Atlanticlymph.ca

Position Statement of the
National Lymphedema Network
TOPIC: The Diagnosis And Treatment Of Lymphedema Introduction
Lymphedema is caused by an abnormality of the lymphatic system leading to excessive build up of tissue fluid that forms lymph, known as interstitial fluid. Stagnant lymph fluid contains protein and cell debris that causes swelling of affected tissues. Lymph is responsible for transporting essential immune chemicals and cells. Left untreated, lymphedema leads to chronic inflammation, infection and hardening of the skin that, in turn, results in further lymph vessel damage and distortion of the shape of affected body parts. 1-4,199,201Interstitial fluid can build up in any area of the body that has inadequate lymph drainage and cause lymphedema. Lymphedema is a condition that develops slowly and once present is usually progressive.143,192 People can be born with abnormalities in the lymphatic system. This type of lymphedema is known as Primary Lymphedema. Depending on how severe the condition is, swelling can be present at birth or may develop later in life.198 Most lymphedema in the United States is Secondary Lymphedema. This type of lymphedema occurs from damage to the lymphatic system, commonly from cancer and its treatment but also from trauma to the skin such as from burns or infections. 5,189 Lymphedema after breast cancer has been studied the most, but lymphedema can occur as a result of other cancers, including melanoma, gynecologic cancer, head and neck cancer and sarcoma.76-78, 185-187 The overall risk of lymphedema for all cancers is reported to be 15.5%.186 The risk of developing lymph-edema does not diminish over time but is a lifelong risk. 6,143 Progressive lymphedema is complicated by recurrent infections, non-healing wounds, discomfort or pain, difficulty with daily tasks, emotional and social distress.7-9 Effective treatment for lymphedema is available. Early diagnosis is important since treatment is most effective when lymphedema is diagnosed at the earliest stage.188,193,194 Every patient with lymphedema should have access to established effective treatment for this condition. Lymphedema has no cure but can be successfully managed when properly diagnosed and treated. Diagnosis of Lymphedema
Since lymphedema is progressive and early diagnosis leads to more effective treatment, the diagnosis of lymph-
edema at the earliest possible stage is very important. Treatment of lymphedema is based on correct diagnosis.
Many conditions that cause swelling (edema) are not lymphedema. True lymphedema is swelling caused by abnor-
mality in the lymphatic system. Lymphedema can also co-exist with other medical and swelling conditions. Correct
diagnosis of lymphedema may require evaluation by a physician or other health-care provider with expertise in
lymphedema who can, when needed, perform specialized diagnostic testing.10,198 Diagnostic tests for lymphedema
come under the following categories:
• History and physical examination• Soft tissue imaging• Lymph vessel and lymph node imaging• Measures of volume• Changes in electrical conductance • Changes in biomechanical properties • Genetic testing NLN • 116 New Montgomery Street, Suite 235 • San Francisco, CA 94105 Infoline: 1-800-541-3259 • Email: [email protected] • Online: www.lymphnet.org NLN Position Paper: The Diagnosis And Treatment Of LymphedemaPage 2 of 19 • Other vascular imaging • Blood tests for other conditions that can look like lymphedema History and Physical Examination
A history and physical examination by a health-care provider who has experience with diagnosis and treatment of
lymphedema is important for all patients with chronic swelling.193,194,198 Primary and Secondary lymphedemas have
characteristic features that can be seen over time. The history should include age of onset, location(s) of swelling,
pain and other symptoms, medications that can cause swelling, the course of progression of the swelling, and
factors associated with swelling onset such as cancer, injury, or infection. A family history is important to the diag-
nosis of inherited forms of lymphedema. The physical examination includes an assessment of the vascular system
(lymphatics, veins and arteries), skin and soft tissues in the swollen body part(s), palpation of lymph nodes, and
looking for changes in body systems associated with various forms of inherited lymphedemas.181,182,202 Diagnostic
tests and imaging must be paired with the information from the history and physical examination to make a correct
diagnosis. For trunk, breast, genital, head and neck lymphedema, the history and physical examination is the cur-
rently accepted method of diagnosis.76,78
Soft Tissue Imaging
Magnetic resonance imaging (MRI), computed tomography (CT) and some types of ultrasound (US) are able to
detect the presence of extra fluid in the tissues.159,160,170 Fluid that is outside of cells (extracellular) and also outside
of vessels (extravascular) is called tissue fluid or interstitial fluid. Lymphedema is one type of interstitial fluid build
up that occurs when fluid is not being removed effectively by the lymph vessels. MRI, CT and US can show the
presence of increased interstitial fluid but cannot tell the cause. These imaging techniques have to be put together
with history, physical examination and sometimes other imaging tests.194 Other conditions such as heart failure or
low proteins in the blood from liver disease or malnutrition can cause fluid to build up in the tissues. MRI, US and
CT scans may be required to determine the cause of lymphedema, especially if there is a concern that the lymph-
edema might be the result of an untreated cancer.
Lymph Vessel Imaging
Lymphoscintigraphy is a nuclear medicine study used for imaging lymph vessels and lymph nodes.195 Radio-la-
beled particles of protein are injected just under the skin of the area of the body to be imaged. Usually technetium
labeled sulphur colloid is used. Lymphoscintigraphy is accurate for detecting abnormalities of the lymphatic sys-
tem in the extremities regardless of the cause.163,165,189 It demonstrates slow or absent lymph flow and areas of re-
flux (backflow). Lymphoscintigraphy can reveal abnormalities of lymph uptake in lymph nodes with some forms of
lymphedema.168 Lymphoscintigraphy can predict response to treatment.167 Lymphoscintigraphy shows the main,
larger lymph vessels and nodes. It shows the basic architecture of the peripheral lymphatic system. It does not
show the deep transport lymph vessels carrying lymph from the nodes back to the blood circulation. Lymphoscin-
tigraphy identifies lymphatic abnormalities at a late stage, after lymphedema has occurred. The type of lympho-
scintigraphy done for the diagnosis of lymphedema is not available at all radiology departments. Most radiology
departments, however, can do a form of lymphoscintigraphy used to identify the sentinel lymph node for cancers
such as breast and melanoma. These studies for the sentinel lymph node are different from the lymphoscintigra-
phy studies done for diagnosis of lymphedema. Before undergoing a lymphoscintigraphy study the patient should
inquire if the radiologist performing and reading the study has a large amount of experience with lymphoscintigra-
phy studies for the diagnosis of lymphedema. Lymphoscintigraphy, in combination with other vascular studies, can
differentiate venous edema from lymphedema.190,196 Lymphoscintigraphy may not be necessary in some forms of
secondary lymphedema where the diagnosis is clear from the history and physical examination or other imaging.
In order to diagnose primary lymphedema, however, a lymphoscintigraphy must be done. Especially in children, a
detailed study must be done that includes all potential areas of involvement and the contralateral normal limb or
body part for comparison.166,169 These studies must be done by a radiologist familiar with primary lymphedema
NLN • 116 New Montgomery Street, Suite 235 • San Francisco, CA 94105 Infoline: 1-800-541-3259 • Email: [email protected] • Online: www.lymphnet.org NLN Position Paper: The Diagnosis And Treatment Of LymphedemaPage 3 of 19 and genetic forms of edema. In children being evaluated for lymphedema, other vascular and imaging studies are necessary because primary lymphedema can occur in combination with many vascular abnormalities and other organ defects. The specific tests needed should be determined by a specialist in lymphedema. A new technique for imaging lymph vessels is Near Infra-Red Florescence Imaging (NIR) using a substance known as indocyanine green (ICG).82,171-175 The ICG is injected into the skin and immediately imaged with a dynamic (real time) infrared florescence camera. With NIR-ICG, even very small lymphatic vessels can be seen. The study is dynamic which means that the actual function of the lymphatic vessels can be analyzed. Diseased lymphatics that do not contract (or pulse) normally can be seen with NIR-ICG. ICG is a green dye that has been used safely in other areas of the body such as the liver and eyes. It can be used in very small amounts to image the lymphatics. NIR-ICG can diagnose lymphedema and find abnormalities at an early stage, possibly before swelling is obvious. Although this technique shows promise for the diagnosis of lymphedema, it is currently available at very few cen-ters, most of which are involved in research. Measures of Volume
Measures of limb (arm and leg) volume have been the standard way of detecting lymphedema for years and have
been shown to be accurate when properly done.156,157,161,170 Enlargement of the limb (increase in volume) is the
end result of fluid building up in the tissues. Therefore, volume measurements are used to quantify the presence
and severity of lymphedema and follow the response to treatment. Volume is measured by 3 main methods: tape
measurements, perometry, and water displacement.170 Tape measurements are taken at defined intervals, using
geometric formulas to calculate the total volume. This technique can be accurate if it is done in precisely the same
way each time, and is most accurate when the same person takes the measurements each time. Perometry uses
an infra-red optical electronic scanner and computer to calculate the volume of the body part. Perometry is accu-
rate if the body part is positioned exactly the same way each time and the machine has been calibrated for accu-
racy. Perometry has been used for a decade in research on lymphedema and has been accurate when compared
to the long used ‘gold standard’ of water displacement.149 Perometry has been demonstrated to detect as little as
a 3% change in limb volume in breast cancer survivors followed over time.207 Water displacement, the bench ‘gold
standard’ for assessing volume, is rarely used these days due to its inconvenience. The body part to be measured
is immersed in a large cylinder and the water that is pushed out (displaced) is measured. All of these volume
methods are effective and accurate when done properly.170 They are most accurate on arms and legs. Measures
of volume cannot differentiate lymphedema from other types of edema and do not determine when temporary
post-operative arm edema becomes chronic lymphedema. Although tape measurements have been developed for
head and neck,78 they are not true volume measurements, nor have they been standardized. They are best used
for following the effects of treatment rather than making a diagnosis.
