The Effect of Neoadjuvant Systemic Therapy on Surgical Outcomes After Lymph Node Dissections for Stage III Melanoma; An Australian Cohort

Background Neoadjuvant systemic therapy (NAST) for patients with stage III melanoma achieves high major pathologic response rates and high recurrence-free survival rates. This study aimed to determine how NAST with targeted therapies (TTs) and immune checkpoint inhibitors (ICIs) influences surgical outcomes after lymph node dissection in terms of complications, morbidity, and textbook outcomes. Methods Patients who underwent a lymph node dissection after either NAST in a clinical trial or upfront surgery for stage III melanoma between 2014 and 2022 were identified from an institutional research database. Results The study included 89 NAST-treated patients and 79 upfront surgery-treated patients. The rate of postoperative complications did not differ between the NAST- and upfront surgery-treated patients (55% vs. 51%; p = 0.643), and steroid treatment for drug toxicity did not influence the complication rate (odds ratio [OR], 1.1; 95% confidence interval [CI], 0.4–3; p = 0.826). No significant differences in postoperative morbidity were observed in terms of seroma (23% vs. 11%; p = 0.570) or lymphedema (36% vs. 51%; p = 0.550). The rate of achieving a textbook outcome was comparable for the two groups (61% vs. 57%; p = 0.641). Conclusions The surgical outcomes after lymph node dissections were comparable between the patients who received NAST and those who had upfront surgery, indicating that surgery can be safely performed after NAST with TT or ICI for stage III melanoma.

The Effect of Neoadjuvant Systemic … In pursuit of reducing recurrence rates further and ultimately improving OS, systemic therapy before surgical resection was investigated in the clinical trial setting.][9][10][11] The phase 3 randomized NADINA trial (NCT04949113) aims to demonstrate definitively whether neoadjuvant confers a clinical benefit compared with adjuvant ICI therapy.
Surgical resection of the tumor by lymph node dissection (LND) in patients with macroscopic lymph node metastases still is the mainstay of treatment for stage III melanoma.How neoadjuvant systemic therapy (NAST) influences the surgical procedure remains uncertain. 12indings have shown that ICI therapy induces tissue inflammation and fibrosis in the tumor bed or nodal basin, which could have an effect on the difficulty of the resection or the incidence of postoperative complications. 13Furthermore, steroid treatment for immune-related adverse events (irAEs) could theoretically affect wound-healing.
In a previous study at the Netherlands Cancer Institute (NKI), the effect of neoadjuvant systemic therapy with ICI on the surgical outcomes of LND was assessed.The findings showed no differences in terms of complications, morbidity, or textbook outcomes.However, a nonsignificantly longer duration of surgery for the neoadjuvant group was observed. 14 the current study we aimed to validate these findings in a larger population including not only patients who received ICI, but also those who received neoadjuvant TT.

Study Population
Between 2014 and 2022, all patients who underwent a LND for macroscopic stage III melanoma at Melanoma Institute Australia (MIA) were identified from the prospectively collected institutional research database.Two cohorts were defined; the first included patients who received NAST in a clinical trial before LND, and the second consisted of patients who received an upfront LND.
Data were collected from the database and supplemented by review of outpatient consultation letters.Ethnicity data were not available.The study was approved by the MIA Research Committee (MIA2022/462) and The Sydney Local Health District Ethics Review Committee (protocol nos.X15-0311 and 2019/ETH06854).All the patients had provided informed consent for inclusion of their data in the institutional database.

Outcomes
The primary outcomes were type and incidence of postoperative complications within 90 days after the LND, graded according to the Clavien-Dindo (CD) classification (Table 1).Wound infections (including minor redness and swelling) were scored as grade 2 if treated with oral or intravenous antibiotics and grade 3 if surgical or radiologic intervention was necessary.Wound dehiscence or necrosis and hematoma were scored as grade 1 if managed conservatively and grade 3 if there was surgical intervention or negative pressure wound therapy.The secondary outcomes were postoperative morbidity (lymphedema and seroma) within 90 days and textbook outcome.Textbook outcome, a composite measure of short-term positive surgical outcomes, was defined in this study as a complete resection, no re-operation within 30 days, and no grade 2 or higher postoperative complications within 90 days. 15,16Lymphedema was defined as clinically apparent limb swelling treated with manual lymphatic drainage, compression therapy, or both.Seroma was defined as a fluid collection treated by aspiration or reinsertion of a drain.Also assessed was the effect of steroid treatment for irAE (scored according to the Common Terminology Criteria for Adverse Events [CTCAE] v.5) on the incidence of complications.

