Assessing lymphedema by tissue indentation force and local tissue water.

Tissue water and mechanical property changes accompany lymphedema, however the relationship between these changes, if any, is unclear. Local tissue water is quantifiable using the tissue's dielectric constant (TDC), but a non-gravity dependent handheld clinical assessment tool to easily quantify corresponding local tissue properties is not widely available. Herein such a tool is described along with results obtained with it and with TDC measurements made in healthy legs and in lymphedematous legs before and after one manual lymphatic drainage (MLD) treatment. Using the handheld device, tissue indentations to various depths could be completed and corresponding indentation forces (IF) recorded. Following tests in gels, foams, and 24 healthy human legs to confirm linearity and repeatability, IF and TDC were measured in 22 legs of 18 lymphedema patients prior to and after one MLD treatment. Results showed that pre-MLD both IF and TDC were significantly (p < 0.001) greater in lymphedematous legs compared to healthy legs and that both IF and TDC significantly (p < 0.001) decreased after MLD. However, no correlation was found between pretreatment IF and TDC nor between post-MLD changes. Thus, measurements of local IF and tissue water provide useful but apparently independent information as to lymphedematous status and its potential change with therapy.

[1]  J. Casley‐Smith,et al.  Estimating limb volumes and alterations in peripheral edema from circumferences measured at different intervals. , 1997, Lymphology.

[2]  R. Ikäheimo,et al.  Validation of a new dielectric device to assess changes of tissue water in skin and subcutaneous fat. , 2004, Physiological measurement.

[3]  Jukka S Jurvelin,et al.  Feasibility of the use of a novel soft tissue stiffness meter , 2005, Physiological measurement.

[4]  H. Mayrovitz,et al.  Skin tissue water and laser Doppler blood flow during a menstrual cycle , 2007, Clinical physiology and functional imaging.

[5]  A F Mak,et al.  Objective assessment of limb tissue elasticity: development of a manual indentation procedure. , 1999, Journal of rehabilitation research and development.

[6]  N. Piller,et al.  The use of a tissue tonometer as a diagnostic aid in extremity lymphoedema: a determination of its conservative treatment with benzo-pyrones. , 1976, Lymphology.

[7]  S. Davey,et al.  Local tissue water assessed by tissue dielectric constant: anatomical site and depth dependence in women prior to breast cancer treatment‐related surgery , 2008, Clinical physiology and functional imaging.

[8]  S Hagisawa,et al.  A skin indentation system using a pneumatic bellows. , 1994, Journal of rehabilitation research and development.

[9]  W. Olszewski,et al.  Use of tonometry to assess lower extremity lymphedema. , 1992, Lymphology.

[10]  H. Brorson,et al.  Tissue tonometry before and after liposuction of arm lymphedema following breast cancer. , 2005, Lymphatic research and biology.

[11]  E. Alanen,et al.  A dielectric method for measuring early and late reactions in irradiated human skin. , 1998, Radiotherapy and oncology : journal of the European Society for Therapeutic Radiology and Oncology.

[12]  T. Worrell,et al.  Concurrent validity of upper-extremity volume estimates: comparison of calculated volume derived from girth measurements and water displacement volume. , 2003, Physical therapy.

[13]  L. Ward,et al.  Quantification of lymphoedema using multi-frequency bioimpedance. , 1998, Applied radiation and isotopes : including data, instrumentation and methods for use in agriculture, industry and medicine.

[14]  N. Piller,et al.  A new instrument for the evaluation fo tissue tonicity in lymphoedema. , 1976, Lymphology.

[15]  D. Bates,et al.  Subcutaneous interstitial fluid pressure and arm volume in lymphoedema. , 1992, International journal of microcirculation, clinical and experimental.

[16]  M. Castiglioni,et al.  Lymphscintigraphic evaluation of manual lymphatic drainage for lower extremity lymphedema. , 2006, Lymphology.

[17]  N. Piller,et al.  Three case studies indicating the effectiveness of manual lymph drainage on patients with primary and secondary lymphedema using objective measuring tools , 2003 .

[18]  A F Mak,et al.  Estimating the effective Young's modulus of soft tissues from indentation tests--nonlinear finite element analysis of effects of friction and large deformation. , 1997, Medical engineering & physics.

[19]  N. Piller,et al.  Combined opto-electronic perometry and bioimpedance to measure objectively the effectiveness of a new treatment intervention for chronic secondary leg lymphedema. , 2002, Lymphology.

[20]  H. Mayrovitz Assessing local tissue edema in postmastectomy lymphedema. , 2007, Lymphology.

[21]  D. Bates,et al.  Quantification of rate and depth of pitting in human edema using an electronic tonometer. , 1994, Lymphology.

[22]  P. Mortimer,et al.  Validation of an optoelectronic limb volumeter (Perometer). , 1997, Lymphology.

[23]  W. Hayes,et al.  A mathematical analysis for indentation tests of articular cartilage. , 1972, Journal of biomechanics.

[24]  J. Tsauo,et al.  Reliability Study of Measurements for Lymphedema in Breast Cancer Patients , 2008, American journal of physical medicine & rehabilitation.

[25]  T. Matsumoto,et al.  Noninvasive method for measuring the electrical properties of deep tissues using an open-ended coaxial probe. , 1996, Medical engineering & physics.

[26]  J R Casley-Smith,et al.  Measuring and representing peripheral oedema and its alterations. , 1994, Lymphology.

[27]  N. Piller,et al.  Treatment of chronic postmastectomy lymphedema with low level laser therapy: a 2.5 year follow-up. , 1998, Lymphology.

[28]  S. Kar,et al.  Tissue tonometry: a useful tool for assessing filarial lymphedema. , 1992, Lymphology.

[29]  H N Mayrovitz,et al.  Assessment of limb volume by manual and automated methods in patients with limb edema or lymphedema. , 2000, Advances in skin & wound care.

[30]  A. Roberts,et al.  The use of tonometry in the assessment of upper extremity lymphoedema. , 1988, British journal of plastic surgery.

[31]  E. Alanen,et al.  Measurement of dielectric properties of subcutaneous fat with open-ended coaxial sensors. , 1998, Physics in medicine and biology.

[32]  S. Davey,et al.  Localized tissue water changes accompanying one manual lymphatic drainage (MLD) therapy session assessed by changes in tissue dielectric constant inpatients with lower extremity lymphedema. , 2008, Lymphology.

[33]  T. Eberlein Lymphedema Therapy Reduces the Volume of Edema and Pain in Patients with Breast Cancer , 2008 .