in 10 of the 11 patients with excessive fat involvement of the lower leg, multiple microlymphatic aneurysms were found at the ankle region. Two obese patients showed lymphatic microaneurysms in the unaffected thigh and in only 4 patients were microaneurysms found at the foot. None of the healthy controls exhibited microlymphatic aneurysms at the foot and ankle, but in one control subject a single microaneurysm was detected in the thigh. Multiple microlymphatic aneurysms of lymphatic capillaries are a consistent finding in the affected skin regions of patients with lipedema. Its significance remains to be elucidated although its occurrence appears to be unique to these patients.

The role of operative management of "symptomatic" varicose veins in patients with lower extremity lymphedema or lipedema is controversial. We reviewed the clinical outcome of 261 patients between 1989-1997 at the Földiclinic with lower extremity lymphedema (68 patients), lipo-lymphedema or lympho-lipedema (103 patients) or lipedema (90 patients) who had undergone operation for varicose veins. In each group, the results were dismal as leg swelling worsened or was unchanged in greater than 90% whereas symptoms such as heaviness, fatigue, cramps (termed varicogenic symptomatology) were improved in less than 10%. These findings support that operations for varicose veins in the legs of patients with lymphedema, lipedema, or combinations of these disorders should be undertaken only if there is an absolute indication present (ascending phlebitis and/or bleeding). Otherwise, complete decongestive physiotherapy is still the best treatment approach for these groups of patients.

In order to develop further the criterias of the ultrasonographic diagnosis of the lip- and lymphedema, also in the demarcation of the phlebedema, we examined 100 patients in our practice. In addition to the specific “sonomorphology”of the lip- and lymphedema we found a different reaction of the subcutaneous tissue of the lower leg in painful and not painful lipedemas examined with compression-sonography. A more precise demarcation of the cutis from the subcutis was made possible with a new 13 MHz linear probe. The spontaneous painful lipedema shows a thickened subcutis with increased echogenity and is only compressible at 10 to 20 percent, while the not painful lipedema is compressible at about 50 percent. In patients with lymphedema the typical echoless gaps showed no colour coding and were also not compressible. Especially because of the low time needed, the non-invasive method and the lack of radiation the ultrasonographic description, measurement and compression of the subcutaneous tissue of the lower leg is useful for diagnosis, the objective control of therapeutic strategies and the estimation of the clinical symptoms – especially in cases of lipedema – and also for the etiology – especially in cases of lymphedema. The sonography is superior to the clinical examination and should be the second step in diagnosis of all nonsystemic forms of edemas of the legs.

The anatomical and functional status of the epifascial and subfascial lymphatic compartments was analyzed using two compartment lymphoscintigraphy in five groups of patients (total 55) with various forms of edema of the lower extremities. Digital whole body scintigraphy enabled semiquantitative estimation of radiotracer transport with comparison of lymphatic drainage between those individuals without (normal) and those with leg edema by calculating the uptake of the radiopharmaceutical transported to regional lymph nodes. A visual assessment of the lymphatic drainage pathways of the legs was also performed. In patients with cyclic idiopathic edema, an accelerated rate of lymphatic transport was detected (high lymph volume overload or dynamic insufficiency). In those with venous (phlebo) edemas, high volume lymphatic overload (dynamic insufficiency) of the epifascial compartment was scintigraphically detected by increased tracer uptake in regional nodes. In patients with deep femoral venous occlusion (post-thrombotic syndrome). subfascial lymphatic transport was uniformly markedly reduced (safety valve lymphatic insufficiency). On the other hand, in the epifascial compartment, lymph transport was accelerated. In those patients with recurrent or extensive skin ulceration, lymph transport was reduced. Patients with lipedema (obesity) scintigraphically showed no alteration in lymphatic transport. This study demonstrates that lymphatic drainage is notably affected (except in obesity termed lipedema) in various edemas of the leg. Lymphatic drainage varied depending on the specific compartment and the pathophysiologic mechanism accounting for the edema. Two compartment lymphoscintigraphy is a valuable diagnostic tool for accurate assessment of leg edema of known and unknown origin.

The anatomical and functional status of the epifascial and subfascial lymphatic compartments was analyzed using two compartment lymphoscintigraphy in five groups of patients (total 55) with various forms of edema of the lower extremities. Digital whole body scintigraphy enabled semiquantitative estimation of radiotracer transport with comparison of lymphatic drainage between those individuals without (normal) and those with leg edema by calculating the uptake of the radiopharmaceutical transported to regional lymph nodes. A visual assessment of the lymphatic drainage pathways of the legs was also performed. In patients with cyclic idiopathic edema, an accelerated rate of lymphatic transport was detected (high lymph volume overload or dynamic insufficiency). In those with venous (phlebo) edemas, high volume lymphatic overload (dynamic insufficiency) of the epifascial compartment was scintigraphically detected by increased tracer uptake in regional nodes. In patients with deep femoral venous occlusion (post-thrombotic syndrome). subfascial lymphatic transport was uniformly markedly reduced (safety valve lymphatic insufficiency). On the other hand, in the epifascial compartment, lymph transport was accelerated. In those patients with recurrent or extensive skin ulceration, lymph transport was reduced. Patients with lipedema (obesity) scintigraphically showed no alteration in lymphatic transport. This study demonstrates that lymphatic drainage is notably affected (except in obesity termed lipedema) in various edemas of the leg. Lymphatic drainage varied depending on the specific compartment and the pathophysiologic mechanism accounting for the edema. Two compartment lymphoscintigraphy is a valuable diagnostic tool for accurate assessment of leg edema of known and unknown origin.

