15. AA. VV. (2012): The international Lymphoedema Framework - Second Edition. The international Lymphoedema Framework in association with the World Alliance for Wound and Lymphoedema Care, Saint-Étienne, France.
16. Auvert J., Vayssairat M., Damstra R. et al. (2002):
V olumetrics: an indispensable complementary test in lymphology. Rev. Med. Interne, 23: 388-390.
17. Bernas M., Witte M., Witte C. et al. (1996): Limb volume measurements in lymphedema: Issues and standards. Lymphology, 29: 199-201.
18. Brorson H., Hoijer P. (2012): Standardised measurements used to order compression garments can be used to calculate arm volumes to evaluate lymphoedema treatment. J. Plast. Surg. Hand. Surg., 46: 410-415.
19. Brown J. (2004): A clinically useful method for evaluating lymphedema. Clin. J. Oncol. Nurs., 8: 35-38.
10. Cavezzi A., Schingale F.,Elio C. (2010): Limb volume measurement: From the past methods to optoelectronic technologies, bioimpedance analysis and laser-based devices. Int. Angiol. 29: 392-394.
11. Cheifetz O., Haley L. (2010): Management of secondary lymphedema related to breast cancer. Can. Fam. Physician, 56: 1277-1284.
12. Cornish B., Thomas B., Ward L. et al. (2002): A new technique for the quantification of peripheral edema with application in both unilateral and bilateral cases. Angiology, 53: 41-47.
13. Czerniec S., Ward L., Lee M. et al. (2011): Segmental measurement of breast cancer-related arm lymphoedema using perometry and bioimpedance spectroscopy. Support Care Cancer, 19: 703-710.
14. De Carvalho R., Perez M., Miranda J. (2012): Assessment of the intraobserver and interobserver reliability of a communicating vessels volumeter to measure wrist-hand volume. Phys. Ther., 92: 1329-1337.
15. Deltombe T., Jamart J., Recloux S. et al. (2007): Reliability and limits of agreement of circumferential, water displacement, and optoelectronic volumetry in the measurement of upper limb lymphedema. Lymphology, 40: 26-34.
16. Devoogdt N., Lemkens H., Geraerts I. et al. (2010): A new device to measure upper limb circumferences: validity and reliability. Int Angiol., 29: 401-407.
17. Dylke E., Yee J., Ward L. et al. (2012): Normative volume difference between the dominant and nondominant upper limbs in healthy older women. Lymphat. Res. Biol., 10: 182-188.
18. Gerber L. (1998): A review of measures of lymphedema. Cancer, 15: 2803-2804.
19. Gjorup C., Zerahn B., Hendel H. (2010): Assessment of volume measurement of breast cancer-related lymphedema by three methods: circumference measurement, water displacement, and dual energy X-ray absorptiometry. Lymphat. Res. Biol., 8: 111- 119.
20. Harris R., Piller N. (2003): Three case studies indicating the effectiveness of manual lymph drainage on patients with primary and secondary lymphedema using objective measuring tools. Journal of Bodywork and Movement Therapies. 7: 213-221.
21. Herpertz U. (1994): Measuring and documentation of edema. Z. Lymphol., 18: 24-30.
22. Jaffrin M., Morel H. (2008): Body fluid volumes measurements by impedance: A review of bioimpedance spectroscopy (BIS)
THE EUROPEAN JOURNAL OF LYMPHOLOGY - Vol. XXIX - Nr. 75 - 2017
and bioimpedance analysis (BIA) methods. Med. Eng. Phys. 30: 1257-1269.
23. Karges J., Mark B., Stikeleather S. et al. (2003): Concurrent validity of upper-extremity volume estimates: Comparison of calculated volume derived from girth measurements and water displacement volume. Phys. Ther., 83: 134-145.
24. Kaulesar Sukul D., Den Hoed P.T., Johannes E. et al. (1993):
Direct and indirect methods for the quantification of leg volume: Comparison between water displacement volumetry, the disk model method and the frustum sign model method, using the correlation coefficient and the limits of agreement. J. Biomed. Eng., 15: 477-480.
25. Kim L., Jeon J., Sung I. et al. (2011): Prediction of treatment outcome with bioimpedance measurements in breast cancer. Ann. Rehabil. Med., 35: 687-693.
26. Maihafer G., Llewellyn M., Pillar J. et al. (2003): A comparison of the figure-of-eight method and water volumetry in measurement of hand and wrist size. J. Hand. Ther., 16: 305-310.
27. Mayrovitz H., Sims N., Hill C. et al. (2006): Hand volume estimates based on a geometric algorithm in comparison to water displacement. Lymphology, 39: 95-103.
28. Mayrovitz H., Sims N., Litwin B. et al. (2005): Foot volume estimates based on a geometric algorithm in comparison to water displacement. Lymphology, 38: 20-27.
29. McKinnon J., Wong V., Temple W. et al. (2007): Measurement of limb volume: laser scanning versus volume displacement. J. Surg. Oncol., 96: 381-388.
30. Megens A., Harris S., Kim-Sing C. et al. (2001): Measurement of upper extremity volume in women after axillary dissection for breast cancer. Arch. Phys. Med. Rehabil., 82: 1639-1644.
31. Meijer R., Rietman J., Geertzen J. et al. (2004): Validity and intra- and interobserver reliability of an indirect volume measurements in patients with upper extremity lymphedema. Lymphology, 37: 127-133.
32. Moseley A., Piller N., Carati C. (2002): Combined opto- electronic perometry and bioimpedance to measure objectively the effectiveness of a new treatment intervention for chronic secondary leg lymphedema. Lymphology, 35: 136-143.
33. Pani S., V anamail P .,Y uvaraj J. (1995): Limb circumference measurement for recording edema volume in patients with filarial lymphedema. Lymphology, 28: 57-63.
34. Petrek J., Pressman P., Smith R. (2000): Lymphedema: current issues in research and management. CA. Cancer. J. Clin., 50: 292-307.
35. Piller N. (2007): To measure or not to measure? what and when is the question. J. Lymphoedema, 2: 39-45.
36. Ramos S., O’Donnell L., Knight G. (1999): Edema volume, not timing, is the key to success in lymphedema treatment. Am. J. Surg., 178: 311-315.
37. Ridner S., Dietrich M., Deng J. et al. (2009): Bioelectrical impedance for detecting upper limb lymphedema in nonlaboratory settings. Lymphatic Research and Biology, 7: 11-15.
38. Ridner S., Montgomery L., Hepworth J. 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.
39. RJ D., Glazenburg E., Hop W. (2006): Validation of the inverse water volumetry method: a new gold standard for arm volume measurements. Breast Cancer Res. Treat., 99: 267-273.
30