Clinical studies monitoring circulating and disseminated tumor cells in gastrointestinal cancers

Abstract: Circulating tumor cells (CTCs) and disseminated tumor cells (DTCs) are responsible for the development of metastatic disease, and may also hold the key to determining tailored therapies of advanced cancer disease. Our review summarizes the prognostic significance of the detection of CTCs and DTCs in various gastrointestinal cancers with an overview of their possible use as prognostic biomarkers. This could be used inthe future as a starting point for new clinical trials focusing on the predictive potential of circulating and disseminated tumor cells

Circulating tumor cells in different stages of colorectal cancer

Introduction. Liquid biopsies are noninvasive tests using blood or body fluids to detect circulating tumor cells (CTCs) or the products of tumor cells, such as fragments of nucleic acids or proteins that are shed into biological fluids from primary tumor or its metastates. The analysis of published clinical studies provides coherent evidence that the presence of CTCs detected in peripheral blood is a strong prognostic factor in patients with colorectal carcinoma (CRC). The aim of the study was to implement size-based separation protocol of CTCs in CRC patients. Material and methods. Patients diagnosed with different stages of CRC (n = 98) were included in the study. All patients have been diagnosed for colorectal adenocarcinoma by pathology examination, 45 patients with colon carcinoma and 53 with rectosigmoid cancer. A size-based separation method (MetaCell®) for viable CTC enrichment from peripheral blood was used to assess the presence of CTCs by cytomorphological evaluation using vital fluorescence microscopy. Results. Cytomorphological analysis revealed that 81 (83%) tested samples were CTC-positive and 17 (17%) were CTC-negative. We report a successful isolation of CTCs with proliferation potential in patients with CRC. The CTCs were cultured in vitro for further downstream applications. Some of the isolated CTCs were able to grow in vitro for 6 months as a standard cell culture. Conclusions. We established a reliable, inexpensive and relatively fast protocol for CTCs enrichment in CRC patients by means of vital fluorescence staining which enables their further analysis in vitro

Immunomagnetic detection of cancer cells in pleural effusion of generalized cancer

 Malignant pleural effusions (MPE) are a common clinical problem in patients with neoplastic disease. Pleural fluid cytology is the simplest definitive method for obtaining a diagnosis of MPE. We describe a method that may increase the cancer cell detection rate using immunomagnetic separation in MPE. In comparison to standard MPE cytodiagnostic methods, we report a more streamlined method of isolation living cells that are able to proliferate. These captured cells can then be used for additional downstream analysis e.g. chemosensitivity testing. Several case studies of MPE diagnostics using immunomagnetic separation are presented in the following report. The immunomagnetic separation of cancer cells from MPE could be used for more accurate staging of patients with routine effusions.

Circulating tumor cells in urological cancers

Circulating tumor cells (CTC) represent a very small subpopulation of the cancer cells found in the bloodstream of patients in the metastatic phase of neoplastic disease. Due to the timeline of the disease, they are regarded as a negative prognostic marker. This study focused on determining CTC percentages; these values vary be­tween different types of cancer. In addition to their diagnostic use, CTCs may also be used to treat the disease. Calculating CTC population size and analyzing their biology in patients in advanced stages of cancer may prove valuable in creating a molecular profile for the disease. This would strongly encourage diagnostics and enable personalized treatment. We here present an analysis of recent data on CTCs in urological cancers and their potential uses

Circulating tumor cells in urological cancers

Circulating tumor cells (CTC) represent a very small subpopulation of the cancer cells found in the bloodstream of patients in the metastatic phase of neoplastic disease. Due to the timeline of the disease, they are regarded as a negative prognostic marker. This study focused on determining CTC percentages; these values vary between different types of cancer. In addition to their diagnostic use, CTCs may also be used to treat the disease. Calculating CTC population size and analyzing their biology in patients in advanced stages of cancer may prove valuable in creating a molecular profile for the disease. This would strongly encourage diagnostics and enable personalized treatment. We here present an analysis of recent data on CTCs in urological cancers and their potential uses. (Folia Histochemica et Cytobiologica 2017, Vol. 55, No. 3, 107–113

Histopathological case report of high grade salivary duct carcinoma

The case of a 39-year-old man with slowly growing mass in the superior part of left parotid region is described. Patient presented neurological symptoms including hypomobility of lower left eyelid and inability of complete closure of left side eyelids resulting in conjunctivitis and hyperlacrimation. Routine physical examination supported by image and laboratory tests was performed. Pathomorphological results of hematoxylin and eosin staining as well immunohistochemical examination in view of clinical presentation pointed to diagnosis of high grade salivary duct carcinoma. Rare incidence, histological view similar to breast cancer and body localization are sufficient reasons for further analyses and descriptions of this type of lesions

Cultivation of circulating tumor cells in esophageal cancer

The presence of circulating tumor cells (CTCs) in patients with metastatic carcinoma is generally associated with poor clinical outcome. There have been many investigations showing a possible use of CTCs as minimally invasive predictive and prognostic biomarker in cancer medicine. In this report a size-based method (MetaCell®) for quick and easy enrichment and cultivation of CTCs is presented to enable possible CTCs use in esophageal cancer (EC) management. In total, 43 patients with diagnosed EC, 20 with adenocarcinoma (AdenoCa) and 23 with squamous cell carcinoma (SCC), were enrolled into the adaptive prospective-like study .All the patients were candidates for surgery. The CTCs were detected in 27 patients (62.8%), with a higher rate in adenocarcinoma (75%) than SCC (52%). Finally, there were 26 patients with resectable tumors exhibiting CTCs-positivity in 69.2% and 17 patients with non-resectable tumors with 41.7% CTCs-positivity. Interestingly, in the patients undergoing neoadjuvant therapy, the CTCs were detected at time of surgery in 55.5% (10/18). The overall size-based filtration approach enabled to isolate viable CTCs and evaluate to their cytomorphological features by means of vital fluorescent staining. The CTCs were cultured in vitro for further downstream applications including immunohistochemical analysis. This is the first report of the successful culturing of esophageal cancer CTCs. The detection of CTCs presence could help in the future to guide timing of surgical treatment in EC patients