Electrical Conductance Testing (BIS)
Bioimpedance Spectroscopy (BIS) is a method for measuring water content in tissues. It has been used for many
years to assess the total water content of the body and body composition for fitness and weight loss purposes.
BIS is now available to measure interstitial fluid as a component of assessment leading to the diagnosis of lymph-
edema.144,148,149 BIS has been shown to provide reliable data to be used in the diagnosis of breast cancer-related
lymphedema.150 BIS can detect early changes associated with lymphedema.162,164 BIS is done by passing a small,
painless, electrical current through the limb and measuring the resistance to current (impedance). The machine
uses certain electrical current frequencies to determine if more fluid exists as compared to the contralateral limb.
It does this by comparing the difference in resistance to electricity passed through interstitial fluid compared to
intracellular fluid. BIS currently is done on the whole limb since the resistance to current flow for standard tech-
nique is calculated to the length of the body part. The higher the water content in the interstitial tissue, the lower
the resistance (impedance). BIS may show promise for detecting smaller areas of localized lymphedema, but this
application has not been subjected to adequate study to recommend it.206 BIS is not as accurate in advanced,
fibrotic edema. As in measures of volume, BIS cannot differentiate lymphedema from other types of edema and
does not determine when temporary post-operative arm edema becomes chronic lymphedema.145,170,191
NLN • 116 New Montgomery Street, Suite 235 • San Francisco, CA 94105 Infoline: 1-800-541-3259 • Email: [email protected] • Online: www.lymphnet.org NLN Position Paper: The Diagnosis And Treatment Of LymphedemaPage 4 of 19 Changes in Biomechanical Properties of Tissues
Lymphedema causes the affected skin and subcutaneous tissues to become inflamed and hardened (fibrotic).199
Lymphedema is graded clinically, not just by increased size or volume, but also by the progressive change in the
skin texture as it becomes denser and harder.10,158 Currently, these skin changes are documented by physical ex-
amination of tissue texture, pitting, enlarged skin folds and other dermatologic conditions such as wounds or pap-
illomas (benign growths on the skin in areas of lymphedema). Methods available for measuring skin texture and
resistance quantitatively are: tissue dielectric constant151-153 and tonometry.148,152,154,155 The tissue dielectric constant
is a measure of tissue water content. The test is performed with a device that passes an electrical current of a
specific frequency to one location of the skin and measures the reflected wave that returns. The reflected wave
form indicates the amount of water present in the tissue. Tonometry uses a device that measures the amount of
force required to indent a tissue which gives a specific measurement value to the degree of firmness or fibrosis.
There are some technical difficulties to the use of these tools and a number of environmental factors and operator
differences can give variable values. These measures of the biomechanical properties of tissues are important for
research. Hopefully continued development will lead to better tools for clinical use so that diagnostic methods will
include quantitative methods of skin and subcutaneous tissue changes associated with progressive lymphedema.
Genetic Testing
For patients who have been diagnosed with primary lymphedema, genetic counseling and genetic testing may
be appropriate.176-178,184,202 All young children diagnosed with primary lymphedema should have a karyotype test
performed. The karyotype determines the presence of chromosome abnormalities such as Turner’s syndrome that
can be associated with lymphedema. Other types of primary lymphedema involve specific genes. For example,
Milroy’s disease has a specific defect of the FLT4 gene that is responsible for producing a protein called vascular
endothelial growth factor receptor 3 (VEGFR-3). The FOXC2 and SOX18 genes are also associated with lymph-
edema. Most forms of inherited lymphedema are not detected on gene or chromosome tests. Children diagnosed
with primary lymphedema should be referred to a Medical Geneticist or a Genetic Counselor to determine which
tests are indicated for that child’s condition. With late onset of primary lymphedemas, genetic testing is of limited
benefit, but Genetic Counseling may be offered on a case-by-case basis.
Other Vascular Imaging
Some forms of edema are caused by diseases or abnormalities in the cardiovascular system (heart, arteries veins).
For children, and some adults, diagnosed with primary lymphedema, it is important to evaluate for other vascular
abnormalities.179,180 Conditions such as congestive heart failure, vein clots known as deep venous thrombosis
(DVT), damaged vein valves known as venous insufficiency, and some arterial conditions can lead to swelling or
exist concurrent with lymphedema. With secondary lymphedema from cancer, obstruction of a vein can contribute
to the severity of edema.196 Imaging studies of the heart, veins or arteries may be needed to get a complete and
accurate diagnosis of the cause and proper treatment for edema.190 The most common cardiovascular studies or-
dered for the evaluation of complex edemas are: echocardiogram, venous ultrasound and arterial ultrasound with
ankle brachial index (ABI). Ultrasound studies of veins looking for a clot can be done lying down. To accurately di-
agnose venous insufficiency (incompetent valves) the ultrasound must be done standing or on a tilt table that can
be tipped into a standing position (for patients who cannot stand for the test). If there is a concern for abnormali-
ties of blood vessels in the chest, abdomen or pelvis, more advanced imaging, such as computed tomography
venograms or arteriograms, may be recommended.
Other Diagnostic Tests
There is no blood test for lymphedema. Other medical conditions such as hypothyroidism (myxedema) or low pro-
tein (hypoproteinemia) can cause edema and need to be done in a complete evaluation of swelling. Standard plain
x-rays may be ordered for some inherited lymphedemas to evaluate for orthopedic conditions.182,183
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Complete Decongestive therapy is also called Combined, Complex or Comprehensive Decongestive Therapy. All
refer to the same method known as CDT. CDT is the main treatment for lymphedema. Experts who treat lymph-
edema consider CDT the “gold standard” of treatment.11,12 CDT has been shown to be safe and effective.13-19,197
CDT consists of an initial reductive phase (Phase I) followed by a maintenance phase (Phase II).11, 20-23 In Phase
I, the main goals are reducing the size of the affected part and improving the skin. After Phase I, the person with
lymphedema needs to continue into Phase II, an ongoing, individualized self- management phase to make sure
the gains of Phase I are maintained long term.24
Effects of CDT are to:
1. decrease swelling25,26 2. increase lymph drainage from the congested areas27,28 3. reduce skin fibrosis and improve the skin condition1 4. enhance patient’s functional status29 5. relieve discomfort and improve quality of life8,25,26,30-34 6. reduce the risk of cellulitis and Stewart-Treves-Syndrome, a rare form of angiosarcoma35-45,197 Components of CDT
1. manual lymph drainage (MLD) 2. multi-layer, short-stretch compression bandaging 3. lymphatic exercise 4. skin care 5. education in lymphedema self-management, and elastic compression garments22,46 Frequency and Duration of Phase I (Reductive) CDT
Optimally, CDT is performed daily (5 days/week) until the reduction of fluid volume has reached a plateau, which
can take 3 to 8 weeks.22,47 Some patients may have good results from CDT with modifications of the frequency
and duration of treatment.49 CDT frequency and duration should be individualized to produce the greatest reduc-
tion of swelling and improvement of skin condition in the shortest period of time.
Maintenance (Phase II) CDT
At the completion of Phase I CDT, the person with lymphedema is set up on a self-management program that
includes self-lymph drainage (sometimes called Simple Lymphatic Drainage), home lymphatic exercises, a skin
care regimen, and compression garments or bandages that the individual learns to apply. Some individuals may
require additional measures at home to maintain the gains achieved in Phase I. These measures may include
garments with Velcro, specialized foam construction garments, and pneumatic compression devices.136 Phase II
maintenance must be monitored and changed periodically, just as treatment for any other chronic medical condi-
tion. Compression garments must be replaced every 4-6 months to be effective. Specialized equipment requires
maintenance and replacement according to manufacturers’ guidelines. Phase II CDT and periodic medical moni-
toring are essential to the long-term success of lymphedema treatment.16,22-24
Therapist Training
Therapists providing CDT should have completed at least 135 hours of training as recommended by the Lymphol-
ogy Association of North America® (LANA®). (See NLN Position Paper: Training of Lymphedema Therapists.205)
Additional specialty training may be required for therapists treating facial, truncal, and genital lymphedema, or
lymphedema in people with complex illnesses or disabilities.
