Sentinel lymph node (SLN) biopsy is the gold standard method to stage axilla in breast cancer. The aim of the study is to compare the efficiency of various methods to identify SLN is breast cancer patients.
Various markers has been used for SLN biopsy including isosulfan blue (patent blue), indocyanine green (ICG), radioisotope colloid (RAIC) and ultrasound (US) with several advantages and disadvantages. In this study investigators designed an algorithm using the combination of mapping with patent blue, ICG, RAIC and US to compare the accurate identification of SLN in breast cancer patients. The protocol is based on the hypothesis that identification rate of SLN is increased with multiple agents. Patent blue and ICG provides visual guidance. The combination of dyes with sonographic and RAIC method have the potential to prevent obstacles and ensure better outcomes as an identification strategy. Patent blue provides visual identification of the SLN. ICG fluorescence can be detected percutaneously and by means of fluorescence imaging system in real time. RAI has several advantages, but disadvantages as well, like cost and invisibility. RAI can only be detected and confirmed by means of sound and numerical value through gamma probe. All breast cancer patients underwent axillary ultrasound before SLNB with different mapping combinations. The determination of abnormal axillary lymph node was followed by ultrasound-guided FNA cytology of these nodes. The sonographic abnormality criteria of the nodes were defined as; completely hypoechoic node, asymmetric focal hypoechoic node, cortical lobulation more than 3, cortical thickness \>2mm, totally spheric appearance, absence of fatty hilum and compromise of normal vascularity (hypervascularization from various poles). Patients with negative results of FNA would undergo SLNB. Lymphatic mapping was performed with abovementioned dyes and radioactive colloid. Before the incising for SLNB real time intraoperative US was performed and suspicious axillary lymph nodes were seen by ultrasound guidance. In the SLNB operation, radioactive or dyed nodes and sonographically suspicious nodes were removed and labeled separately for pathological examination.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
NONE
Enrollment
120
Sentinel lymph node biopsy(SLNB) procedure with different mapping methods using combination of radioactive colloid, patent blue, indocyanine green associated with intraoperative ultrasound.
Bülent Ecevit University
Zonguldak, Turkey (Türkiye)
RECRUITINGIdentification rate of sentinel lymph node
The ability to identify a sentinel lymph node successfully with different mapping techniques
Time frame: During operation
Average number of excised sentinel lymph nodes
The effect of mapping technique on the number of excised nodes
Time frame: Histological report expected within an average of 2 weeks after sentinel lymph node biopsy
False-negative rate of axillary US
False negative rate for SLN surgery in women with normal or axillary US and at least 2 SLNs were excised, defined as the number of patients with no positive lymph nodes by SLN and with at least one positive lymph node by axillary lymph node dissection divided by the total number of patients with at least one positive lymph node by SLN or ALND multiplied by 100, or vise versa. For abnormal axillary US, false negative rate is calculated similarly.
Time frame: Histological report expected within an average of 2 weeks after sentinel lymph node biopsy
Morbidity
Lymphedema, shoulder movement pain, or functional deformity after SLNB with different mapping techniques will be assessed by clinicians during follow-up with 3 months periods. The result will be the percentage of patients which suffer from some complications after SLNB or AD. Common morbidity rate after AD is 20%, after SLNB 1-2%.
Time frame: 36 months
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