Lymphedema

Lymphedema
Classification and external resources
ICD-10 I89.0, I97.2, Q82.0
ICD-9 457.0, 457.1, 757.0
DiseasesDB 7679
eMedicine derm/958
MeSH D008209

Lymphedema (lymphoedema in British English), also known as lymphatic obstruction, is a condition of localized fluid retention and tissue swelling caused by a compromised lymphatic system.

The lymphatic system returns the interstitial fluid to the thoracic duct and then to the bloodstream, where it is recirculated back to the tissues.

Tissues with lymphedema are at risk of infection.

Contents

Signs and symptoms

Symptoms may include severe fatigue, a heavy swollen limb or localized fluid accumulation in other body areas, including the head or neck, discoloration of the skin overlying the lymphedema, and eventually deformity (elephantiasis).

Lymphedema should not be confused with edema arising from venous insufficiency, which is not lymphedema. However, untreated venous insufficiency can progress into a combined venous/lymphatic disorder which is treated the same way as lymphedema (see Treatment below).

Presented here is an extreme case of severe unilateral hereditary lymphedema which had been present for 25 years without treatment:

Presented here is a severe case of combined primary lymphedema and lipedema (Stage 3) before and after treatments:[1]

Causes

Lymphedema (also see Elephantiasis) may be inherited (primary) or caused by injury to the lymphatic vessels (secondary). It is most frequently seen after lymph node dissection, surgery and/or radiation therapy, in which damage to the lymphatic system is caused during the treatment of cancer, most notably breast cancer. In many patients with cancer this condition does not develop until months or even years after therapy has concluded. Lymphedema may also be associated with accidents or certain diseases or problems that may inhibit the lymphatic system from functioning properly.In tropical areas of the world, a common cause of secondary lymphedema is filariasis, a parasitic infection. It can also be caused by a compromising of the lymphatic system resulting from cellulitis.

While the exact cause of primary lymphedema is still unknown, it generally occurs due to poorly-developed or missing lymph nodes and/or channels in the body. Lymphedema may be present at birth, develop at the onset of puberty (praecox), or not become apparent for many years into adulthood (tarda). In men, lower-limb primary lymphedema is most common, occurring in one or both legs. Some cases of lymphedema may be associated with other vascular abnormalities.

Secondary lymphedema affects both men and women. In women, it is most prevalent in the upper limbs after breast cancer surgery and lymph node dissection, occurring in the arm on the side of the body in which the surgery is performed. Head and neck lymphedema can be caused by surgery or radiation therapy for tongue or throat cancer. It may also occur in the lower limbs or groin after surgery for colon, ovarian or uterine cancer in which removal of lymph nodes or radiation therapy is required. Surgery and/or treatment for prostate, colon and testicular cancers may result in secondary lymphedema, particularly when lymph nodes have been removed or damaged.

The onset of secondary lymphedema in patients who have had cancer surgery has also been linked to aircraft flight (likely due to decreased cabin pressure). For breast cancer survivors, wearing a prescribed and properly-fitted low-compression sleeve and gauntlet may help decrease swelling during flight.

Some cases of lower-limb lymphedema have been associated with the use of Tamoxifen, due to the blood clots and deep vein thrombosis (DVT) that can be caused by this medication. Resolution of the blood clots or DVT is needed before lymphedema treatment can be initiated.

Pathophysiology

The flow of lymph from the legs towards the heart is the result of the calf pump. As a person walks, the calf muscle contracts, squeezing lymph out of the leg via the lymphatic vessels. When the muscle relaxes, valves in the vessels shut preventing the fluid from returning to the lower extremities.[2] The lymph from the legs is filtered through the inguinal nodes in the groin area on its way to the thoracic duct. Blockage of the inguinal nodes can contribute to swelling in the legs. From the thoracic duct, the lymph is returned to the venous circulation through the left subclavian vein. [3]

