- About this Journal ·
- Abstracting and Indexing ·
- Aims and Scope ·
- Article Processing Charges ·
- Articles in Press ·
- Author Guidelines ·
- Bibliographic Information ·
- Citations to this Journal ·
- Contact Information ·
- Editorial Board ·
- Editorial Workflow ·
- Free eTOC Alerts ·
- Publication Ethics ·
- Submit a Manuscript ·
- Subscription Information ·
- Table of Contents
Volume 2013 (2013), Article ID 382138, 6 pages
Postoperative Complications following Nodal Dissection and Their Association with Melanoma Recurrence
Department of Academic Surgery, University College Cork (UCC), National University of Ireland (NUI), Cork University Hospital, Cork, Ireland
Received 3 January 2013; Accepted 30 January 2013
Academic Editors: D. Laub, J. P. Wei, and D. E. Ziogas
Copyright © 2013 Abubakr Ahmed et al. This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
Background. Although postoperative complications are common after lymph node dissection, its association with disease recurrence has not yet been fully investigated. Methods. A retrospective review of a prospectively maintained database was conducted, looking at all malignant melanoma patients with sentinel nodes positive disease requiring axillary or inguinal dissection between 2002 and 2011. Results. A total of 124 patients required nodal clearance from 317 patients with stage I/II malignant melanoma who had undergone sentinel lymph node biopsy. Of these, 104 patients met the inclusion criteria and were divided into inguinal lymph node dissections (ILND; ) or axillary lymph node dissections (ALND; ). Immunohistochemical deposits had higher detection rate in ALND (). The ILND patients had a higher recurrence rate (84.1% versus 63.4%; ) and mortality (68.3% versus 48.8%; ) without a significant difference in complications. In patients whom complications developed, 75% of the ILND group and 71.4% of the ALND group had disease recurrence, but without reaching a statistical value as an independent predictor of melanoma recurrence. Conclusion. Complications are common following ILND and ALND; however there is no significant difference in complications rates between the groups with some associations with recurrence without reaching a significant difference.
Malignant melanoma has a unique position in the surgical and oncological fields as it is responsible for 79% of mortalities despite representing less than 5% of cutaneous malignancies . The considerable variation in recurrence and survival rates among melanoma patients has motivated many researchers to look at different variables and risk factors that could predict prognosis. Morton et al. revolutionised the management of malignant melanomas in early 1990s by developing the sentinel lymph node biopsy (SLNB) technique, an important landmark in the management of clinical stage I and II cutaneous melanoma . As a result, the Multicentre Selective Lymphadenectomy Trial (MSLT) was initiated . This trial has shown that the presence of metastases in the sentinel node was the most important prognostic factor and has recommended completion lymph node dissection for patients with a positive SLNB .
There are several histopathological features that predict recurrence and survival, including the Breslow’s thickness, the presence of ulceration, and the mitotic rate . Age, sex, presence of lymphovascular invasion and SLN status are other recognised risk factors . The impact of the anatomical location of the primary melanoma on prognosis has been a matter of controversy, but some studies have suggested that truncal and head and neck melanomas have a worse prognosis compared to other sites [6–8]. Recent reports have shown that head and neck melanomas tend to present with macrometastases compared with truncal melanomas which are associated with micrometastases . Furthermore, melanomas on the upper limb tend to be thinner compared to other sites, with longer survival rates but without an identifiable reason .
Axillary and inguinal lymph node dissections are performed when lymph basin is involved and are associated with significant morbidities including infection, wound dehiscence, bleeding, deep vein thrombosis, and most importantly lymphedema. A better understanding of the preoperative risk factors could help predict which patients are more susceptible to postoperative complications. Furthermore, the development of complications in itself may have an impact on the recurrence and survival rates of patients. Up to date, there is little data on the complication rates comparing different dissection techniques. The only large trail that investigated the impact of morbidity following lymphadenectomies found strong association between lymphedema with groin dissection (26.6%) than that with axillary dissection (9%) .
