Quantitative molecular detection of minimal residual head and neck cancer in lymph node aspirates.

Purpose: Staging of the clinically N(0) neck in patients with head and neck squamous cell carcinoma (HNSCC) using ultrasound-guided, fine needle aspiration cytology (USgFNAC) has a false-negative rate of approximately 20% that might be caused by inaccurate cytology. Molecular analysis of aspirate residues might reduce the false-negative rate, and we therefore set up a quantitative reverse transcription-PCR (Q-RT-PCR) assay based on TaqMan technology using the squamous cell-specific antigen E48 (Ly-6D) as molecular marker.

Experimental Design: The detection limit of the assay was determined in reconstruction experiments.

Molecular assays for the diagnosis of minimal residual head-and-neck cancer: methods, reliability, pitfalls, and solutions.

The prognosis of cancer patients is determined by the radicalness of treatment: residual tumor cells will grow out and develop in manifest local recurrences, regional recurrences, and distant metastases. Classical diagnostic methods such as radiology and histopathology have limited sensitivities, and only by molecular techniques can minimal residual disease be detected. In tissue samples containing the normal tissue counterpart of a tumor, only tumor-specific markers can be exploited, whereas in other samples, tissue-specific markers can be used.

The evolution of morbilliviruses: a comparison of nucleocapsid gene sequences including a porpoise morbillivirus.

Sequence data for the nucleocapsid protein (N) gene of the porpoise morbillivirus including the very conserved middle section of the protein and the hypervariable C terminus are reported. Analysis of dissimilarity indices based on an alignment of the N proteins of various morbilliviruses identifies a variable region of the N protein from amino acids residues 121 to 145 and a hypervariable part from amino acids 400 to 517. This type of analysis can be usefully applied when protein sequences of five or more morbillivirus species are available.

Nucleotide and deduced amino acid sequences of the matrix (M) and fusion (F) protein genes of cetacean morbilliviruses isolated from a porpoise and a dolphin.

Morbilliviruses have been isolated from stranded dolphins and porpoises. The present paper describes the cloning and sequencing of the porpoise morbillivirus (PMV) F gene and of the dolphin morbillivirus (DMV) M and F genes and their flanking regions. The gene order of the DMV genome appeared to be identical to that of other morbilliviruses.