Treatment
All the LNDs in this study were therapeutic in nature.The study excluded patients who underwent selective lymph node resection, as in the PRADO clinical trial that excluded only the index lymph node (ILN).The patients who went another surgical procedure at the same time also were excluded.For groin lymph node metastases, an inguinal dissection was performed, whereas combined ilio-inguinal LND was performed when pathologically or radiologically confirmed iliac and inguinal metastases were present.Drains were left in place until drainage was 30 ml or less for two consecutive days or had been removed earlier in the event of blockage or displacement.

Statistical Analyses
Continuous variables were summarized by medians and interquartile ranges (IQRs) and compared using the non-parametric Mann-Whitney U test if non-normally distributed.Normally distributed continuous variables were summarized by means and standard deviations and compared using a t test.Categorical variables were summarized using frequencies and percentages and compared using a Fisher's exact test or chi square test as appropriate.Uni-and multivariable logistic regression analyses were performed to evaluate the association between NAST and predefined LND surgical outcomes.Statistical significance was set as a p value lower than 0.05.For statistical analysis, IBM SPSS Statistics version 27 for Windows was used.
Significantly more patients in the upfront surgery group had a history of sentinel lymph node biopsy (SLNB) in the same nodal basin that received the LND (34% vs. 10%; p < 0.001), and more patients received adjuvant radiotherapy to the nodal basin within 90 days after surgery (19% vs. 6%; p = 0.007).

Complications
Within 90 days after surgery, the number of patients experiencing a surgical complication did not differ significantly between the NAST-treated group and the group that received upfront surgery (55% vs. 51%; p = 0.643; Fig 1A).Similarly, the rates of complications that occurred within 30 days and in the 31-to 90-day timeframe were comparable between the NAST-treated patients (47% vs. 45%; p = 0.877) and the upfront surgery-treated patients (30% vs. 22%; p = 0.211).
The most frequent complication within 30 days was a wound infection, occurring in 26% of the NAST-treated patients and 33% of the upfront surgery-treated patients (p = 0.395).In both groups, the wound infections were grade 2 in the majority of cases (100% vs. 92%), and only one grade 3 event occurred in the upfront-surgery group.Wound dehiscence was seen in respectively 12% and 11% of the patients (p = 0.847) and was mostly grade 1 (73% vs. 67%), with three grade 3 events in each group.Wound necrosis was the next most common complication, occurring in respectively 6% and 11% of the patients (p = 0.177), all grade 1. Neuropathy (either sensory or motor) was seen in 10% and 9% of the patients, respectively (p = 0.783), all grade 1. Postoperative hematoma was seen in 5% and 4% of patients, respectively (p = 0.821), with two grade 3 events in the NAST group.Deep venous thrombosis was seen in two patients (2%) in the NAST group.
Within the 31-to 90-day period, wound infections were the most common surgical complication, occurring in 18% of the NAST-treated patients and 17% of the upfront surgery-treated patients (p = 0.794).Most of the complications were grade 2, with one grade 3 and one grade 4 event occurring in the NAST group.Wound dehiscence occurred in 14% versus 5% of the patients (p = 0.640), with four grade 3 events in the NAST group and three grade 3 events in the upfront-surgery group.Neuropathy was observed in 3% versus 5% of the patients, respectfully (p = 0.584), all grade 1. Wound necrosis was seen in respectively 8% and 0% of the patients (p = 0.011), with one grade 3 event.The Effect of Neoadjuvant Systemic … The patients who received TT had a higher overall rate of complications (75% for TT-treated, 59% for ICI-treated, and 46% for ICI+TT-treated patients), but this difference was not statistically significant (p = 0.113).Consistent with previous reports, there was a non-significant difference in the rate of complications within 90 days between the anatomic sites.Inguinal dissections had the highest complication rate (69%).The complication rate was 54% for ilio-inguinal dissections, 44% for axillary dissections, and 49% for neck dissections (p = 0.071).The patients who received TT more often had inguinal and ilioinguinal dissections (62% vs. 34%).The first operator being a consultant or surgical trainee did not make a significant difference in the rate of postoperative complications (53% vs. 69%; p = 0.293).

Systemic Therapy
A TT-related adverse event graded higher than 2 was experienced by 6 patients (7%), and 18 patients (20%) experienced an immune-related adverse event graded higher than 2. A total of 21 patients (24%) received prednisone treatment before surgery, 12 of whom continued steroid treatment perioperatively.These patients were not at higher risk of experiencing postoperative complications (odds ratio [OR], 1.1; 95% confidence interval [CI], 0.4-3; p = 0.826).Receiving a combination of TT and ICI did not increase the risk for the development of postoperative complications (OR, 0.6; 95% CI, 0.2-1.5;p = 0.272).

