Value of Full-Field Optical Coherence Tomography Imaging for the Histological Assessment of Head and Neck Cancer.

BACKGROUND AND OBJECTIVES: In head and neck surgery, intraoperative and postoperative evaluation of tumor margins is achieved by histopathological assessment, which is a multistep process. Intraoperative analysis of tumor margins to obtain a preliminary diagnosis is usually carried out on frozen sections. Analysis of frozen sections is challenging due to technical difficulties in processing. Full-field optical coherence tomography (FFOCT) provides ex vivo images of fresh tissue samples at a microscopic scale without tissue processing. The objectives of our study were to define the diagnostic criteria required to interpret head and neck FFOCT images and to evaluate the reliability of a histological diagnosis made on an "optical biopsy" produced by head and neck FFOCT imaging compared with conventional histology. STUDY DESIGN/MATERIALS AND METHODS: First, we established an atlas of comparative images (FFOCT/standard histology) and defined the diagnostic criteria based on FFOCT images. Two pathologists subsequently performed a blinded review on 57 FFOCT images (32 patients). Specificity and sensitivity were measured by comparison with the standard histological diagnosis. The primary endpoint was major concordance, defined as two classifications leading to the same therapeutic decision (treatment/no treatment). RESULTS: Pathologists identified four main criteria for tissue diagnosis on FFOCT images: heterogeneous cell distribution, stromal reaction, coiling, and keratinization abnormalities. The correlation study showed good results, with sensitivity from 88% to 90% and specificity from 81% to 87%, regardless of whether the FFOCT image review was performed by a pathologist with or without previous experience in optical imaging. CONCLUSIONS: Our results demonstrate that FFOCT images can be used by pathologists for differential diagnosis, and that high-resolution FFOCT imaging can provide an assessment of microscopic architecture in head and neck tissues without tissue processing requirements. Lasers Surg. Med. © 2020 Wiley Periodicals, Inc.

Invasive cutaneous infection due to Scopulariopsis brevicaulis unsuccessfully treated with high-dose micafungin in a neutropenic patient.

Scopulariopsis brevicaulis onychomycosis with local cutaneous invasion was diagnosed in an acute leukemia patient and unsuccessfully treated with high-dose micafungin, based on antifungal susceptibility testing. This case should alert clinicians to the possible severe evolution of onychomycosis in neutropenic patients and suggests that surgery should be preferred in such a situation.

Intraoperative Near-infrared Imaging for Parathyroid Gland Identification by Auto-fluorescence: A Feasibility Study.

BACKGROUND: Parathyroid glands (PGs) can be particularly hard to distinguish from surrounding tissue and thus can be damaged or removed during thyroidectomy. Postoperative hypoparathyroidism is the most common complication after thyroidectomy. Very recently, it has been found that the parathyroid tissue shows near-infrared (NIR) auto-fluorescence which could be used for intraoperative detection, without any use of contrast agents. The work described here presents a histological validation ex vivo of the NIR imaging procedure and evaluates intraoperative PG detection by NIR auto-fluorescence using for the first time to our knowledge a commercially available clinical NIR imaging device. METHODS: Ex vivo study on resected operative specimens combined with a prospective in vivo study of consecutive patients who underwent total or partial thyroid, or parathyroid surgery at a comprehensive cancer center. During surgery, any tissue suspected to be a potential PG by the surgeon was imaged with the Fluobeam 800 (®) system. NIR imaging was compared to conventional histology (ex vivo) and/or visual identification by the surgeon (in vivo). RESULTS: We have validated NIR auto-fluorescence with an ex vivo study including 28 specimens. Sensitivity and specificity were 94.1 and 80 %, respectively. Intraoperative NIR imaging was performed in 35 patients and 81 parathyroids were identified. In 80/81 cases, the fluorescence signal was subjectively obvious on real-time visualization. We determined that PG fluorescence is 2.93 ± 1.59 times greater than thyroid fluorescence in vivo. CONCLUSIONS: Real-time NIR imaging based on parathyroid auto-fluorescence is fast, safe, and non-invasive and shows very encouraging results, for intraoperative parathyroid identification.

Evidence-based management of the thyroid gland during a total laryngectomy.

OBJECTIVES/HYPOTHESIS: To propose an original experience-based reference framework for the management of the thyroid gland during a total laryngectomy in our institution. The steps were based on 1) the incidence and patterns of thyroid gland invasion (TGI), 2) preoperative and pathologic factors associated with TGI, and 3) the relationship between TGI and oncologic efficacy endpoints after treatment. STUDY DESIGN: Retrospective cohort study. METHODS: We reviewed the records of 182 patients who had undergone a total laryngectomy with a total thyroidectomy or loboisthmectomy in our center. RESULTS: Among 23 patients (12.6%), the thyroid gland was directly invaded by disease in 22 and by metastasis in one. Subglottic primary site was the only preoperative factor associated (P =.03). TGI was associated with pathological signs of anterior extralaryngeal invasive disease (thyroid cartilage transfixion, P = .002; cricothyroid membrane invasion, P < .0001; and prelaryngeal soft tissue infiltration, P < .0001) and ipsilateral VIb lymph node metastasis (P = .004). As expected, disease-free survival was significantly lower in patients with TGI (P = .04) and peristomal control was significantly reduced in patients with TGI (P = .038). CONCLUSIONS: To our knowledge, this is the largest monocentric series of TGI specimens after a total laryngectomy for laryngeal neoplasms described to date. Focus must be placed on anteroinferior spread, which is likely to invade the cricothyroid membrane, because TGI is part of the extension of extralaryngeal cancer. We propose original experience-based management of thyroid management during a total laryngectomy to improve the level of accuracy of decision making during the surgical procedure whenever possible. LEVEL OF EVIDENCE: 4