The Effect of Manual Lymph Drainage Applied As an Adjunct to Compression Therapy on Edema Lower Extremity Lymphedema:

Lower extremity lymphedema (LE) is a chronic disease characterized by the accumulation of protein-rich fluid in the interstitial space and inflammation. It is classified as primary and secondary lymphedema. Primary LE is caused by developmental defects of the lymphatic system, whereas secondary LE is caused by subsequent damage to the lymphatic system. The biggest cause of secondary LE in western countries is cancer surgery.

Lower extremity LE is not a disease characterized only by edema. As the disease progresses, adipose tissue increases and fibrosis is observed. Fibrosis is defined as excessive accumulation of extracellular matrix products. Fibrosis is a well-known cause of organ dysfunction in many systems, including the liver, kidney, heart, and skin. This condition also occurs in limb LL and is a characteristic pathological change seen in LL. The increase in adipose tissue and fibrosis triggered by the presence of lymph fluid leads to increased skin and subcutaneous tissue thickness. These changes increase as the duration and stage of the disease progress.

Inflammation due to impaired lymph drainage triggers the fibrosis process. Histological and immunohistochemical specimens from clinical and experimental skin tissues of patients with LE reveal an increase in collagen fibers in edematous skin due to fibrosis. Fibrosis in LE is not limited to the skin but has also been detected in subcutaneous tissue, including adipose tissue. It has been reported that adipocytes in adipose tissue with LE have hypertrophic changes and larger adipose tissue lobules, and these lobules are surrounded by thick collagen fibers and interstitial lymphatic fluid. It has been reported that collagen accumulation in subcutaneous fat was observed in mouse models of LE. This leads to hardening of the tissue , resulting in non-depressed edema. Fibrosis in the tissue causes lymphatic vessel dysfunction and reduces lymphatic capacity, leading to worsening of LE. It has been reported that fibrotic changes in lymphedema can be partially reversed with complex decongestive physiotherapy (CDF). CDF is a conservative treatment method accepted as the gold standard in the treatment of LE. It consists of two phases: discharge and protection. While the unloading phase aims to reduce limb volume, the preservation phase aims to maintain the reduced volume. The unloading phase consists of 4 main components: manual lymph drainage (MLD), skin care, compression, and exercise. In the protection phase, compression bandages are replaced by compression garments, and manual lymph drainage is replaced by self/simple lymph drainage. The drainage phase lasts at least 2-4 weeks, and the protection phase lasts for life Each treatment component has a unique mechanism of action in the treatment of lymphedema. MLD is a gentle massage technique that aims to move the skin and connective tissue, thus stretching the anchor filaments connected to the lymphatic capillaries and opening the lymphatic capillaries without causing hyperemia. There are different holding techniques. MLD is thought to increase the transport rate of lymphatic fluid, develop new pathways for lymphatic drainage from edematous areas to adjacent non-edematous areas, remove protein deposits from the tissue, and break down fibrotic tissue. Compression is to create more tissue pressure during contractions by resisting muscle activity. This is the strongest stimulation for lymph drainage. Compression also prevents fluid accumulation in the tissue by reducing capillary filtration. It allows resorption of fluid in the interstitial space. It displaces fluid to non-compressed areas where drainage is normal. Compression is also thought to be effective in the destruction of fibrosclerotic tissue.

In the literature, the effect of MLD and compression applications on edema has been frequently evaluated, and the effectiveness of compression bandaging has been shown, although the effect of MLD on edema reduction is contradictory. Nevertheless, it has been suggested that MLD may also be effective in fibrotic tissue. However, although there are evaluation studies showing fibrosis in tissue with LE, there are no randomized controlled trials showing the effect of MLD and compression on fibrotic tissue in lower extremity LE. Similarly, there are no studies comparing the effect of lymphedema treatments on fibrosis using two different assessment methods. The primary aim of this study was to evaluate the effect of MLD applied as an adjunct to compression therapy on fibrosis in individuals with lower extremity LE. The secondary aim of the study was to evaluate the effect of MLD applied in addition to compression bandage on skin and subcutaneous tissue thickness, edema, and quality of life.