Morbidity
Seromas that required aspiration or reinsertion of a drain occurred in 23% of the cases in the NAST-treated group and 11% of the upfront surgery-treated patients (p = 0.570; Fig 1B).Similarly, the seroma rates did not differ significantly between the groups in the 30-day period (15% vs. 9%; p = 0.341) or in the 31-to 90-day period (16% vs. 8%; p = 0.151).A total of 14 patients (8%) returned to their treating physician with drain issues such as blockage or displacement.

DISCUSSION
This study compared the surgical outcomes of LNDs between patients with stage III melanoma who received neoadjuvant systemic therapy and patients who underwent upfront LND.No difference in the rate of complications was observed (55% vs. 51%), nor did postoperative morbidity differ significantly, with a seroma incidence of 23% in the NAST group and 11% in the upfront surgery group and lymphedema in 36% and 51% of the patients, respectively.The composite measure of positive surgical outcomes, designated textbook outcomes, also was comparable between the two groups (61% vs. 57%).
The rate of grade 2 or higher complications after LND observed in this study for patients treated with NAST was in line with the previously reported complication rate in a study performed at the Netherlands Cancer Institute.Similarly, both studies showed no effect of steroid treatment for irAE's on the rate of postoperative surgical complications.In contrast, the higher rate of complications in the upfront-surgery group at 1 to 3 months postoperatively reported in the Dutch study was not observed in the current study.Likely, this was an incidental finding, related to the lower number of patients included in the Dutch study.The current study adds to the previous study in that a higher rate of postoperative complications was not associated with neoadjuvant ICI, TT, or a combination of ICI and TT, as previously described for neoadjuvant ICI therapy only.
Although not statistically significant, a numerically higher rate of lymphedema was reported for the upfront surgery group than for the NAST-treated group.This is possibly attributable to the higher proportion of patients who had a history of SLNB in the same nodal basin, as well as to the higher rate of postoperative radiotherapy given within 90 days after surgery in the upfront-surgery group.Additionally, the patients in the upfront-surgery group had a higher nodal burden and were older than the patients in the NASTtreated group.Some physicians initiated prophylactic compression therapy and lymphedema physiotherapy.This might have led to higher rates of lymphedema reported, but would not have caused a difference in incidence between the two groups.
The incidence of seroma in this study was lower than that described in the NKI cohort, likely due to differences in drain policies.Drains at the NKI cohort were routinely removed within 1-3 days postoperatively regardless of drainage volumes, with patients presenting regularly for needle aspiration of seromas in the postoperative period.However, a considerable number of patients re-presented to the hospital with drain complications (8%) in the current study.The NAST-treated patients had a seroma rate twice as high as the upfront-surgery group.Interestingly, in the Dutch cohort, the upfront surgery group had a significantly higher rate of seroma at 1-3 months.We therefore suspect that this clinically relevant difference might have been caused by closer monitoring of the clinical trial patients.
In line with the aforementioned outcomes, the rate of patients achieving a textbook outcome was comparable between the two groups.The results of this Australian study, including neoadjuvant TT as well as ICI, thus support prior findings from a cohort of patients treated at the NKI.
Nevertheless, some limitations of this study need to be considered.First, the data were obtained retrospectively from an institutional database and from outpatient consultation letters.Complications and morbidity treated at other hospitals or by a family physician may therefore have been missed.
Furthermore, the surgeries were performed at multiple hospitals in the Sydney metropolitan area, and discharge letters were not available for all the cases in this study.Consequently, the duration of surgery and the length of admission could not always be collected, so we could not validate the previous findings in the Dutch cohort with those of this study.Additionally, although the data collection process was identical for the two groups, the clinical trial patients were likely monitored more strictly in accordance with trial protocols than the patients who received the standard of care with upfront LND.This might have led to a bias in reporting.
Finally, because the number of patients included in this cohort was relatively small, multivariable analysis of risk factors for adverse outcomes could not be performed.

CONCLUSIONS
The postoperative outcomes of patients with stage III melanoma who received an LND after NAST or upfront LND were comparable in terms of complications, morbidity, and achievement of textbook outcomes.This study adds to the accumulating knowledge concerning the effects of NAST for both ICI and TT, and indicates that surgery after NAST can be performed safely.
ACKNOWLEDGMENTS This project has been supported by foundation "De Drie Lichten" in the Netherlands.Richard A. Scolyer is supported by a National Health and Medical Research Council of Australia (NHMRC) investigator grant (2022/GNT2018514).Georgina V. Long is supported by an NHMRC investigator grant and the University of Sydney Medical Foundation.Support from The Cameron Family Foundation also is gratefully acknowledged.Serigne N. Lo and Robyn P. M. Saw are supported by Melanoma Institute Australia.The authors thank colleagues at MIA for their contributions to data collection, and specifically Hazel Burke (MIA) and Ivy Tan (MIA) for their assistance with data extraction.FUNDING Open Access funding enabled and organized by CAUL and its Member Institutions.