The European Union has determined that from 2016 breast cancer patients should be treated in Specialist Breast Units that achieve the minimum standards for the mandatory quality indicators as defined by Eusoma. The existing standard for axillary lymph node staging in breast cancer is sentinel node biopsy (SNB), performed using Technetium-sulphur colloid ((99m) Tc) alone or with blue dye. The major limits of radioisotope consist in the problems linked to radioactivity, in the shortage of tracer and nuclear medicine units. Among existing alternative tracers, SentiMag(®) , which uses superparamagnetic iron oxide particles, can represent a valid option for SNB. We conducted a paired, prospective, multicentre study to evaluate the non-inferiority of SentiMag(®) vs. (99m) Tc. The primary end point was the detection rate (DR) per patient. The study sample consists of 193 women affected by breast carcinoma with negative axillary assessment. The concordance rate per patients between (99m) Tc and SentiMag(®) was 97.9%. The DR per patient was 99.0% for (99m) Tc and 97.9% for SentiMag(®) . SentiMag(®) appears to be non-inferior to the radiotracer and safe. While (99m) Tc remains the standard, SentiMag(®) DR appears adequate after a minimum learning curve. In health care settings where nuclear medicine units are not available, SentiMag/Sienna+(®) allows effective treatment of breast cancer patients.
Ghilli, M., Carretta, E., Di Filippo, F., Battaglia, C., Fustaino, L., Galanou, I., et al. (2017). The superparamagnetic iron oxide tracer: A valid alternative in sentinel node biopsy for breast cancer treatment. EUROPEAN JOURNAL OF CANCER CARE, 26(4), 1-7 [10.1111/ecc.12385].
The superparamagnetic iron oxide tracer: A valid alternative in sentinel node biopsy for breast cancer treatment
CARRETTA, ELISA;RUCCI, PAOLA;FANTINI, MARIA PIA;
2017
Abstract
The European Union has determined that from 2016 breast cancer patients should be treated in Specialist Breast Units that achieve the minimum standards for the mandatory quality indicators as defined by Eusoma. The existing standard for axillary lymph node staging in breast cancer is sentinel node biopsy (SNB), performed using Technetium-sulphur colloid ((99m) Tc) alone or with blue dye. The major limits of radioisotope consist in the problems linked to radioactivity, in the shortage of tracer and nuclear medicine units. Among existing alternative tracers, SentiMag(®) , which uses superparamagnetic iron oxide particles, can represent a valid option for SNB. We conducted a paired, prospective, multicentre study to evaluate the non-inferiority of SentiMag(®) vs. (99m) Tc. The primary end point was the detection rate (DR) per patient. The study sample consists of 193 women affected by breast carcinoma with negative axillary assessment. The concordance rate per patients between (99m) Tc and SentiMag(®) was 97.9%. The DR per patient was 99.0% for (99m) Tc and 97.9% for SentiMag(®) . SentiMag(®) appears to be non-inferior to the radiotracer and safe. While (99m) Tc remains the standard, SentiMag(®) DR appears adequate after a minimum learning curve. In health care settings where nuclear medicine units are not available, SentiMag/Sienna+(®) allows effective treatment of breast cancer patients.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.