Diagnosis

Assessment of the lower extremities begins with a visual inspection of the legs. Color, presence of hair, visible veins, size of the legs and any sores or ulcerations should be noted. Lack of hair may indicate an arterial circulation problem. [4] If swelling is observed, the calf circumference should be measured with a tape measure. This measurement can be compared to future measurements to see if the swelling is getting better. Determine if elevating the legs makes the swelling go away. Pressure should be applied with the fingertips over the ankle to determine the degree of swelling. The assessment should also include a check of the popliteal, femoral, posterior tibial, and dorsalis pedis pulses. When checking the femoral pulse, feel for the inguinal nodes and determine if they are enlarged. Enlargement of the nodes lasting more than three weeks may indicate infection or some other disease process requiring further medical attention. [5]

The diagnosis or early detection of lymphedema is difficult. The first signs may be subjective observations such as "my arm feels heavy" or "I have difficulty these days getting rings on and off my fingers". These may be symptomatic of early stage of lymphoedema where accumulation of lymph is mild and not detectable by any difference in arm volume or circumference (see severity above). As lymphedema develops further, definitive diagnosis is commonly based upon an objective measurement of difference between the affected or at-risk limb at the opposite unaffected limb, e.g. in volume or circumference. Unfortunately, there is no generally accepted worldwide criterion of difference definitively diagnostic although a volume of difference of 200 ml between limbs or a 4 cm (at a single measurement site or set intervals along the limb) is often used. Recently the technique of bioimpedance measurement (a method that measures the amount of fluid in a limb) has been shown to have greater sensitivity than these existing methods and holds promise as a simple diagnostic and screening tool.[6] Impedance analysers specifically designed for this purpose are now commercially available.

Stages

Whether primary or secondary, lymphedema develops in stages, from mild to severe. Methods of staging are numerous and inconsistent. They ranged from three to as many as eight stages.

The most common method of staging was defined by the Fifth WHO Expert Committee on Filariasis:[7][8]

A new staging system has been set forth by Lee, Morgan and Bergan[9] and endorsed by the American Society of Lymphology. This provides a clear technique which can be employed by clinical and laboratory assessments to more accurately diagnose and prescribe therapy for lymphedema. In this improved version there are four stages identified (I-IV). Physicians and researchers can use additional laboratory assessments such as bioimpedance, MRI, or CT to build on the findings of a clinical assessment (physical evaluation). From this, results of therapy can be accurately be determined and reported in documentation as well as research.

Risk is another measurement altogether. Current research using bioimpedance to measure risk of lymphedema is very promising.

Grades

Lymphedema can also be categorized by its severity (usually referenced to a healthy extremity):

Treatment

Treatment for lymphedema varies depending on the severity of the edema and the degree of fibrosis of the affected limb. Most people with lymphedema follow a daily regimen of treatment as suggested by their physician or certified lymphedema therapist. The most common treatments for lymphedema are a combination of the daily use of intermittent sequential multi-chambered overlapping gradient pumps, manual compression lymphatic massage, compression garments or bandaging. Complex decongestive physiotherapy is an empiric system of lymphatic massage, skin care, and compressive garments. Although a combination treatment program may be ideal, any of the treatments can be done individually.

Compression

Garments

Elastic compression garments are worn by persons with lymphedema on the affected limb following complete decongestive therapy to maintain edema reduction. Depending on the therapist's discretion, a compression garment may be custom-fit or purchased in over-the-counter, standard sizes. Compression garments are meant to be worn every day to maintain edema reduction and must be replaced on a regular basis. Support garments may be the only Garment of Choice for patients with Scrotal edema.

Bandaging or wrapping

Compression bandaging, also called wrapping, is the application of several layers of padding and short-stretch bandages to the involved areas. Short-stretch bandages are preferred over long-stretch bandages (such as those normally used to treat sprains), as the long-stretch bandages cannot produce the proper therapeutic tension necessary to safely reduce lymphedema and may in fact end up producing a tourniquet effect. During activity, whether exercise or daily activities, the short-stretch bandages enhance the pumping action of the lymph vessels by providing increased resistance for them to push against. This encourages lymphatic flow and helps to soften fluid-swollen areas.