METHODS: Twenty-four healthy subjects and 16 patients with lymphedema and lipedema were studied with MRI and ultratomography. RESULTS: In chronic lymphedema, ultrasonography revealed a statistically significant increase of the subcutaneous fat without difference in skin thickness as compared to the healthy subjects. MRI revealed in lymphedema a statistically significant increase of skin thickness + subcutaneous tissue + muscular mass (p = 0.048); in lipedema, a statistically significant increase of skin thickness and subcutaneous tissue (p < 0.0001) as compared to the healthy controls. CONCLUSIONS: MRI offers strong qualitative and quantitative parameters in the diagnosis of lymphedema and lipolymphedema, while ultrasonography is expected to improve its diagnostic efficiency with the aid of high frequency echo with more sophisticated resolution apparatus. Age, weight and height of the patient as well as duration of the disease do not seem to affect the above-mentioned parameters.

15% of the patients of a special clinic for lymphological diseases had a lipedema. In 97% it was located in the legs and in 31% also in the arms. In 66% it was located only in the legs and in 3% only in the arms. Combinations of lipedema of the leg with phlebedemas have been seen in 2% and with a lymphedema in 1%. The differential diagnosis to lipohypertrophy, adiposis and lymphedema is given. The therapy with liposuction and physical therapy of edema, combination of manual lymphatic drainage and compression, will be discussed.

Lipoedema is a common but infrequently recognized condition causing bilateral enlargement of the legs in women. Although generally considered to be the result of an abnormal deposition of subcutaneous fat with associated oedema, the precise mechanisms responsible for oedema formation have yet to be fully established. In order to evaluate the possible role of lymphatic or venous dysfunction in the pathogenesis of lipoedema, 10 patients were investigated by photoplethysmography (venous function) and quantitative lymphoscintigraphy (lymphatic function). The results were compared with those from patients with primary lymphoedema and those from healthy volunteers. The results demonstrated minor abnormalities of venous function in only two patients. One patient had moderately impaired lymphatic function in both legs and seven patients had a marginal degree of impairment in one or both legs. However, in none of these cases did the impairment attain the low levels seen in true lymphoedema. Lipoedema appears to be a distinct clinical entity best classified as a lipodystrophy rather than a direct consequence of any primary venous or lymphatic insufficiency.

Lipedema is a chronic vascular disease almost exclusively of female sex, characterized by the deposit of fat on the legs, with an "Egyptian column" shape, orthostatic edema, hypothermia of the skin, alteration of the plantar support, and negativity of Stemmer's sign. The etiology and pathogenesis of this disease are still the object of study, and therapy is very difficult. Various authors have described morphologic and functional alterations of prelymphatic structures and of lymphatic vessels. The big veins remain untouched in the phlebograms and an alteration of the skin elasticity is demonstrated. The present authors have studied by dynamic lymphoscintigraphy 12 women patients suffering from lipedema, and compared the results with those of 5 normal subjects and 5 patients suffering from idiopathic lymphedema who were sex and age matched with the patients suffering from lipedema. The patients suffering from lipedema showed an abnormal lymphoscintigraphic pattern with a slowing of the lymphatic flow that presented some analogies to the alterations found in the patients suffering from lymphedema. A frequent asymmetry was also noticed in the lymphoscintigraphic findings that is in contrast to the symmetry of the clinical profile.