Several trials including the MSLT compared the complications rates between different techniques in the similar lymph node groups. For example, in patients undergoing SLNB, comparisons were made between (1) wider margins with SLNB, (2) wider excision margins alone or (3) completion lymph nodes dissection [12, 13]. In addition, a comparison between immediate and delayed lymph node dissection has also been reported . To our knowledge, no studies to date have examined the risk factors for complications or the role of complications, as being a predictor of melanoma recurrence. This is particularly important considering that the gold slandered treatment is very invasive and associated with high risk of complications and morbidity.
Thus, the primary objective of this study was to identify preoperative risk factors for postoperative complications. A secondary end point was to investigate the postoperative complications following ALND or ILND as a possible predictor for melanoma recurrence.
A prospectively maintained database from 2002 to 2011 was retrospectively reviewed. The presented data is of a single surgeon in a tertiary melanoma referral centre where we receive referrals from all hospitals in the southern provinces in Ireland. A total of 317 patients underwent either an inguinal or axillary SLNB as a staging procedure in Cork University Hospital for stage I/II malignant melanoma (Breslow >1 mm) in this time period. All patients who subsequently went on to either an axillary or inguinal lymph node dissection due to a positive SLN and who had no evidence of systemic metastases were included.
The analysed data included patient-related variables such as gender, age at diagnosis, and primary melanoma site. The histology of the primary lesion was reviewed for melanoma type, Clark’s level, Breslow thickness, presence of ulceration, lymphovascular invasion, and mitotic index. All positive SLNs were reviewed to determine the type of metastases. The lymph node dissection samples were examined for the total number of nodes and the number of positive nodes. Data from patients who developed disease recurrence was examined to determine the site of locoregional recurrence as well as the duration from the time of original diagnosis to recurrence. Finally, postoperative complications, distant metastases and patient overall survival were recorded.
ALND involved level I and level II clearance. A level III clearance, with preservation of pectoralis minor, was performed if suspicious intraoperative nodes were found. An infrainguinal lymph node dissection was performed as standard, unless there was evidence of suprainguinal lymph node involvement.
The sentinel lymph node samples were sent for routine histopathological examination with hematoxylin and eosin (H&E) staining. H&E negative nodes were further processed with specific immunohistochemical stains for protein S100 and melanoma-related antigen HMB45. Patients with positive nodes by either H&E staining or on immunohistochemistry were scheduled for immediate lymph node dissection.
2.1. Statistical Analysis
The statistical analysis was performed using SPSS 20 (SPSS Inc. Chicago, IL, USA). Descriptive statistics such as rates and percentages were used for categorical data while mean ± standard deviations (SD) were used for continuous data. The categorical variables were tested using test, Fisher’s exact test, or the Wilcoxon rank-sum test. Continuous variables were tested using the Student’s -test. Standard logistic regression analysis was used to calculate the relative risk as odds ratios (OR with 95% confidence intervals (CI). A value of less than or equal to 0.05 was considered significant.
Using the inclusion criteria, a total of 124 suitable patients were identified. Twenty patients were excluded either because of missing data with regard to their primary histology or because of follow-up loss. The remaining 104 patients were included in the final analysis. These patients were divided into the ILND group (60.6%; ) and the ALND group (39.4%; ). The average age profile of patients in the ILND was older compared to the ALND group ( versus years; ). The follow-up period ranged from 6 months to nine years. Males were found to have a higher incidence of upper limb melanomas requiring ALND whereas females had a higher incidence of lower limb melanomas requiring ILND (). In our population group lower limb melanomas were noted to have a higher Breslow thickness () compared with melanomas of the upper limb (; ). The demographic and pathological characteristics of both groups are described in Table 1. The detection of micro- and macrometastases after SLNB was comparable in both groups. However, the ALND group had a higher rate of immunohistochemistry detected metastatic deposits ().
Patients who underwent ILND had a higher mortality rate (68.3% versus 48.8%; ) compared to the ALND group. This is most likely a reflection of the higher recurrence rate in the ILND group as seen in Table 2 (ILND (84.1%) versus ALND (63.4%); ).