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Manual lymph drainage is an essential part of CDT. It is a specialized manual (hands-on) technique that appears to
work by two mechanisms. It stimulates superficial lymphatic vessels to remove excess interstitial fluid and it moves
it through subepidermal (under the skin) fluid channels that form when lymphatics are damaged. 47,201 Some
people refer to MLD as massage, but it is different from the usual types of muscle or myofascial massage com-
monly known to the public. MLD is a light, skin technique learned by certified lymphedema therapists designed to
improve fluid removal from congested areas where the lymphatics are not working properly and into lymph vessels
and lymph nodes that are functioning.48
Compression Bandaging
Compression bandaging refers to a specific technique54 utilizing multiple layers of several materials to create safe
and effective gradient compression. The necessary components of compression bandaging are:
1. Tubular bandage lining2. Digit bandages3. Polyester, cotton, or foam under-cast padding4. Multiple layers of short-stretch bandages with 50% overlap and 50% stretch to cover the entire limb In some patients, it is also necessary to utilize polyurethane foam in various densities and configurations within the bandaging system. These materials are applied according to standard technique to body parts with lymph-edema. Short-stretch bandages have limited stretchability when pulled. They can stretch 40-60% from resting length, compared to long-stretch bandages such as Ace® bandages that stretch to greater than 140% of resting length. To achieve an effective compression gradient, short-stretch bandages must be strategically applied with low-to-moderate tension using more layers at the ends of the extremities than higher up.50-55 Pressure within the short-stretch bandages is low when the patient is not moving (“resting pressure”). Muscle contractions increase interstitial fluid pressure to assist the fluid to move out of congested areas (“working pressure”), as muscles ex-pand within the limited space of the short-stretch bandages.56 The cycling between low-resting and high-working pressures in the interstitial fluid areas under the bandages creates an internal pump-like action. This action encour-ages movement of congested interstitial fluid into the vascular circulation. The short-stretch bandages also prevent refilling of the fluid into the tissues. Another property of short-stretch bandages is to reduce the tissue hardening (fibrosis).1 Compression Bandaging is always a part of Phase I CDT. Some individuals with more severe forms of lymphedema may need to use home compression bandaging longer term as part of Phase II. Some locations of the body, such as the head and neck, are not amenable to standard short-stretch bandaging so other compres-sion techniques have to be used.204 Exercise (including lymphatic “Remedial Exercise”)
With lymphedema, specific exercise is beneficial for all patients.203 Although heavy activity may temporarily in-
crease fluid load, appropriate exercise enables the person with lymphedema to resume activity while minimizing the
risk of exacerbation of swelling.29,57-60,139 For people who have lymphedema, compression garments or compres-
sion bandages must be worn during exercise (except in aqua therapy) to counterbalance the build up of interstitial
fluid.58,61 (See NLN Position Paper: Exercise for Lymphedema Patients.205) Since exercise has been shown to
have major positive effects during and after cancer treatment, safe exercise must be a goal for all cancer-related
lymphedema.60,62 For other forms of lymphedema, exercise also has positive effects. People with or at-risk for
lymphedema are encouraged to work with a lymphedema specialist to incorporate an individualized exercise
program into lymphedema management.
Skin and Nail Care
Meticulous hygiene is recommended to decrease the amount of fungus and bacteria on the skin. Low pH moistur-
izers should be applied to keep skin from drying and cracking.63 Cracks and dry areas of the skin are entry points
for bacteria and fungus, which can result in infections and wounds.64,65 Skin infections are known as cellulitis (or
NLN • 116 New Montgomery Street, Suite 235 • San Francisco, CA 94105 Infoline: 1-800-541-3259 • Email: [email protected] • Online: www.lymphnet.org NLN Position Paper: The Diagnosis And Treatment Of LymphedemaPage 7 of 19 erysipelas). Cellulitis is a serious infection of the skin that requires antibiotic treatment in people with lymphede-ma.36-38 (See NLN Position Paper: Lymphedema Risk Reduction Practices.205) Compression Garments
Following achievement of maximal volume reduction with Phase I CDT, patients should be fitted with a compres-
sion garment. The patient should receive two garments at a time for each affected body part: one to wear and
one to wash and dry. Having two garments insures that the patient does not wear a dirty or wet garment which
promotes bacterial or fungal infection. Garments may be sleeves, stockings, bras, compression shorts, face or
neck compression wear, etc. The type of garment depends upon the body part with lymphedema. Properly-fitted
garments are essential for long-term control of lymphedema.4,66 Garment style and compression strength should
be prescribed according to the patient’s ability to manage the garment and maintain the best volume control and
skin health.67 Ready-made garments come in a variety of sizes and can be fitted to many individuals. Custom
garments are made specifically for the individual who cannot fit a ready-made garment. They are more expensive
than ready-made garments. Custom garments may be required for patients with irregularly-shaped limb(s) or body
parts, wounds, lack of sensation or difficulty with hand dexterity. Custom garments are often a necessity for grow-
ing children. Custom garments allow for options such as special linings to reduce the risk of skin breakdown and
fastening devices which can help the patient put on and remove the garment. Garments should be washed daily
so the garment lasts as long as possible and does not lose its compression strength. Manufacturer instructions
must be followed for washing and drying to prolong the life of the garment. Most daily garments must be replaced
every 4-6 months to maintain compression strength. Compression garments for children must be replaced when
growth necessitates, which is usually multiple times per year for babies and younger children.
In addition to the day garments used in Phase II, some patients with more severe forms of lymphedema will need
night garments or advanced day garments to maintain the reductions obtained in Phase I. There are a variety of
options for advanced and night garments that may be required for control of lymphedema, such as Velcro closure
garments and specialized foam compression garments.68,136,137
Patient Education
Since lymphedema is a life-long condition, patient education in self-management is very important.69 To reduce
the risk of developing lymphedema or having lymphedema worsen, all patients with lymphedema or at-risk for
lymphedema should be instructed in essential self care. The important areas of education include risk-reduction
practices, self-lymph drainage, skin care, signs and symptoms of infection, proper fit and care of garments, and
the importance of good nutrition, exercise and weight control.
Weight Loss
Lymphedema risk increases with obesity, so weight loss should be a part of lymphedema treatment in overweight
individuals, as well as maintenance of optimal weight in normal-weight individuals. 45,70-74 In one study, weight loss
alone was shown to reduce arm volume in the lymphedema arm more than the uninvolved arm of obese women
with post-mastectomy lymphedema.75
Modifications and Individualization of CDT
CDT programs should be individualized based on the presence of other medical conditions or patient abilities.
Patients with wounds, scars, or musculoskeletal conditions; palliative care patients; or patients with post-radiation
fibrosis may require adaptations of CDT. If there is limited mobility of the body part with or near the swelling, the
patient may require other therapies, such as scar massage or myofascial therapy, in addition to CDT, to have a
benefit from CDT.49,64,65,68
Decongestive Therapy for Head and Neck Lymphedema
Lymphedema can be a complication of treatment for head and neck cancer. Manifestations of lymphedema in pa-
tients with head and neck cancer are both internal (difficulty swallowing, vocal cord swelling) and external (swelling
NLN • 116 New Montgomery Street, Suite 235 • San Francisco, CA 94105 Infoline: 1-800-541-3259 • Email: [email protected] • Online: www.lymphnet.org NLN Position Paper: The Diagnosis And Treatment Of LymphedemaPage 8 of 19 of the face, jaw and neck). Modifications of CDT have been shown to be beneficial, especially manual lymphatic drainage and modified garments. 76-78 Intermittent Pneumatic Compression Therapy (IPC)
IPC, also known as compression pump therapy, can be useful in some patients as an adjunct to Phase I CDT79- 88
or a necessary component of a successful home program (Phase II CDT).89-91
Single-chamber pumps, used in the past, are not used for lymphedema now. Single chamber pumps can cause
fluid to move in both directions, meaning fluid can build up in the already-swollen area. Also, the pressure in sin-
gle-chamber pumps does not stimulate lymphatic flow as sequential pumps do.92 Acceptable pumps should have
appliances (pump garments) with multiple chambers and have a sequential pressure delivery with the chambers
compressing in a specific pattern determined individually for the patient’s diagnosis and pattern of lymphedema.93
Since lymphedema is a condition involving a quadrant of the body (upper or lower trunk, chest, abdomen), and
not just the limb with the swelling, many patients who require IPC will need a pump that treats the trunk of the
body and not just the limb with the swelling.
Recommended pump pressures generally range from 30-60 mmHg, although lower or higher pressures may be
indicated.200 The pressure displayed on the pump may not accurately reflect what is delivered to the skin surface.
