Lymph Node Status and Breast Cancer-related Lymphedema

Objective:This study examines the association between nodal positivity and risk of developing breast cancer-related lymphedema (BCRL) in patients who underwent axillary lymph node dissection (ALND). Summary Background Data:The pathophysiology of BCRL is poorly understood. It has been assumed that one of the factors predisposing to the development of BCRL is nodal positivity, although retrospective series have produced contradictory findings. As these studies have included treatment regimens known to cause BCRL, such as axillary radiotherapy, any relationship between nodal positivity and the development of BCRL remains speculative. Methods:A total of 212 patients who had undergone ALND for invasive breast cancer had arm volume measurements preoperatively, and at intervals postoperatively. No patient received axillary radiotherapy. Arm volumes were obtained by measuring serial arm circumferences every 4 cm up the arm and then calculated by using the formula for the volume of a truncated cone. Robust regression techniques were used to analyze the effects of node positivity, age, preoperative body mass index, and wound infection on arm volume excess. Results:In all, 64 of 212 (30%) patients were node positive. Contrary to previous assumptions, positive node status was significantly inversely associated with arm volume after adjusting for tumor size, time since operation, and allowing for correlated observations within subjects. Furthermore, the number of positive nodes also correlated inversely with arm volume. Conclusion:These results are counterintuitive to the conventional understanding of the pathophysiology of BCRL. A possible explanation is that patients who develop disease in axillary lymph nodes and subsequently undergo ALND have more time and ability to develop lymphatic collaterals, which may provide adequate lymphatic drainage following surgery, thereby reducing the risk of developing BCRL.

[1]  S. Duffy,et al.  Morbidity after sentinel lymph node biopsy in primary breast cancer: results from a randomized controlled trial. , 2005, Journal of clinical oncology : official journal of the American Society of Clinical Oncology.

[2]  J. Sitzia,et al.  Incidence and risk of arm oedema following treatment for breast cancer: a three-year follow-up study. , 2005, QJM : monthly journal of the Association of Physicians.

[3]  S. Vowler,et al.  Axillary vein abnormalities contribute to development of lymphoedema after surgery for breast cancer , 2005, The British journal of surgery.

[4]  W. Duquet,et al.  Lymphedema development following breast cancer surgery with full axillary resection. , 2004, Lymphology.

[5]  C. Laronga,et al.  Lymphedema of the Arm and Breast in Irradiated Breast Cancer Patients: Risks in an Era of Dramatically Changing Axillary Surgery , 2003, The breast journal.

[6]  S. Pinder,et al.  Diagnosis of axillary nodal metastases by ultrasound-guided core biopsy in primary operable breast cancer , 2003, British Journal of Cancer.

[7]  P. Mortimer,et al.  An audit of the incidence of arm lymphoedema after prophylactic level I/II axillary dissection without division of the pectoralis minor muscle. , 2003, Annals of the Royal College of Surgeons of England.

[8]  J. Schlesselman,et al.  Evaluating systematic reviews and meta-analyses. , 2003, Seminars in Reproductive Medicine.

[9]  M. R. del Turco,et al.  Prognostic factors for lymphedema after primary treatment of breast carcinoma , 2001, Cancer.

[10]  S. Dische,et al.  Morbidity Related to Axillary Irradiation in the Treatment of Breast Cancer , 2000, Acta oncologica.

[11]  A. Meek Breast radiotherapy and lymphedema , 1998, Cancer.

[12]  J. Levick,et al.  Current Puzzles Presented by Postmastectomy Oedema (Breast Cancer Related Lymphoedema) , 1996, Vascular medicine.

[13]  E. Hamrin,et al.  Clinical incidence of lymphoedema in breast cancer patients in Jönköping County, Sweden. , 1996, European journal of cancer care.

[14]  P. Vanamail,et al.  Limb circumference measurement for recording edema volume in patients with filarial lymphedema. , 1995, Lymphology.

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

[16]  M. H. Gail,et al.  Tests for no treatment e?ect in randomized clinical trials , 1988 .

[17]  A. Recht,et al.  Edema of the arm as a function of the extent of axillary surgery in patients with stage I-II carcinoma of the breast treated with primary radiotherapy. , 1986, International journal of radiation oncology, biology, physics.

[18]  D. Easton,et al.  Risk of lymphoedema following the treatment of breast cancer , 1986, The British journal of surgery.

[19]  E. Stranden A comparison between surface measurements and water displacement volumetry for the quantification of leg edema. , 1981, Journal of the Oslo city hospitals.

[20]  Tsyb Af,et al.  SECONDARY LIMB EDEMAS FOLLOWING IRRADIATION , 1981 .

[21]  Engler Hs,et al.  Volumetric arm measurements: technique and results. , 1962 .

[22]  B. Kuru,et al.  Lymphedema after treatment of breast cancer. , 2004, American journal of surgery.

[23]  V. Raina,et al.  Prevalence and risk factors for development of lymphedema following breast cancer treatment. , 2004, Indian journal of cancer.

[24]  A. Tsyb,et al.  Secondary limb edemas following irradiation. , 1981, Lymphology.

[25]  H. Engler,et al.  Volumetric arm measurements: technique and results. , 1962, The American surgeon.