It was noted that the ILND group had relatively more complications compared to the ALND group (39.7% versus 34.1% resp.; ). The development of lymphedema and seroma formation was more common in the ILND group. Wound infection rates were higher in the ALND group (Table 3).
We then went on to look for correlations between preoperative factors and complications. We found that male patients were more likely to develop complications after ALND compared to females in both univariate and multivariate analysis (, 95% CI 0.03–0.96). With regard to patients in the ILND group, Clark’s level was a predictor of postoperative complications. Patients with a Clark’s level of 4 or more carried a higher risk of developing complications postoperatively (, 95% CI 0.96–15.16) (Table 4). Despite the relative high complication rates in both groups, the impact on the development of local or distal metastases was not significant. However, most patients who did develop complications after ILND had a recurrence of their melanoma ( 19/25, 75%). Similarly, 10 out of 14 patients (71.4%) who developed complications after ALND had melanoma recurrence (Table 5).
Lymph node dissections carry significant morbidity with high rates of both acute and chronic complications. These complications negatively impact on the overall function and quality of life of these patients and also pose a significant financial burden to the health system. Surgery, in itself, has been implicated as a potential promoting factor in the propagation of malignant lesions [14, 15] and may also suppress cell-mediated immunity . Taking this into account, both surgery and the complications of surgery can synergistically combine to facilitate the establishment of new metastases and the progression of preexisting micrometastases . For these reasons, we hypothesise that high complication rates following lymph node dissection might have an effect on metastases and could be used as a prognostic indicator for recurrence.
The anatomical location of the primary lesion has been reported as an independent predictor of a positive SLN and disease-free survival. However, this role is limited when compared to other well-established variables . Our results show an increased incidence of upper limb and truncal melanomas in male patients whereas females had an increased incidence of lower limb melanomas. With regards to Breslow thickness, it was observed that patients with upper limb melanomas had thinner tumours and a better overall survival. These findings are in accordance with previous reports [9, 10]. The anatomical distribution and its relation to gender could be explained by different sun exposure patterns between genders. In addition, upper limb lesions are more likely to be noticed at an earlier stage, and thus treatment can be initiated sooner. This could account for the preponderance of thinner lesions in the upper limbs.
A significant amount of heterogeneity was observed in our data among patients with nodal basin metastases. According to the MSLT, node-positive patients who underwent an immediate lymphadenectomy had a longer disease-free survival with a lower risk of recurrence [18, 19]. The long-term survival was also observed to be extended when a lymphadenectomy was performed for micrometastases compared to being performed in the setting of clinically detectable nodal disease . Unfortunately, we reported a high mortality rate in our patients with no clinically detected nodes who went on to have an immediate lymphadenectomy. This is most likely explained by the disease stage at presentation; 49% of our patients had a Breslow thickness of >3.5 mm, which is the upper limit in most trials as it has been associated with a poor outcome . Nonetheless, we included this category of patients in our study as it is a real-time reflection of our overall practice and to avoid any selection bias.
It has been reported that morbidity is higher in patients undergoing inguinal lymphadenectomy compared to those undergoing axillary or cervical lymph node dissection . However, in the literature, there is no difference in the complication rates between ALND and ILND  which correlated with the findings in this study (39.7% in ILND versus 34.1% in ALND, ).
The literature was reviewed with particular emphasis on differences between the dissection groups. In the ILND group there was no significant difference in early postoperative mortality. A trend for developing lymphedema was noted in the deep dissection group . Despite the higher rate of regional recurrence after superficial dissections compared to deep dissections no significant difference was seen in overall survival rates . The published rate of complications following groin dissection is quite variable. Using wound infection rates as an example, our 9.5% infection rate is midway in the published figures which range from 5 to15% . Similarly, our lymphedema rate of 22.2% is comparable to the published range of 21–40% [25, 26].
Variations in surgical technique of ALND have a minimal effect on the development of complications. For example, dissections either above or below the axillary vein do not increase the complication rate  with an incidence of long term lymphedema between 1–12% [12, 27]. We report an incidence of 14.6% for both lymphedema and seroma formation in our study. It is worthwhile mentioning that due to the high incidence of seroma formation after axillary surgery, some authors consider it as a consequence of the surgery other than a direct complication .