One study demonstrated considerable differences in skin/device interface pressure patterns and magnitude which
may have an impact on therapeutic outcomes.94 This is a significant concern because superficial structures may
be harmed if the pressures applied in therapy are too high.95 In general, lower pressures are considered to be
safer, but the pressure has to be individualized to the patient’s diagnosis and skin condition.95,200 The length of
each treatment is usually one hour. IPC is not a “stand-alone” treatment. It is utilized along with standard CDT to
maintain control of lymphedema at home.90,91 (Phase II). To maintain edema control, a compression garment, or
short-stretch bandages, should be worn between pump treatments and also when IPC therapy is discontinued.136
Patients being considered for IPC therapy must be evaluated by a physician or health-care provider with expertise
in lymphedema. It is important to insure safe selection of the proper device and appropriateness of IPC. The pre-
scription must include the intensity of pressure and pattern of pressure needed, taking into consideration several
aspects of the patient’s situation including determination of need for programmable pressure to treat fibrotic ar-
eas,200,201 address treatment of ulcers, and adjust for patient’s level of pain and skin sensitivity. If trunk, chest or
genital swelling is present, the physician must determine whether a pump that provides appliances to treat those
areas is necessary or if the patient can manage the trunk swelling through self-MLD or garments. If a pump with
only extremity attachments is used, close monitoring should be instituted to detect an increase in edema or fibrotic
(hard) tissue above the device sleeve, called a fibroscelerotic ring.96 If this occurs, consideration should be given
to using a device that treats the trunk in addition to the extremities. Additionally, the physician or health-care pro-
vider must evaluate the impact of various other medical conditions that are usually considered contraindications
for pneumatic compression therapy, including acute infection, severe arterial vascular disease, acute superficial
or deep vein phlebitis (inflammation or clot), recurrent cancer in the affected area, or uncompensated congestive
heart failure.
Surgical Treatment of LE
Surgery for lymphedema is not curative, but it has been used in specific circumstances for control of a severe
condition. Circumstances where surgery may be considered are: reducing the weight of the affected limb, minimiz-
ing the frequency of inflammatory attacks, improving cosmetic appearance, or fitting the limb into garments. As
with all surgical procedures, the risks and benefits must be weighed against the individual needs of the patient,
and the expertise of the surgical team. Surgery is usually only considered when adequate trials of all usual methods of
treatment have failed.97,98 There are several types of surgical procedures available that have been used for lymph-
edema: (a) excisional operations, including debulking and liposuction, (b) tissue transfers, and (c) microsurgical
lymphatic reconstruction. There are very few surgeons who perform these procedures. It is extremely important
that patients with lymphedema are treated by surgeons experienced in the care of lymphedema and who work
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Debulking surgery removes the hard connective tissue and any large folds of fatty tissue associated with the
lymphedema-affected body part.99-101 The potential risks of this surgery include prolonged hospitalization, poor
wound healing, nerve damage or loss, significant scarring, destruction of the remaining lymphatic vessels in that
body part, loss of limb function, return of swelling, poor cosmetic results, and decrease in quality of life. Post-op-
eratively, compression garments are still necessary for the maintenance of the limb and must be worn life-long due
to the lymphatic scarring from these surgeries and lymphatic insufficiency.
Liposuction
Liposuction involves the circumferential removal of fatty tissue deposits in the body part affected by long-standing
lymphedema. It is generally performed under general anesthesia and involves the creation of many small incisions.
Tubular suction devices are inserted into the incisions by the surgeon to break up, liquefy, and suction out the
fat.102-104 Liposuction for lymphedema is similar, but not exactly the same, as cosmetic liposuction. Tight bandag-
ing is necessary to stop the bleeding after liposuction for lymphedema. Life-long compression garments are gen-
erally needed to prevent lymphedema from coming back due to the scarring of lymph vessels that can occur from
the procedure. The risks of liposuction include bleeding, infection, skin loss, abnormal sensation (such as numb-
ness, tingling, “pins and needles” feeling), and lymphedema returning.
Tissue Transfers
Tissue transfers (grafts) have been attempted to bring lymph vessels into a congested area to remove excess
interstitial fluid. There are few studies of the long-term effectiveness of tissue transfers for lymphedema. Pub-
lished articles are either outdated, done on animals, or describe lymph vessel function in breast reconstruction
flaps.104,105
Microsurgical Lymphatic Reconstruction
Microsurgical and supramicrosurgical (much smaller vessels) techniques have been developed to move lymph
vessels to congested areas to try to improve lymphatic drainage. Surgeries involve connecting lymph vessels and
veins, lymph nodes and veins, or lymph vessels to lymph vessels. Reductions in limb volume have been reported
and a number of preliminary studies have been done, but there are no long-term studies of the effectiveness of
these techniques.106-115
Summary on Surgical Treatments
In general, surgical treatment is associated with significant risks, may result in reduced swelling for an unknown
time, and is done by very few surgeons with experience in lymphedema. Surgical management of lymphedema
should always be done in conjunction with CDT and does not stop the need for compression garments and Phase
II maintenance. Since CDT, and other adjunctive therapies such as advanced garments and IPC, can usually pro-
duce good management in compliant patients, surgery is rarely a necessary consideration.138
Pharmaceutical Approaches
Lymphedema should not be exclusively treated with drugs or dietary supplements. Diuretics are ineffective for
removal of interstitial fluid from the tissues. Excess diuretic use can lead to dehydration, electrolyte imbalance,
and tissue damage. However, diuretics may be medically indicated in patients with lymphedema who have other
medical conditions such as high blood pressure and heart disease. Therefore, diuretic use must be assessed on a
case-by-case basis. Individuals with lymphedema should not stop diuretics before checking with their physician or
health care provider.
NLN • 116 New Montgomery Street, Suite 235 • San Francisco, CA 94105 Infoline: 1-800-541-3259 • Email: [email protected] • Online: www.lymphnet.org NLN Position Paper: The Diagnosis And Treatment Of LymphedemaPage 10 of 19 Some drugs such as Coumarin (not coumadin) and Diosmin have been tried for lymphedema. They have not been found to be effective and have adverse side effects.116-123 Natural Supplements
There is limited evidence from rigorously-designed studies on the use of natural supplements for lymphedema.
Studies have indicated American horse chestnut may help venous edema but not lymphedema.124 Selenium has
been reported to improve lymphedema in head and neck cancer.125,126 Bromelain, a substance found in pineapple,
has anti-inflammatory, anticoagulant, enzymatic, and diuretic effects. Some have wondered if there might be a
benefit for bromelain use with lymphedema, but it has not been studied for use specifically for lymphedema.127-132
Due to potential interactions with prescription drugs and other negative side effects, patients should check with
their physician or health-care provider before taking any natural supplement.
Complementary, Integrative and Alternative Treatments
A number of promising treatments have been reported, but they have not yet been subjected to sufficient rigorous
research to recommend as the standard of care. These treatments include cold laser, electrical stimulation, vibratory
therapy, oscillation therapy, endermologie and aqualymphatic therapy.133-142,146 All of these techniques are done in
combination with components of CDT. Acupuncture has shown benefit for some symptoms of cancer and cancer
treatment, including fatigue, hot flashes, muscular or joint pain, neuropathy and nausea. There are no rigorous
studies on using acupuncture for treating lymphedema or using acupuncture on lymphedema extremities (see
NLN Position Paper on Risk Reduction.205). Rebounder trampolines have been advocated by some for treating
lymphedema, but there are no published studies on this treatment. Rebounding is good exercise, it but is not
known to be superior to other forms of aerobic exercise in individuals with lymphedema.
Summary on Treatment and Diagnosis of Lymphedema
Treatment of lymphedema should be undertaken only after a thorough diagnostic evaluation has been done ac-
cording to accepted guidelines by qualified practitioners. CDT is the current international standard of care for
managing lymphedema. CDT has been shown to be effective in large numbers of case studies demonstrating limb
volume reductions of 50-70% or more, improved appearance of the limb, reduced symptoms, improved quality of
life, and fewer infections after treatment. Even people with progressive lymphedema for 30 years or more before
starting CDT have been shown to respond. Patient adherence during Phase II CDT is critical for preserving volume
reduction. It is recommended that CDT adaptations or other lymphedema treatments be used on a case-by-case
basis under the supervision of a health-care provider (physician, nurse, physician assistant, therapist) with demon-
strated expertise in lymphedema management. IPC is a demonstrated effective adjunct to CDT. All interventions
for lymphedema must have the goals of inducing and maintaining volume reduction, preventing medical compli-
cations, improving skin condition, reducing infection, enhancing patient adherence, and improving comfort and
quality of life.
This document has been written and reviewed by members of the 2010-2011 NLN Medical Advisory Committee
(MAC). MAC members have disclosed no relevant financial arrangements or affiliations.