PURPOSE: Lymphoscintigraphy has emerged as the diagnostic test of choice in patients with suspected lymphedema. To assess the lymphatic circulation of 386 extremities in 188 patients, we prospectively recorded a semiquantitative index of lymphatic transport in addition to visual evaluation of lymphoscintigraphy image patterns. METHODS: Sixty-one male and 127 female patients were studied (mean age 48 years, range 13 to 87 years). Twenty had upper extremity swelling, and 168 had lower extremity swelling. The disease was bilateral in 60 patients. Lymphoscintigraphy was performed by injecting a mean of 503 microCi of technetium 99m-antimony trisulfide colloid subcutaneously into the second interdigital space of the extremity. Time for transport to regional lymph nodes, appearance of lymph vessels and nodes and distribution pattern were scored. These scores were compiled into a modified Kleinhans transport index (TI). To assess the venous circulation, 155 patients underwent evaluation of the venous system by impedance plethysmography, ultrasonography, or contrast venography. RESULTS: The mean TI (+/- SEM) in 79 asymptomatic extremities was 2.6 +/- 0.5, with 66 (83.5%) demonstrating normal lymphoscintigraphy pattern (TI < 5). Patients with clinical diagnosis of lymphedema (n = 124) had a mean TI of 23.8 +/- 1.5; 81.5% of these were greater than 5. Fifty-six patients (30%) had primary and 68 (36%) had secondary lymphedema. (TI of 26 +/- 3.5 and 22.1 +/- 1.9, respectively, p = NS). Patients without any lymphatic transport (TI of 45) were more likely to have cellulitis in their history (p < 0.05). Contrast lymphangiography in six patients correlated with lymphoscintigraphy. Sixty-four patients (34%) had swelling without lymphedema (venous edema, cardiac edema, lipedema, etc.; TI of 1.9 +/- 0.4, p < 0.001). Of the 41 patients with abnormal venous studies, 18 (44%) had an elevated TI. CONCLUSIONS: Semiquantitative evaluation of the lymphatic transport with lymphoscintigraphy reliably depicts abnormalities in the lymphatic circulation. Lymphoscintigraphy excluded lymphedema as a cause of leg swelling in one third of our patients.

Edemas of the leg sometimes pose problems for diagnosis. Invasive procedures like lymphography or phlebography are either difficult to perform or might endanger the lymphatics. The value of magnetic resonance imaging was assessed in 20 patients with lymphedema, lipedema and phlebedema. Images of patients with lipedema showed homogenous enlarged subcutaneous tissue. In lymphedema a honeycomb pattern in the subcutaneous tissue was observed; in phlebedema there was an increase of fluid within the muscle. Magnetic resonance imaging is useful in differentiating lymphedema, lipedema or phlebedema.

Microlymphatics of human skin form two superposed networks. The superficial one located at the level of dermal papillae may be visualized by fluorescence microlymphography. Microlymphatics fill from a subepidermal depot of minute amounts of FITC-dextran 150,000. In primary lymphedema with late onset the depicted network with vessels of normal size is significantly larger than in healthy controls, whereas in congenital lymphedema (Milroy's disease) microlymphatics are aplastic or ectatic (diameter > 90 microns). Lymphatic microangiopathy with obliterations of microvessels develops in chronic venous insufficiency, in lipedema (preliminary results) and after recurrent erysipelata. In healthy controls microlymphatics are permeable to FITC-dextran 40,000 and impermeable to the larger molecule 150,000. Preserved fragments of the network in chronic venous insufficiency exhibit increased permeability to FITC-dextran 150,000. After visualization of the vessels by the fluorescent dye microlymphatic pressure may be measured by the servo-nulling technique. First results indicate that microlymphatic hypertension contributes to edema formation in patients with primary lymphedema.

The authors assessed the use of magnetic resonance imaging in differentiating lymphedema, phlebedema, and lipedema of the lower limb. They examined 14 patients: five with lipedema, five with lymphedema, and four with phlebedema. T1- and T2-weighted transaxial sequences were performed before administration of gadolinium tetraazacyclododecane-tetraacetic acid (DOTA) and T1-weighted spin-echo sequences were performed after administration of Gd-DOTA in each patient. Images of patients with lipedema showed homogeneously enlarged subcutaneous layers, with no increase in signal intensity at T2-weighted imaging or after Gd-DOTA administration. Patients with phlebedema had areas containing increased amounts of fluid within muscle and subcutaneous fat. In lymphedema, a honeycomb pattern above the fascia between muscle and subcutis was observed, with a marked increase in signal intensity at T2-weighted imaging. After Gd-DOTA administration, there was only a slight increase in signal intensity in the subcutis in lymphedema and phlebedema and a moderate increase in signal intensity in muscle in phlebedema.

Lipedema is a common disease in the usual clinical practice. None organic description about the clinical symptoms and signs associated to this condition has been published. Fifty women with lipedema have been examined by the authors, and incidence rates of symptoms and signs have been emphasized. The following signs and symptoms were constantly reported: "Egyptian column", elastic edema, negative Stemmer's sign, alterated plantar support, cutaneous hypothermia. Some others were frequently found: ecchymosis, spontaneous pain, liposclerosis on the thigh, hypodermic hyperalgesia and pain on the internal face of the knee. Moreover, the two most relevant differential diagnosis as well as their two variant's clinical features (mixed lipedema and "thin women" lipedema) have been described.

The use of a single axial slice through the mid calf in the differential diagnosis of a swollen leg is described. This is a very simple quick non-invasive investigation. Venous obstruction results in an increase in the cross sectional area of the muscle compartment. The subcutaneous fat layer is normally homogeneous; in obesity or lipoedema it is increased but remains homogeneous. In lymphoedema fluid collects in the interstitial spaces which become very prominent on CT images. In chronic lymphoedema a honeycomb pattern is seen as a result of increase in the interstitial tissue due to fibrosis. Popliteal cyst extensions result in fluid collections between muscle planes. Haematomas have higher attenuation, and are intramuscular. The findings in 64 patients and 10 controls are presented and the literature is reviewed.