<p>Tumour-free margins ( &gt;5 mm) in head and neck malignancies improve prognosis, possibly impacting the need for adjuvant treatment. In this phase II prospective, non-randomised trial (NCT05499065), we investigate the use of fluorescence imaging using the tumour targeting fluorescent tracer cetuximab-IRDye800CW combined with fresh frozen sectioning to identify inadequate margins intraoperatively in patients with oral squamous cell carcinoma. Primary objectives of our study are intraoperative detection of inadequate margins and additional resections, and feasibility of implementing fluorescence-guided fresh frozen sectioning (FG-FFS) into the clinical workflow. In this study, 10 out of 20 patients show inadequate margins after initial surgery; FG-FFS correctly classifies margin in 19 patients. Additional resections increase tumour-free margin rates from 50% to 85%, where anatomical boundaries limit further improvement in one patient. Intraoperative margin adjustment reduces the need for adjuvant treatment in seven patients. These findings demonstrate that FG-FFS is a reliable and feasible method for intraoperative margin assessment without delaying surgery.</p>

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Intraoperative fluorescence-guided fresh frozen sectioning for margin control in head and neck cancer: phase 2 clinical trial

  • Thomas S. Nijboer,
  • Bas Keizers,
  • Koos Boeve,
  • Daan Roos,
  • Sebastiaan A. H. J. de Visscher,
  • Gyorgy B. Halmos,
  • Boudewijn E. C. Plaat,
  • Henrik K. Huizinga,
  • Hendrikus H. Boersma,
  • Jan J. Doff,
  • Kees-Pieter Schepman,
  • Bert van der Vegt,
  • Max J. H. Witjes,
  • Floris J. Voskuil

摘要

Tumour-free margins ( >5 mm) in head and neck malignancies improve prognosis, possibly impacting the need for adjuvant treatment. In this phase II prospective, non-randomised trial (NCT05499065), we investigate the use of fluorescence imaging using the tumour targeting fluorescent tracer cetuximab-IRDye800CW combined with fresh frozen sectioning to identify inadequate margins intraoperatively in patients with oral squamous cell carcinoma. Primary objectives of our study are intraoperative detection of inadequate margins and additional resections, and feasibility of implementing fluorescence-guided fresh frozen sectioning (FG-FFS) into the clinical workflow. In this study, 10 out of 20 patients show inadequate margins after initial surgery; FG-FFS correctly classifies margin in 19 patients. Additional resections increase tumour-free margin rates from 50% to 85%, where anatomical boundaries limit further improvement in one patient. Intraoperative margin adjustment reduces the need for adjuvant treatment in seven patients. These findings demonstrate that FG-FFS is a reliable and feasible method for intraoperative margin assessment without delaying surgery.