RESUMO
Background: We present the case of a patient with a Merkel cell carcinoma (MCC) of the left preauricular area. Case presentation:A 84-year-old Greek man was examined at the outpatient ENT Department of our clinic with a lesion in the preauricular area that had appeared four months ago. The patient history included antihypertensive and antihyperlipidemic therapy as well as treatment for dementia. The excision of the skin lesion was performed under local anesthesia. The histological examination revealed a Merkel cell carcinoma. The patient underwent a computed tomography (CT) scan that showed a lesion with clear limits in the left parotid gland and lymph nodes. Under general anesthesia, he underwent a left superficial parotidectomy, left submandibular gland excision and radical neck dissection. Histological preparations were analyzed using an intraoperative flow cytometry (iFC) protocol. A radiation therapy concluded the patient's treatment. Conclusion:Even if MCC appears as a less common and more aggressive skin cancer type, a clinician always has to include it in the differential diagnosis of a skin lesion. We found the use of iFC very useful for the diagnosis of this skin cancer.
RESUMO
Bladder cancer represents a major health issue. Transurethral resection is the first line treatment and an accurate assessment of tumor margins might warrant complete tumor removal. Genomic instability and proliferative potential are common hallmarks of cancer cells. We have previously demonstrated the utility of intraoperative flow cytometry (iFC), a next-generation margin evaluation methodology for assessment of DNA content, in the detection of several types of malignancy. In the current study we investigated the possible value of iFC in the characterization of bladder cancer during surgery. Samples from a population of 52 people with urothelial cancer were included in the study. The total time for iFC evaluation is 3-5 min per sample and included a two-step analysis, including DNA-index and Tumor-index calculation. First, DNA-index calculation revealed 24 hyperploid and one hypoploid tumor. Second, cell cycle analysis and Tumor-index calculation revealed that tumor samples are distinguished from normal cells based on their significantly higher proliferative potential. The standard for iFC evaluation was pathology assessment and revealed that our protocol exhibits an accuracy of 98% in defining the presence of cancer cells in a given sample. Our results support the further assessment of iFC value towards its use as a novel malignancy evaluation tool in transurethral resections.