REFERENCES
1. Foldi E, et al. (2005).The Science of Lymphoedema Bandaging in Calne, S. Editor. European Wound Management Association (EWMA). Focus Document: Lymphoedema Bandaging in Practice. London: MEP Ltd, 2-4 2. Casley-Smith, J. (1995). Alterations of untreated lymphedema and its grades over time. Lymphology, 28,174-1853. MacLaren, J. (2001). Skin changes in lymphoedema: pathophysiology and management options. Int J Palliat Nurs, 7, 4. Yasuhara, H. (1996). A study of the advantages of elastic stockings for leg lymphedema. Int Angiol, 15, 272-277 NLN • 116 New Montgomery Street, Suite 235 • San Francisco, CA 94105 Infoline: 1-800-541-3259 • Email: [email protected] • Online: www.lymphnet.org NLN Position Paper: The Diagnosis And Treatment Of LymphedemaPage 11 of 19 5. Gordon, K (2007). A guide to lymphedema. Expert Review of Dermatology, 2 (6) 741-7526. Armer J et al.(2009) 30-month post-breast cancer treatment lymphoedema. J Lymphoedema, 4,14–187. Ridner, S.(2009) The PsychoSocial Impact of Lymphedema. Lymphat Res Biol. 7, 109–1128. Ahmed, R. J (2008) Lymphedema and Quality of Life in Breast Cancer. Survivors: The Iowa Women’s Health Study. 9. Shih, Y. (2009) Incidence,Treatment Costs, and Complications of Lymphedema After Breast Cancer Among Women of Working Age: A 2-Year Follow-Up Study. JCO 27, 2007-2014 10. Executive Committee of International Society of Lymphology (2009) The Diagnosis and Treatment of Peripheral Lymphedema. Consensus Document of the International Society of Lymphology. Lymphology, 42, 51-60 11. Mayrovitz HN (2009)The standard of care for lymphedema: current concepts and physiological considerations. 12. Szuba, A (2000) Decongestive lymphatic therapy for patients with cancer-related or primary lymphedema. American 13. Godette, K. (2006) Can Manual Treatment of Lymphedema Promote Metastasis? J Soc Integrat Oncol. ,4, 8-1214. Pinell, XA et al.(2008) Manipulative therapy of secondary lymphedema in the presence of locoregional tumors. 15. Hinrichs CS, et al. (2004) The effectiveness of complete decongestive physiotherapy for the treatment of lymphedema following groin dissection for melanoma. J Surg Oncol. 85: 187–192 16. Lasinski, B. (2002). Comprehensive lymphedema management: results of a five-year follow-up. Lymphology, 35, 17. Morgan, R.G. (1992). Complex physical therapy for the lymphoedematous arm. J Hand Surg, 17, 437-44118. Thomas, RC et al. (2007) Reduction of lymphedema using complete decongestive therapy: roles of prior radiation therapy and extent of axillary dissection. J Soc Integrat Oncol.5, 87-91 19. Koul et al. (2007) Efficacy of complete decongestive therapy and manual lymphatic drainage on treatment related lymphedema in breast cancer. Int. J. Radiation Oncology Biol. Phys, 67, 841–846.
20. Foldi, E. (1989). The lymphedema chaos: a lancet. Ann Plast Surg, 22, 505-515.
21. Foldi E, (1998) The Treatment of Lymphedema. Cancer 83 Suppl 12B, 2833-2834. 22. Ko, D. (1998). Effective treatment of lymphedema of the extremities. Arch Surg, 133, 452-45823. Boris M, et al (1994). Lymphedema reduction by noninvasive complex lymphedema therapy. Oncology. 9, 95-10624. Johnstone, PA et al. (2006) Role of patient adherence in maintenance of results after manipulative therapy for 25. Mondry T et al (2004) Prospective trial of complete decongestive therapy for upper extremity lymphedema after 26. Hammer JB et al. (2007) Lymphedema Therapy Reduces the Volume of Edema and Pain in Patients with Breast Cancer. Annals of Surgical Oncology 14, 1904–1908. 27. Ferrandez, J. (1996). Lymphoscintigraphic aspects of the effects of manual lymphatic drainage. J Mal Vasc, 21, 28. Franzcek U et al (1997) Combined physical therapy for lymphedema evaluated by fluorescence microlymphography and lymph capillary pressure measurements. J Vasc Res, 34, 306-311 29. Hayes, S et al.(2008) Lymphedema After Breast Cancer: Incidence, Risk Factors, and Effect on Upper Body Function. 30. Weiss, J. (2002). The effect of complete decongestive therapy on the quality of life of patients with peripheral 31. Kim SJ et al. (2007) Effect of Complex Decongestive Therapy and the Quality of Life in Breast Cancer Patients with Unilateral Lymphedema. Lymphology 40, 143-151. NLN • 116 New Montgomery Street, Suite 235 • San Francisco, CA 94105 Infoline: 1-800-541-3259 • Email: [email protected] • Online: www.lymphnet.org NLN Position Paper: The Diagnosis And Treatment Of LymphedemaPage 12 of 19 32. Cormier, JN et al. (2009) Minimal limb volume change has a significant impact on breast cancer survivors. 33. Hormes, JM et al. (2010) Impact of lymphedema and arm symptoms on quality of life in breast cancer survivors. 34. Fu, M et al (2009) Breast Cancer Survivors’ Experiences of Lymphedema-Related Symptoms J Pain Symptom 35. Vignes, S (2006) Recurrence of lymphoedema-associated cellulitis (erysipelas) under prophylactic antibiotherapy: a retrospective cohort study JEADV,20:, 818–822 36. Cooper, R et al. (2009) Cutaneous Infections in Lymphoedema. Journal of Lymphoedema, 4, 44-4837. Al_Niaimi, F et al.(2009) Cellulitis and Lymphoedema, A Vicious Cycle. Journal of Lymphoedema. 4, 38-4238. Godoy J et al. (2007) Prevalence of cellulitis and erysipelas in post-mastectomy patients after breast cancer. Arch 39. Chamilos, G (2006) Refractory Cellulitis in a Woman With Chronic Lymphedema Infectious Diseases in Clinical 40. Schwartz, RA (2010) Stewart Treves Syndrome: Follow Up. http://emedicine.medscape.com/article/1102114- 41. Chopra, S et al. (2007) MRI of angiosarcoma associated with chronic lymphoedema:Stewart–Treves syndrome The British Journal of Radiology, 80 e310–e313 42. Tomita, K et al.(1988) Lymphangiosarcoma in postmastectomy lymphedema (Stewart-Treves syndrome): ultrastruc- tural and immunohistologic characteristics. J Surg Oncol. 38, 275-82.
43. Ruocco V, et al (2002) Lymphedema: an immunologically vulnerable site for development o f neoplasms. J Am Acad 44. McHaffie, DR et al. (2010) Stewart-Treves Syndrome of the Lower Extremity. JCO 28, e351-e35245. Gur, A et al. (2009) Risk factors for breast cancer-related upper extremity lymphedema. Central European Journal of 46. Didem, K et al (2005) The comparison of two different physiotherapy methods in treatment of lymphedema after breast surgery Breast Cancer Research and Treatment 93, 49–54 47. Williams, AF et al (2002) A randomized controlled crossover study of manual lymphatic drainage therapy in women with breast cancer-related lymphoedema. European Journal of Cancer Care 11, 254–261 48. McNeely, M. (2004). The addition of manual lymph drainage to compression therapy for breast cancer related lymph- edema: a randomized controlled trial Breast Cancer Res Treat, 86, 95-106.