Our results did not show a statistical significant correlation between the development of postoperative complications and the risk of recurrence of melanoma. It is important to remember that this data applies to a cohort of patients with relatively very thick melanomas which inheritably carries a higher recurrence rate. However, it is not yet known if this data applies to patients with “thinner” melanomas.
In conclusion, the overall complication rate is comparable for both groin and axillary dissections. Male patients tend to have more complications after axillary clearance compared to females. In the ILND group, a Clark’s level of 4 or more is a predictor for the development of complications. Finally this study shows that patients who developed complications had a higher incidence of melanoma recurrence; however, this did not reach significance and hence may not represent a true association.
Conflict of Interests
The authors declare no competing interests as defined by the journal or other interests that might be perceived to influence the results and discussion reported in this paper.
- A. Jemal, R. Siegel, E. Ward, Y. Hao, J. Xu, and M. J. Thun, “Cancer statistics, 2009,” CA: A Cancer Journal for Clinicians, vol. 59, no. 4, pp. 225–249, 2009.
- D. L. Morton, D. R. Wen, J. H. Wong et al., “Technical details of intraoperative lymphatic mapping for early stage melanoma,” Archives of Surgery, vol. 127, no. 4, pp. 392–399, 1992.
- D. L. Morton, J. F. Thompson, A. J. Cochran, et al., “Sentinel-node biopsy or nodal observation in melanoma,” The New England Journal of Medicine, vol. 355, no. 13, pp. 1307–1317, 2006.
- E. Månsson-Brahme, J. Carstensen, K. Erhardt, et al., “Prognostic factors in thin cutaneous malignant melanoma,” Cancer, vol. 73, no. 9, pp. 2324–2332, 2006.
- J. E. Gershenwald, W. Thompson, P. F. Mansfield et al., “Multi-institutional melanoma lymphatic mapping experience: the prognostic value of sentinel lymph node status in 612 stage I or II melanoma patients,” Journal of Clinical Oncology, vol. 17, no. 3, pp. 976–983, 1999.
- C. M. Balch, S. J. Soong, A. A. Bartolucci et al., “Efficacy of an elective regional lymph node dissection of 1 to 4 mm thick melanomas for patients 60 years of age and younger,” Annals of Surgery, vol. 224, no. 3, pp. 255–266, 1996.
- C. Garbe, P. Büttner, J. Bertz, et al., “Primary cutaneous melanoma. Prognostic classification of anatomic location,” Cancer, vol. 75, no. 10, pp. 2492–2498, 1995.
- L. Schuchter, D. J. Schultz, M. Synnestvedt et al., “A prognostic model for predicting 10-year survival in patients with primary melanoma,” Annals of Internal Medicine, vol. 125, no. 5, pp. 369–375, 1996.
- C. M. Balch, J. E. Gershenwald, S. J. Soong et al., “Multivariate analysis of prognostic factors among 2,313 patients with stage III melanoma: comparison of nodal micrometastases versus macrometastases,” Journal of Clinical Oncology, vol. 28, no. 14, pp. 2452–2459, 2010.
- G. G. Callender, M. E. Egger, A. L. Burton, et al., “Prognostic implications of anatomic location of primary cutaneous melanoma of 1 mm or thicker,” The American Journal of Surgery, vol. 202, no. 6, pp. 659–665, 2011.
- M. B. Faries, J. F. Thompson, A. Cochran et al., “The impact on morbidity and length of stay of early versus delayed complete lymphadenectomy in melanoma: results of the multicenter selective lymphadenectomy trial (I),” Annals of Surgical Oncology, vol. 17, no. 12, pp. 3324–3329, 2010.
- W. R. Wrightson, S. L. Wong, M. J. Edwards et al., “Complications associated with sentinel lymph node biopsy for melanoma,” Annals of Surgical Oncology, vol. 10, no. 6, pp. 676–680, 2003.
