Due to high pathological complete remission (pCR) rates in both breast and lymph nodes (ypT0/Tis, ypN0) following neoadjuvant systemic therapy (NST) in many patients with initially clinically node-positive (cN+) breast cancer, the standard treatment of the axilla has changed from axillary lymph node dissection (ALND), which is associated with high morbidity, to less invasive, surgical approaches. In several studies, targeted axillary dissection (TAD) has presented with false-negative rates (FNRs) less than 5%, however, in patients with high initial lymph node involvement (≥ 3 clinically suspicious lymph nodes) TAD has not been thoroughly investigated. The present prospective registry study aims to evaluate the FNR of TAD in patients with ≥ 3 initially suspicious lymph nodes and clinically node-negative status (ycN0) after NST in comparison to ALND.
Patients with triple-negative breast cancer (TNBC) or human epidermal growth factor receptor 2 (HER2) positive breast cancer achieved pCR rates of 50-70% following NST. In the multicenter prospective SenTa study (NCT03102307), the axillary pCR rate after the end of NST in 473 initially cN+ patients was 60.3%. Therefore, less invasive surgical techniques have been investigated to avoid the morbidity associated with ALND. One of these minimally invasive methods called TAD involves the combined intraoperative excision of the pre-NST marked most suspicious lymph node (target lymph node, TLN) and sentinel lymph nodes (SLNs). In a pooled analysis of 13 studies including 521 patients who had undergone TAD, the FNR of TAD was 5.2%. The FNR of TAD in breast cancer patients with high initial lymph node (LN) involvement (≥ 3 clinically suspicious LNs) has so far hardly been investigated. In a very small cohort, a FNR of 0% was obtained for patients with 1-3 suspicious LNs (cN1, n = 10), 33% for patients with 4-9 suspicious LNs (cN2, n = 3) and 100% for patients with 10 or more suspicious LNs (cN3, n = 2). In addition, patients with high lymph node involvement are often excluded from some larger studies evaluating TAD or other axillary surgical approaches. In consequence, the FNR of TAD LNs in comparison to LNs obtained during ALND in the patient group with ≥ 3 clinically positive LNs needs to be evaluated in a larger cohort, since extensive initial LN involvement is associated with a higher probability that a false-negative result of TAD could cause one or more involved LNs to be left in the axilla, if only TAD and not ALND is performed.
Study Type
OBSERVATIONAL
Enrollment
150
Intraoperative excision of TAD lymph nodes followed by ALND in the same surgical session or secondary surgical intervention
Kliniken Essen-Mitte (KEM)
Essen, Germany
RECRUITINGFalse-negative rate (FNR) of TAD in patients with ycN0 status
The FNR of TAD is calculated as the number of patients with histologically negative TAD lymph nodes (LNs) who were found to have positive LNs in the ALND specimen, divided by the total number of patients with positive LNs.
Time frame: Postoperatively immediately after histopathological evaluation of LNs
Detection rate of preoperative ultrasound
Preoperative detection rate (DR) of initially marked target lymph nodes (TLNs) on ultrasound images after the end of NST
Time frame: Preoperatively
Localization of TLNs
Successful localization with e.g. wire, magnetic marker, or reflector clip of the marked TLNs
Time frame: Preoperatively or during NST
Detection rate of TAD
Successful intraoperative identification of at least one SLN and one TLN, including cases with TLN = SLN
Time frame: At the time of surgery
Detection rate of target lymph node biopsy (TLNB)
Successful intraoperative identification of TLN(s)
Time frame: At the time of surgery
Detection rate of sentinel lymph node biopsy (SLNB)
Successful intraoperative identification of SLN(s)
Time frame: At the time of surgery
FNR of TLNB
The FNR of TLNB is calculated as the number of patients with histologically negative TLNs who were found to have positive SLNs and/or positive LNs in the ALND specimen, divided by the total number of patients with positive LNs.
Time frame: Postoperatively immediately after histopathological evaluation of LNs
FNR of SLNB
The FNR of SLNB is calculated as the number of patients with negative SLNs who were found to have positive TLNs and/or positive LNs in the ALND specimen, divided by the total number of patients with positive LNs.
Time frame: Postoperatively immediately after histopathological evaluation of LNs
FNR of preoperative ultrasound
False-negative is defined as preoperative ycN0 status on axillary ultrasound images and pathological ypN+ after surgery
Time frame: Postoperatively immediately after histopathological evaluation of LNs
Rate of local recurrence
Proportion of patients with ipsilateral or contralateral recurrence in the breast and/or axilla occurring at any time after surgery.
Time frame: 5 years after surgery, interim analysis: 2 years after surgery
Rate of distant recurrence
Proportion of patients with distant recurrence occurring at any time after surgery.
Time frame: 5 years after surgery, interim analysis: 2 years after surgery
Invasive disease-free-survival (iDFS)
iDFS is calculated as the time from surgery to the occurrence of either local recurrence, distant recurrence, second malignant disease (breast or different origin), or death from any cause.
Time frame: 5 years after surgery, interim analysis: 2 years after surgery
Overall survival (OS)
OS is calculated as the time from surgery to death from any cause
Time frame: 5 years after surgery, interim analysis: 2 years after surgery
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