49. Yamamoto et al. (2008) Study of Edema Reduction Patterns During the Treatment Phase of Complex Decongestive Physiotherapy for Extremity Lymphedema. Lymphology 41 80-86 50. Foldi E, et al. (2005)The Science of Lymphoedema Bandaging. In Calne, S. Editor. European Wound Management Association (EWMA). Focus Document: Lymphoedema bandaging in practice. London: MEP Ltd, 2-4 51. King, T. (2001). Physical properties of short-stretch compression bandages used to treat lymphedema. Am J Occup 52. Partsch, H. (2007) Assessing the Effectiveness of Multilayer Inelastic Bandaging. Journal of Lymphoedema. 2, 55-6153. Forner-Cordero I et al. (2010) Predictive factors of response to decongestive therapy in patients with breast cancer- related lymphedema. Ann Surg Oncol. 17, 744-751 54. Williams, A (2005) Practical Guidance on Lymphoedema Bandaging of the Upper and Lower Extremities. In Calne, S. Editor. European Wound Management Association (EWMA). Focus Document: Lymphoedema bandaging in practice. London: MEP Ltd, 10-14 55. Lerner R (2000) Effects of compression bandaging. Lymphology 33: 6956. Hafner J et al (2000) A Comparison of Multilayer Bandage Systems During Rest, Exercise,and Over 2 Days of Wear NLN • 116 New Montgomery Street, Suite 235 • San Francisco, CA 94105 Infoline: 1-800-541-3259 • Email: [email protected] • Online: www.lymphnet.org NLN Position Paper: The Diagnosis And Treatment Of LymphedemaPage 13 of 19 57. McKenzie, D. (2003). Effect of upper extremity exercise on secondary lymphedema in breast cancer patients: a pilot 58. Schmitz, KH et al. (2009) Weight Lifting in Women with Breast-Cancer–Related Lymphedema N Engl J Med 59. Moseley AL et al: (2005) The Effect of Gentle Arm Exercise and Deep Breathing on Secondary Arm Lymphedema. 60. Schmitz KH. Balancing lymphedema risk: exercise versus deconditioning for breast cancer survivors. Exerc. Sports 61. Johansson K, et al. (2005) Low intensity resistance exercise for breast cancer patients with arm lymphedema with or without compression sleeve. Lymphology 38,167-80 62. Mustian, K et al. (2009). Exercise for the Management of Side Effects and Quality of Life among Cancer Survivors. 63. Vaillant, L. (2002). Infectious complications of lymphedema. Rev Med Interne, 23, 403-40764. Mallon, E. (1994). Lymphedema and wound healing. Clin Dermatol,12, 89-9365. Macdonald, J. (2001). Wound healing and lymphedema: a new look at an old problem. Ostomy Wound Manage, 47, 66. Badger CM, et al (2000) A randomized, controlled, parallel-group clinical trial comparing multilayer bandaging fol- lowed by hosiery versus hosiery alone in the treatment of patients with lymphedema of the limb. Cancer 88, 2832-37 67. Cornu-Thenard, A et al. (2007) Superimposed Elastic Stockings: Pressure Measurements Dermatol Surg 33:269–27568. Lund, E. (2000). Exploring the use of CircAid legging in the management of lymphoedema. Int J Palliat Nurs, 6, 383- 69. Fu, M.R et al. (2008). Breast Cancer-Related Lymphedema: Information, Symptoms, and Risk Reduction Behaviors. J 70. Fife, C et al. Lymphoedema in Bariatric Patients. J Lymphoedema. 4, 29-37, 71. Petrek, JA (2001) Lymphedema in a Cohort of Breast Carcinoma Survivors: 20 years after diagnosis. Cancer. 92, 72. Soran, A et al. (2006) Breast Cancer Related Lymphedema-What are the Significant Predictors and how they affect the severity of lymphedema. Breast J, 12, 536-43, 73. Mahamaneerat, K et al. Breast Cancer Treatment, BMI, PostOp swelling/lymphoedema. J Lymphoedema. 3, 38-44. 74. Helyer LK, et al. (2010) Obesity is a risk factor for developing postoperative lymphedema in breast cancer patients. 75. Shaw, S et al. (2007) A Randomized Controlled Trial of Weight Reduction as a Treatment for Breast Cancer-related 76. Lewin, J et al. (2010) Preliminary Experience With Head and Neck Lymphedema and Swallowing Function in Patients Treated for Head and Neck Cancer. Perspectives on Swallowing and Swallowing Disorders. Dysphagia 19, 45-52 77. Murphy, B et al. 2010, Late-effect laryngeal oedema/lymphoedema. Journal of Lymphoedema, 5, 92-9378. Smith B et al. (2010) Lymphedema Management in Head and Neck Cancer. Current Opinions in Otolaryngology and 79. Szolnoky et al.(2009) Intermittent Pneumatic Compression Acts Synergistically With Manual Lymphatic Drainage In Complex Decongestive Therapy. Lymphology 42,188-194 80. Miranda F et al. (2001) Effect of Sequential Intermittent Pneumatic Compression On Both Leg Lymphedema Volume and On Lymph Transport As SemiQuantitatively Evaluated by Lymphoscintigraphy. Lymphology 34 135-141.
81. Johansson, K. (1988). A randomized study comparing manual lymph drainage with sequential pneumatic compres- sion for treatment of postoperative arm lymphedema. Lymphology, 31, 56-64.
NLN • 116 New Montgomery Street, Suite 235 • San Francisco, CA 94105 Infoline: 1-800-541-3259 • Email: [email protected] • Online: www.lymphnet.org NLN Position Paper: The Diagnosis And Treatment Of LymphedemaPage 14 of 19 82. Adams,KE et al. Direct Evidence of lymphatic function improvement after advanced pneumatic compression device treatment of lymphedema. Biomedical Optics Express 1, 114 83. Pappas, C. (1992). Long-term results of compression treatment for lymphedema. J Vasc Surg. 16(4). 555-564.
84. Yamazaki, A. (1988). Clinical experience using pneumatic massage therapy for edematous limbs over the last 10 85. Dini, D. (1998). The role of peumatic compression in the treatment of postmastectomy lymphedema. A randomized phase III study. Ann Oncol. 9. 187-190.
86. Szuba, A. (2002). Decongestive lymphatic therapy for patients with breast carcinoma-associated lymphedema. A randomized, prospective study of a role or adjunctive intermittent pneumatic compression. Cancer, 95, 2260-2267 87. Szolnoky, G etal. (2008) Complete Decongestive Physiotherapy With and Without Pneumatic Compression For Treatment of Lipidema: A Pilot Study. Lymphology 41: 40-44 88. Partsch, H. (1980). Experimental observations on the effect of a pressure wave massage apparatus (Lympha-Press) in lymphedema. Phlebologie Proktologie. 80. 124-128 89. Wilburn, O. (2006). A pilot, prospective evaluation of a novel alternative for maintenance therapy for breast cancer- 90. Hammond, T et al. (2009) Programmable Intermittent Pneumatic Compression as a Component of Therapy for Breast Cancer Treatment–Related Truncal and Arm Lymphedema Home Health Care Management Practice Online First, doi:10.1177/1084822309343421 91. Ridner, S et al. (2008) Home-based lymphedema treatment in patients with cancer-related lymphedema or noncancer- related lymphedema. Oncol Nurs Forum. 35, 671-80 92. Adams, KE et al. Direct Evidence of lymphatic function improvement after advanced pneumatic compression device treatment of lymphedema. Biomedical Optics Express 1, 114 93. Pilch et al. (2009) Influence of Compression Cycle Time and Number of Sleeve Chambers on Upper Extremity Lymph- edema Volume Reduction During Intermittent Pneumatic Compression. Lymphology 42 26-35 94. Mayrovitz, HN. (2007) Interface pressures produced by two different types of lymphedema therapy devices. Phys 95. Segers P, Belgrado JP, LeDuc A, et al. Excessive pressure in multichambered cuffs used for sequential compression 96. Boris, M. (1998). The risks of genital lymphedema after pump treatment for lower limb lymphedema. Lymphology. 31. 97. Gloviczki, P. (1999). Principles of surgical treatment of chronic lymphoedema. International Angiology, 18 42-46.
98. Vignes, S. (2002). Role of surgery in the treatment of lymphedema. Rev. Med Interne. 23, 426-430.
99. Miller, T.A. (1998). Staged skin and subcutaneous excision for lymphedema: a favorable report of long-term results. 100. Kim, D.I. (2004). Excisional surgery for chronic advanced lymphedema. Surgery Today, 34, 134-137101. Salgado CJ, Sassu P, Gharb BB, et al. Radical reduction of upper extremity lymphedema with preservation of perfo- rators. Ann Plast Surg. Sep 2009;63(2):302-6 102. Brorson, H. (2003). Liposuction in arm lymphedema treatment. Scand J Surg. 92, 287-95.
103. Brorson H, Ohlin K, Olsson G, Svensson B. Liposuction of leg lymphedema: Preliminary 2 year results. Lymphology 104. Fazhi Q et al, (2009)Treatment of upper limb lymphedema with combination of liposuction, myocutaneous flap trans- fer, and lymph-fascia grafting: A preliminary study. Microsurgery. 29, 29-34. 105. Slavin SA et al.(1999) Return of lymphatic function after flap transfer for acute lymphedema. Ann Surg. 229,421-7106. Weiss M, et al (2003) Dynamic lymph flow imaging in patients with oedema of the lower limb for evaluation of the functional outcome after autologous lymph vessel transplantation: an 8-year follow-up study. Eur J Nucl Med Mol Imaging; 30, 202-206.
NLN • 116 New Montgomery Street, Suite 235 • San Francisco, CA 94105 Infoline: 1-800-541-3259 • Email: [email protected] • Online: www.lymphnet.org NLN Position Paper: The Diagnosis And Treatment Of LymphedemaPage 15 of 19 107. Becker C, et al ( 2006) Post mastectomy lymphedema: long-term results following microsurgical lymph node trans- 108. Koshima, I. (2000). Supermicrosurgical lymphaticovenular anastomosis for the treatment of lymphedema in the upper extremities. J Reconstr Microsurg, 16, 437-442.