- N. Wasserberg, H. Tulchinsky, J. Schachter, M. Feinmesser, and H. Gutman, “Sentinel-lymph-node biopsy (SLNB) for melanoma is not complication-free,” European Journal of Surgical Oncology, vol. 30, no. 8, pp. 851–856, 2004.
- D. G. Baker, T. M. Masterson, R. Pace, W. C. Constable, and H. Wanebo, “The influence of the surgical wound on local tumor recurrence,” Surgery, vol. 106, no. 3, pp. 525–532, 1989.
- S. O. P. Hofer, D. Shrayer, J. S. Reichner, H. J. Hoekstra, and H. J. Wanebo, “Wound-induced tumor progression: a probable role in recurrence after tumor resection,” Archives of Surgery, vol. 133, no. 4, pp. 383–389, 1998.
- R. Berguer, N. Bravo, M. Bowyer, C. Egan, T. Knolmayer, and D. Ferrick, “Major surgery suppresses maximal production of helper T-cell type 1 cytokines without potentiating the release of helper T-cell type 2 cytokines,” Archives of Surgery, vol. 134, no. 5, pp. 540–544, 1999.
- J. C. Coffey, J. H. Wang, M. J. F. Smith, D. Bouchier-Hayes, T. G. Cotter, and H. P. Redmond, “Excisional surgery for cancer cure: therapy at a cost,” The Lancet Oncology, vol. 4, no. 12, pp. 760–768, 2003.
- B. L. Andersen, C. L. Shapiro, W. B. Farrar, T. Crespin, and S. Welis-DiGregorio, “Psychological responses to cancer recurrence,” Cancer, vol. 104, no. 7, pp. 1540–1547, 2005.
- K. L. Kilbridge, J. C. Weeks, A. J. Sober et al., “Patient preferences for adjuvant interferon alfa-2b treatment,” Journal of Clinical Oncology, vol. 19, no. 3, pp. 812–823, 2001.
- N. Cascinelli, A. Morabito, M. Santinami, R. M. Mackie, and F. Belli, “Immediate or delayed dissection of regional nodes in patients with melanoma of the trunk: a randomised trial,” The Lancet, vol. 351, no. 9105, pp. 793–796, 1998.
- A. A. Sarnaik, C. A. Puleo, J. S. Zager, and V. K. Sondak, “Limiting the morbidity of inguinal lymphadenectomy for metastatic melanoma,” Cancer Control, vol. 16, no. 3, pp. 240–247, 2009.
- M. De Vries, H. J. Hoekstra, and J. E. H. M. Hoekstra-Weebers, “Quality of life after axillary or groin sentinel lymph node biopsy, with or without completion lymph node dissection, in patients with cutaneous melanoma,” Annals of Surgical Oncology, vol. 16, no. 10, pp. 2840–2847, 2009.
- T. M. D. Hughes, R. P. A'Hern, and J. M. Thomas, “Prognosis and surgical mananagement of patients with palpable inguinal lymph node metastases from melanoma,” British Journal of Surgery, vol. 87, no. 7, pp. 892–901, 2000.
- S. E. Singletary, R. Shallenberger, and V. F. Guinee, “Surgical management of groin nodal metastases from primary melanoma of the lower extremity,” Surgery Gynecology and Obstetrics, vol. 174, no. 3, pp. 195–200, 1992.
- C. P. Karakousis, M. A. Heiser, and R. H. Moore, “Lymphedema after groin dissection,” The American Journal of Surgery, vol. 145, no. 2, pp. 205–208, 1983.
- C. P. Karakousis, “Therapeutic node dissections in malignant melanoma,” Annals of Surgical Oncology, vol. 5, no. 6, pp. 473–482, 1998.
- C. P. Karakousis, M. A. Hena, L. J. Emrich, and D. L. Driscoll, “Axillary node dissection in malignant melanoma: results and complications,” Surgery, vol. 108, no. 1, pp. 10–17, 1990.
- C. R. Rayner, “The results of node resection for clinically enlarged lymph nodes in malignant melanoma,” British Journal of Plastic Surgery, vol. 34, no. 2, pp. 152–156, 1981.