Sequential gradient pump therapy

Sequential gradient pump therapy has been used for over 30 years throughout the world. Compression pump technology utilizes a multi-chambered pneumatic sleeve with overlapping cells, to gently move the lymph fluid. These compression devices are recognized treatments and approved by Medicare and most insurance plans in the USA. Patients may often receive treatment on a pump for 10-15 minutes before an MLD (Manual Lymph Drainage) session to help break up fibrotic (hard) tissue. By softening or breaking up the fibrosis, the MLD Therapist may be more effective with the given treatment. Many patients may benefit from a pump without ever going to MLD sessions, as they are very beneficial, but not a requirement. However, after completion of the appropriate number of MLD sessions, many patients will benefit from a home use of a sequential pump. In many case Home Compression Pumps have proven to be a self sustaining therapy.

A recent Stanford University medical study showed that patients receiving the combined modalities of MLD/CDT and pneumatic pumping had a greater overall reduction in limb volume than patients receiving only MLD/CDT.[10] However, while there is no clinical evidence to support this belief some therapists have begun to raise concern that compression pumps can cause genital swelling when used on persons with leg lymphedema. Recent additions to the garments available for compression pumps allows patients the ability to include pant suites and jacket garments to help control trunk and genital edema.

Another therapy involves heat and however an Indian study [1] has shown that for filarial patients, simple compression is better than heat therapy.

Complete decongestive therapy or manual lymph drainage

Complete decongestive therapy (CDT) is a primary tool in lymphedema management consisting of manual manipulation of the lymphatic ducts,[11] short stretch compression bandaging, therapeutic exercise, and skin care. The technique was pioneered by Emil Vodder in the 1930s for the treatment of chronic sinusitis and other immune disorders. Initially, CDT involves frequent visits to a certified therapist with a doctor's prescription. Once the lymphedema is reduced, increased patient participation is required for ongoing care, along with the use of elastic compression garments and non-elastic directional flow foam garments.

Manual manipulation of the lymphatic ducts consists of gentle, rhythmic massaging of the skin to stimulate the flow of lymph and its return to the blood circulation system. In the blood’s passage through the kidneys, the excess fluid is filtered out and eliminated from the body through urination. The treatment is very gentle and a typical session will involve drainage of the neck, trunk, and involved extremity (in that order), lasting approximately 40 to 60 minutes. CDT is generally effective on non-fibrotic lymphedema and less effective on more fibrotic legs, although it has been shown to help break up fibrotic tissue.

Surgical techniques

Surgical techniques for correcting lymphedema may be excisional or physiological. However, surgery for lymphedema does not cure the disease or eliminate the need for decongestive treatment. Surgical treatment is used only in extreme cases in order to reduce the weight of the affected limb, to help minimize the frequency of inflammatory attacks, to improve cosmesis, and to potentially reduce the risk of secondary angiosarcoma.[12] Although surgery has shown to reduce edema in the short-term, there is a lack of evidence to suggest that it is beneficial in the long-term. Excisional techniques include:

Low level laser therapy

Low level laser therapy (LLLT) has been cleared by the U.S. Food and Drug Administration (FDA) for the treatment of lymphedema in November 2006.[13]

According to the US National Cancer Institute,

Studies suggest that low-level laser therapy may be effective in reducing lymphedema in a clinically meaningful way for some women. Two cycles of laser treatment were found to be effective in reducing the volume of the affected arm, extracellular fluid, and tissue hardness in approximately one-third of patients with postmastectomy lymphedema at 3 months posttreatment. Suggested rationales for laser therapy include a potential decrease in fibrosis, stimulation of macrophages and the immune system, and a possible role in encouraging lymphangiogenesis.[14][15]

Early prevention and disease regression in breast cancer

In 2008 an NIH study revealed that early diagnosis of lymphedema in breast cancer patients (called stage 0 in the article) associated with an early intervention, a compression sleeve and gauntlet for 1 month, led to a return to pre operative baseline status. In a 5 year follow up patients remained at their pre operative baseline, suggesting that pre clinical detection of lymphedema can halt if not reverse it progression.