109. Baumeister, R.G. (2003). The microsurgical lymph vessel transplantation. Handchir Mikrochir Plast Chir, 35, 202-209.
110. Abalmasov, K.G. (2003). Lymphedema of the extremities: prospects of microsurgical treatment. Angiol Sosud Khir, 9, 111. Vignes, S. (2003). Quantitative evaluation and qualitative results of surgical lymphovenous anastomosis in lower limb 112. Chang, D. (2010): Lymphaticovenular Bypass for Lymphedema Management in Breast Cancer Patients: A Prospective Study. Plastic & Reconstructive Surgery 126, 752-758. 113. Campisi C, et al, (2006) Lymphatic microsurgery for the treatment of lymphedema. Microsurgery; 26(1): 65-69.
114. Campisi C et al (2004) Microsurgical techniques for lymphedema treatment: derivative lymphatic-venous microsurgery. 115. Narushima M, et al (2010) The intravascular stenting method for treatment of extremity lymphedema with multicon- figuration lymphaticovenous anastomoses. Plast Reconstr Surg. 125, 935-943 116. Casley-Smith, J. (1993). Treatment of lymphedema of the arms and legs with 5, 6 benzo-a-pyrone. N Engl J Med, 117. Casley-Smith, J. (1993). Treatment of filarial lymphodema and elephantiasis with 5, 6 benzo-a-pyrone (coumarin). Br 118. Loprinzi, C. (1999). Lack of effect of coumarin in women with lymphedema after treatment for breast cancer. N Engl 119. Taylor, H. (1993). A double blind clinical trial of hydroxyethylrutosides in obstructive arm lymphodema. Phlebology, 8, 120. Mortimer, P. (1995). A double-blind, randomized parallel-group, placebo-controlled trail of 0-(ß-hydroxyethyl)- rutosides in chronic arm oedema resulting from breast cancer treatment. Phlebology.10, 51-55.
121. Kendall, S. (1993). Effects of hydroxyethylrutosides on the permeability of microvessels in t frog mesentery. Br J 122. Bouskela, E. (1999). Effects of diosmin-hospieridin on inceased microvascular permeability in the hamster cheek pouch. International Journal of the Microcirculation: Clinical and Experimental, 14, 79. 123. Cotonat, A. (1989). Lymphangogue and pulsatile activities of Daflon 500 mg on canine thoracic lymph duct. 124. Siebert U, et al. (2002) Efficacy, routine effectiveness, and safety of horsechestnut seed extract in the treatment of chronic venous insufficiency. A meta-analysis of randomized controlled trials and large observational studies. Int Angiol. 4, 305-315 125. Micke O, et al. (2003) Selenium in the treatment of radiation-associated secondary lymphedema. Int J Radiat Oncol 126. Bruns F, et al.(2004) Selenium in the treatment of head and neck lymphedema. Med. Princ Pract. 13:185-90.
127. Cirelli, M. (1962). Treatment of inflammation and edema with bromelain. Delaware Med J, 34,159-167. 128. Seligman, B. (1969). Oral bromelains as adjuncts in the treatment of acute thrombophlebitis. Angiology, 20, 22-6.
129. Schafer A. (1985). Plasma inhibition of platelet function and of arachidonic acid metabolism. J Clin Invest, 75, 456- 130. Kelly, G. (1996). Bromelain: a literature review and discussion of its therapeutic applications. Altern Med Rev, 1, 243- 131. Munzig, E. (1995). Bromelain protease F9 reduces the CD44 mediated adhesions of human peripheral blood lym- phocytes to human umbilical vein endothelial cells. FEBS Lett, 351, 215-218.
NLN • 116 New Montgomery Street, Suite 235 • San Francisco, CA 94105 Infoline: 1-800-541-3259 • Email: [email protected] • Online: www.lymphnet.org NLN Position Paper: The Diagnosis And Treatment Of LymphedemaPage 16 of 19 132. Gaby, A. (1995). The story of bromelain. Nutr Healing, 3, 4-11.)133. Piller et al Placebo controlled trial of mild electrical stimulation. Journal of Lymphoedema, 2010, Vol 5, No 1. 15-25.
134. Moseley AL et al. The Sun Ancon Chi Machine Aerobic Exerciser: A New Patient Focused Home Based Therapy For People with Chronic Secondary Leg Lymphedema. Lymphology 37 (2004) 53-61.
135. Carati C, et al. Treatment of Postmastectomy Lymphedema with Low-Level Laser Therapy. Cancer 2003;98:1114–22136. Hafner, A et al. (2005) Combined modality treatment of lymphedema using the Reid Sleeve and the Biocompression Optiflow system. Journal of Clinical Oncology. 23(s), 592.
137. Lawrence, S. (2008) Use of a Velcro Wrap System in the management of lower limb lymphoedema/oedema. Journal 138. Warren, A et al. (2007) Lymphedema: A comprehensive review. Annals of Plastic Surgery, 59, 464-472139. Tidhar, D et al. (2010) Aqualymphatic therapy in women who suffer from breast cancer treatment-related lymphede- ma: a randomized controlled study. Support Care Cancer. 18: 383-392 140. Jahr, S et al. (2008) Effect of treatment with low intensity and extremely low frequency electrostatic fields (deep oscil- lation) on breast tissue and pain on patients with secondary breast lymphoedema. J Rehabil Med. 40, 645-650 141. Omar A et al. (2010) Treatment of Post Mastectomy Lymphedema with laser therapy: double blind placebo control randomized study. J Surg Research, 165, 82-90 142. Kozanoglu E et al, (2009) Efficacy of Pneumatic Compression and Low Level Laser Therapy in the treatment of post mastectomy lymphoedema: a randomized controlled trial. Clin Rehabil. 23, 117-124 143. Armer J et al. (2010) Post Breast Cancer Lymphedema: Incidence Increases from 12 to 30 to 60 months. Lymphol- 144. Ward, L, (2006) Bioelectrical Impedance Analysis: Proven Utility in Lymphedema Risk Assessment and Therapeutic 145. Moseley A et al (2007) Endermologie (with and without compression bandaging)--a new treatment option for second- ary arm lymphedema. Lymphology, 40, 129-137.
