BACKGROUND: Although sentinel lymph node (SLN) biopsy is a powerful staging tool for patients with melanoma and breast cancer, controversy remains regarding specific aspects of technique. We examined particle uptake by antigen-presenting cells (APCs) to determine if this mechanism is responsible for the differential retention of radioactivity in SLNs relative to nonsentinel lymph nodes (NSLNs). METHODS: Mapping was conducted in pigs injected with vital blue dye, fluoroscein isothiocyanate-labeled human serum albumin (FITC-HSA), and one of two 99mtechnetium-labeled tracers, i.e., human serum albumin, a small macromolecule, or unfiltered sulfur colloid, a mixture of small and large particles. Macromolecule uptake by APCs was studied in vitro by using FITC-HSA and measured by fluorescence-activated cell sorting (FACS). SLNs and NSLNs were analyzed by fluorescence microscopy or FACS, with counterstaining for leukocyte cell surface markers. RESULTS: Both radiotracers were effective. Cultured APCs rapidly took up FITC-HSA. Microscopy showed FITC-HSA in the subcapsular sinus of SLNs shortly after injection and subsequent distribution to interfollicular areas. FACS revealed increasing amounts of FITC-HSA in SLNs over time. Cells responsible for uptake were APCs, expressing major histocompatibility (locus) class II. CONCLUSIONS: This report establishes active macromolecule uptake as a mechanism that determines SLN status. This mechanism has important implications for performing SLN biopsy.
BACKGROUND: Although sentinel lymph node (SLN) biopsy is a powerful staging tool for patients with melanoma and breast cancer, controversy remains regarding specific aspects of technique. We examined particle uptake by antigen-presenting cells (APCs) to determine if this mechanism is responsible for the differential retention of radioactivity in SLNs relative to nonsentinel lymph nodes (NSLNs). METHODS: Mapping was conducted in pigs injected with vital blue dye, fluoroscein isothiocyanate-labeled human serum albumin (FITC-HSA), and one of two 99mtechnetium-labeled tracers, i.e., human serum albumin, a small macromolecule, or unfiltered sulfur colloid, a mixture of small and large particles. Macromolecule uptake by APCs was studied in vitro by using FITC-HSA and measured by fluorescence-activated cell sorting (FACS). SLNs and NSLNs were analyzed by fluorescence microscopy or FACS, with counterstaining for leukocyte cell surface markers. RESULTS: Both radiotracers were effective. Cultured APCs rapidly took up FITC-HSA. Microscopy showed FITC-HSA in the subcapsular sinus of SLNs shortly after injection and subsequent distribution to interfollicular areas. FACS revealed increasing amounts of FITC-HSA in SLNs over time. Cells responsible for uptake were APCs, expressing major histocompatibility (locus) class II. CONCLUSIONS: This report establishes active macromolecule uptake as a mechanism that determines SLN status. This mechanism has important implications for performing SLN biopsy.
Authors: J A Sánchez-Brunete; M A Dea; S Rama; F Bolás; J M Alunda; R Raposo; M T Méndez; S Torrado-Santiago; J J Torrado Journal: Antimicrob Agents Chemother Date: 2004-09 Impact factor: 5.191
Authors: W Charles Conway; Mark B Faries; Michael B Nicholl; Alicia M Terando; Edwin C Glass; MyungShin Sim; Donald L Morton Journal: Ann Surg Oncol Date: 2009-03-11 Impact factor: 5.344
Authors: Yaser H Gholami; Lee Josephson; Eman A Akam; Peter Caravan; Moses Q Wilks; Xiang-Zuo Pan; Richard Maschmeyer; Aleksandra Kolnick; Georges El Fakhri; Marc D Normandin; Zdenka Kuncic; Hushan Yuan Journal: Int J Nanomedicine Date: 2020-01-07
Authors: Haipeng Liu; Kelly D Moynihan; Yiran Zheng; Gregory L Szeto; Adrienne V Li; Bonnie Huang; Debra S Van Egeren; Clara Park; Darrell J Irvine Journal: Nature Date: 2014-02-16 Impact factor: 49.962