Complications

When the lymphatic impairment becomes so great that the lymph fluid exceeds the lymphatic system's ability to transport it, an abnormal amount of protein-rich fluid collects in the tissues of the affected area. Left untreated, this stagnant, protein-rich fluid causes tissue channels to increase in size and number, reducing the availability of oxygen. This interferes with wound healing and provides a rich culture medium for bacterial growth that can result in infections: cellulitis, lymphangitis, lymphadenitis, and in severe cases, skin ulcers. It is vital for lymphedema patients to be aware of the symptoms of infection and to seek treatment at the first signs, since recurrent infections or cellulitis, in addition to their inherent danger, further damage the lymphatic system and set up a vicious circle.

In rare cases, lymphedema can lead to a form of cancer called lymphangiosarcoma, although the mechanism of carcinogenesis is not understood. Lymphedema-associated lymphangiosarcoma is called Stewart-Treves Syndrome. Lymphangiosarcoma most frequently occurs in cases of long-standing lymphedema. The incidence of angiosarcoma is estimated to be 0.45% in patients living 5 years after radical mastectomy.[16][17] Lymphedema is also associated with a low grade form of cancer called retiform hemangioendothelioma (a low grade angiosarcoma).[18]

Since lymphedema is disfiguring, causes difficulties in daily living and can lead to lifestyle becoming severely limited, it may also result in psychological distress.

See also

References

  1. Photos courtesy of Amy's Lymphedema Story
  2. Jarvis, C. (2004). Physical Examination and Health Assessment (fifth ed.). St. Louis, Missouri: Saunders Elsevier. pp. 530–553. 
  3. Brunner, L.; Suddarth, D. (1988). Textbook of Medical Surgical Nursing (sixth ed.). Philadelphia, Pennsylvania: JB Lippincott Company. p. 659. 
  4. Jarvis, C. (2004). Physical Examination and Health Assessment (fifth ed.). St. Louis, Missouri: Saunders Elsevier. pp. 530–553. 
  5. Jarvis, C. (2004). Physical Examination and Health Assessment (fifth ed.). Philadelphia, Pennsylvania: Saunders Elsevier. pp. 530–553. 
  6. Ward LC (2006). "Bioelectrical impedance analysis: proven utility in lymphedema risk assessment and therapeutic monitoring". Lymphat Res Biol 4 (1): 51–6. doi:10.1089/lrb.2006.4.51. PMID 16569209. 
  7. "Lymphatic filariasis: the disease and its control. Fifth report of the WHO Expert Committee on Filariasis". World Health Organization technical report series 821: 1–71. 1992. PMID 1441569. 
  8. http://whqlibdoc.who.int/hq/2001/WHO_CDS_CPE_CEE_2001.26a.pdf.
  9. Benoit Blondeau; Lawrence L Tretbar; Morgan, Cheryl E.; Simon J. Simonian (2007). Lymphedema: Diagnosis and Treatment. Springer. ISBN 1-84628-548-8. 
  10. Szuba A, Achalu R, Rockson SG (2002). "Decongestive lymphatic therapy for patients with breast carcinoma-associated lymphedema. A randomized, prospective study of a role for adjunctive intermittent pneumatic compression". Cancer 95 (11): 2260–7. doi:10.1002/cncr.10976. PMID 12436430. .
  11. PDF document
  12. Position Statement of the National Lymphedema Network. http://www.lymphnet.org/pdfDocs/nlntreatment.pdf
  13. dotmed.com December 27, 2006 Low Level Laser FDA Cleared for the Treatment of Lymphedema. (accessed 9 Nov 09)
  14. National Cancer Institute: Low-level laser therapy accessed 9 Nov 09
  15. PMID 12973834 (PubMed)
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  16. Martin MB, Kon ND, Kawamoto EH, Myers RT, Sterchi JM. Am Surg. 1984 Oct;50(10):541-5. Postmastectomy angiosarcoma.
  17. Chopra, S, Ors, F, Bergin, D MRI of angiosarcoma associated with chronic lymphoedema: Stewart Treves syndrome Br J Radiol 2007 80: e310-313
  18. Requena L, Sangueza OP. J Am Acad Dermatol. 1998 Feb;38(2 Pt 1):143-75; quiz 176-8. Cutaneous vascular proliferations. Part III. Malignant neoplasms, other cutaneous neoplasms with significant vascular component, and disorders erroneously considered as vascular neoplasms.

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