146. Lee B et al.(2010) Diagnosis and treatment of primary lymphedema. Consensus document of the International Union of Phlebology (IUP)-2009. Int Angiol 29,454-70 147. Moseley A et al. (2008) Reliability of bioimpedance spectroscopy and tonometry after breast conserving cancer treat- 148. Moseley A et al. (2002) Combined opto-electronic perometry and bioimpedance to measure objectively the effective- ness of a new treatment intervention for chronic secondary leg lymphedema. Lymphology. 35. 136-43 149. Rockson, S et al. (2007) Bioimpedance analysis in the assessment of lymphoedema diagnosis and management. 150. Mayrovitz, H (2009) Suitability of single tissue dielectric constant measurements to assess local tissue water in normal and lymphedematous skin. Clin Physiol Imaging 29: 123-127 151. Mayrovitz, H (2009) Assessing lymphedema by tissue indentation force and local tissue water. Lymphology 42, 88-98152. Mayrovitz, H (2007) Assessing local tissue edema in postmastectomy lymphedema. Lymphology 40, 87-94153. Corica, GF et al (2006) Objective measurement of scarring by multiple assessors: is the tissue tonometer a reliable 154. Mirnajafi, A et al. (2004) A New Technique for Measuring Skin Changes of Patients with Chronic Postmastectomy 155. Ridner S, et al. (2007) Comparison of upper limb volume measurement techniques and arm symptoms between healthy volunteers and individuals with known lymphedema Lymphology 40, 35-46 156. Chen Y et al. (2008) Reliability of Measurements For Lymphedema in Breast Cancer Patients. Am J Phys Med NLN • 116 New Montgomery Street, Suite 235 • San Francisco, CA 94105 Infoline: 1-800-541-3259 • Email: [email protected] • Online: www.lymphnet.org NLN Position Paper: The Diagnosis And Treatment Of LymphedemaPage 17 of 19 157. Cheville A et al. The Grading of Lymphedema in Oncology Clinical Trials. (2003) Seminars in Radiation Oncology. 13, 158. Gniadecka, M.(1996) Localization of dermal edema in lipodermatosclerosis, lymphedema, and cardiac insufficiency: High frequency ultrasound examination of intradermal echogeniticy. J Amer Acad Derm 35, 37-41 159. Astrom K et al.(2001) Imaging of primary, secondary and mixed forms of lymphedema. Acta Radiol. 42 409-416160. Deltombe T et al. (2007) Reliability and limits of agreement of circumferential, water displacement and optoelectric volumetry in the measurement of upper limb lymphedema. Lymphology 40, 26-34 161. Hayes S et al. (2005) Comparison of Methods to Diagnose Lymphoedema among breast cancer survivors: 6 month 162. Pecking A et al. (2008) Relationship between lymphoscintigraphy and clinical findings in lower limb lymphedema: toward a comprehensive staging. Lymphology 41, 1-10 163. Hayes S et al. (2008) Lymphedema secondary to breast cancer: how choice of measure influences diagnosis, prevalence, and identifiable risk factors. Lymphology 41,18-28 164. Kramer E. (2001) Lymphoscintigraphy: Defining a Clinical Role. Lymph Res Biol. 2, 32-7165. Bellini C et al (2005) Diagnostic Protocol for Lymphoscintigraphy in Newborns. Lymphology 38, 9-15166. Hwang et al (2007) Lymphoscintigraphy predicts response to complex physical therapy in patients with early stage extremity lymphedema. Lymphology 40-172-176 167. Szuba (2007) Presence of Axillary lymph nodes and lymph drainage within arms of women with and without breast cancer-related lymphedema. Lymphology 40-81-86 168. Bellini C et al. (2008) Lymphatic Dysplasias in Newborns and Children: the role of lymphoscintigraphy. J Pediatr 152. 169. Ng, M et al. (2010) Clinimetrics of volume measurement in upper limb LE. J Lymphoedema. 5, 62-67170. Unno, N et al. (2008) Quantitative Lymph Imaging for Assessment of Lymph Function using Indocyanine Green Fluorescence Lymphography. Eur J Vasc Endovasc Surg 36, 230-236 171. Unno N et al. (2010) A novel method of measuring human lymphatic pumping using indocyanine green fluorescence 172. Rasmussen J et al.(2009) Lymphatic Imaging in Humans with Near-Infrared Fluorescence. Curr Opin Biotechnol. 173. Rasmussen J et al (2010) Human Lymphatic Architecture and Dynamic Transport Imaged Using Near-infrared 174. Maus, E. (2010) Near-infrared fluorescence imaging of lymphatics in head and neck lymphedema. Head and Neck. Online November 12, 2010. DOI: 10.1002/hed.21538 175. Damstra, R (2008) Diagnosis and Therapy in Children with Lymphoedema. Plebology 23: 276-286176. Ferrell RE (2008) Candidate Gene Analysis in Primary Lymphedema. Lymphat Res Biol 6, 69-76177. Connell, FC (2009) et al Analysis of the coding regions of VEGFR3 and VEGFC in Milroy disease and other primary 178. Boon, L (2011) Pathogenesis of Vascular Anomalies. Clinics in Plastic Surgery. 38, 7-19. Online ahead of print No- 179. Schumacher, M, et al. (2008)Treatment of Venous Malformations-comparison to lymphatic malformations. Lymphology. 180. Bellini C. (2005) Pulmonary Lymphangiectasia. 38, 111-121181. Wang, Z. (2005) Clinical Report of congenital lymphatic malformations and partial gigantism of the hands associated with a heterogenous karyotype. Am J Medical Genetics 132A, 106-107 182. Gupta, N et al. (2006) A female with hemihypertrophy and chylous ascites- Klippel Trenaunay Syndrome or Proteus Syndrome: a diagnostic dilemma. Clin Dysmorphol. 15: 229-231 NLN • 116 New Montgomery Street, Suite 235 • San Francisco, CA 94105 Infoline: 1-800-541-3259 • Email: [email protected] • Online: www.lymphnet.org NLN Position Paper: The Diagnosis And Treatment Of LymphedemaPage 18 of 19 183. Bellini C et al. (2009) Congenital lymphatic dysplasias: genetics review and resources for the lymphologist. Lymphol- 184. Starritt, E et al. (2004) Lymphedema after complete axillary node dissection for melanoma. Ann Surg 240, 866-874185. Cormier, J et al (2010) Lymphedema beyond breast cancer: A systematic review and meta-analysis of cancer-related secondary lymphedema. Cancer 116 5138-5149.
186. Chang, S et al (2010) Prospective assessment of postoperative complications and associated costs following inguinal lymph node dissection (ILND) in melanoma patients. Ann Surg Oncol. 17, 2764-72 187. Lacomba, M (2010) Effectiveness of early physiotherapy to prevent lymphoedema after surgery for breast cancer: randomised, single blinded, clinical trial 188. Soo, J et al (2008) Lymphatic abnormalities demonstrated by lymphoscintigraphy after lower limb cellulitis. 189. Piller, N, (2009) Phlebolymphoedema/chronic venous lymphatic insufficiency: an introduction to strategies for detection, differentiation and treatment. Phlebology 24:51-55 190. Cornish, B et al. (2007) Can bioimpedance spectroscopy tell us about the form of lymphoedema? In Scharfetter and Merwa (Eds) 13th International Conference on Electrical Bioimpedance and 8th Conference on Bioimpedance Tomography. Springer. 795-798.
191. Bar-Ad, et al (2008) Time Course of Mild Arm Lymphedema After Breast Conservation Treatment for Early-Stage Breast Cancer, Intl Journal Radiation Oncology Biology Physics 78, 85-90 192. Lawenda, B et al (2009) Lymphedema: A primer on the identification and management of a chronic condition in oncologic treatment. CA: A Cancer Journal for Clinicians. 59, 8-24. 193. Bernas, M et al (2010) Lymphedema: How do we diagnose and reduce the risk of this dreaded complication of breast cancer treatment? Curr Breast Cancer Rep 2, 53-58. 194. Szuba, A et al. (2003) The third circulation: radionuclide lymphoscintigraphy in the evaluation of lymphedema. J Nucl 195. Szuba, A et al (2003) Diagnosis and treatment of concomitant venous obstruction in patients with secondary lymph- edema. J Vasc Intervent Radiol. 13,799-803 196. Szuba, A et al (2000) Decongestive lymphatic therapy for patients with cancer-related or primary lymphedema. Am J 197. Szuba, A et al (1998) Lymphedema: classification, diagnosis and therapy. Vasc Med, 3, 145-156198. Szuba, A et al (1997) Lymphedema: anatomy, physiology and pathogenesis. Vasc Med, 4,321-6199. Olszewski, W. (2010) Tissue fluid pressure and flow in the subcutaneous tissue in lymphedema-hints for manual and pneumatic compression therapy. Phlebolymphology. 17, 144-50 200. Olszewski, W (2009) Anatomical distribution of tissue fluid and lymph in soft tissues of lower limbs in obstructive lymphedema-hints for physiotherapy. Phlebolymphology. 16, 283-289. 201. Brice, G et al (2002) Analysis of the phenotypic abnormalities in lymphoedema-distichiasis syndrome in 74 patients with FOXC2 mutations or linkage to 16q24. J Med Genet, 39, 478-483.
202. Moseley A, et al. (2008) Exercise for Limb Lymphoedema: evidence that it is beneficial. J Lymphoedema. 3,51-56203. Gultig, O (2005) Lymphoedema bandaging for the head, breast and genitalia. In Calne, S. Editor. European Wound Management Association (EWMA). Focus Document: Lymphoedema bandaging in practice. London: MEP Ltd, 2-4 204. National Lymphedema Network Position Papers, www.lymphnet.org205. Czerneic, S et al (2010) Segmental measurement of breast cancer-related arm lymphoedema using perometry and bioimpedance spectroscopy. Support Care Cancer. Online DOI: 10.1007/s00520-010-0896-8 206. Gergich, N et al (2008) Preoperative assessment enables the early diagnosis and successful treatment of lymphede- NLN • 116 New Montgomery Street, Suite 235 • San Francisco, CA 94105 Infoline: 1-800-541-3259 • Email: [email protected] • Online: www.lymphnet.org NLN Position Paper: The Diagnosis And Treatment Of LymphedemaPage 19 of 19 Additional References:
1. Weissleder, H and Schuchhardt, C. Lymphedema 2. Diagnosis and Therapy, 4th edition. ViaVital, Verlag 20083. American Cancer Society, ACS Complete Guide to Lymphedema: Understanding & Managing Lymp edema after 4. Foldi, M, Foldi, E, Kubik, S. Textbook of Lymphology, 6th Edition, Elsevier 20055. Kurz,I Textbook of Dr Vodder’s Manual Lymph Drainage Vol 2: Therapy 4th edition, 1997.
6. Wittlinger, H & W., Textbook of Dr Vodder’s Manual Lymph Drainage Vol 1, 7th Edition. 20047. Foldi, M, Strobenreuther, R. Foundations of Manual Lymph Drainage 3rd edition, Elsevier, 20058. Zuther JE. Lymphedema Management: The Comprehensive Guide for Practitioners. 2nd ed. New York, NY: Thieme; NLN • 116 New Montgomery Street, Suite 235 • San Francisco, CA 94105 Infoline: 1-800-541-3259 • Email: [email protected] • Online: www.lymphnet.org

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