Your search keyword '"Leonardus Wendelinus Mathias Marie Terstappen"' showing total 2 results

1. Parallel Single Cancer Cell Whole Genome Amplification Using Button-Valve Assisted Mixing in Nanoliter Chambers

Author

Séverine Le Gac, Hoon Suk Rho, Leonardus Wendelinus Mathias Marie Terstappen, Joost F. Swennenhuis, Yoon Sun Yang, Medical Cell Biophysics, and Mesoscale Chemical Systems

Subjects

METIS-306193, EWI-25488, Cell Enumeration Techniques, lcsh:Medicine, IR-93337, Bioengineering, Breast Neoplasms, Computational biology, Biology, Research and Analysis Methods, Genome, Single-cell analysis, Lab-On-A-Chip Devices, Genetics, Medicine and Health Sciences, Escherichia coli, Humans, Cell Separation Techniques, lcsh:Science, Molecular Biology Techniques, Molecular Biology, Whole Genome Amplification, Whole genome sequencing, Clinical Genetics, Multidisciplinary, Genome, Human, lcsh:R, Multiple displacement amplification, Biology and Life Sciences, Nucleic acid amplification technique, Sequence Analysis, DNA, Molecular biology, Cancer cell, MCF-7 Cells, Engineering and Technology, lcsh:Q, Human genome, Medical Devices and Equipment, Female, Fluidics, Clinical Medicine, Single-Cell Analysis, Cytogenetic Techniques, Nucleic Acid Amplification Techniques, Genome, Bacterial, Research Article, Biotechnology

Abstract

The heterogeneity of tumor cells and their alteration during the course of the disease urges the need for real time characterization of individual tumor cells to improve the assessment of treatment options. New generations of therapies are frequently associated with specific genetic alterations driving the need to determine the genetic makeup of tumor cells. Here, we present a microfluidic device for parallel single cell whole genome amplification (pscWGA) to obtain enough copies of a single cell genome to probe for the presence of treatment targets and the frequency of its occurrence among the tumor cells. Individual cells were first captured and loaded into eight parallel amplification units. Next, cells were lysed on a chip and their DNA amplified through successive introduction of dedicated reagents while mixing actively with the help of integrated button-valves. The reaction chamber volume for scWGA 23.85 nl, and starting from 6-7 pg DNA contained in a single cell, around 8 ng of DNA was obtained after WGA, representing over 1000-fold amplification. The amplified products from individual breast cancer cells were collected from the device to either directly investigate the amplification of specific genes by qPCR or for re-amplification of the DNA to obtain sufficient material for whole genome sequencing. Our pscWGA device provides sufficient DNA from individual cells for their genetic characterization, and will undoubtedly allow for automated sample preparation for single cancer cell genomic characterization.

Published

2014

2. Filtration Parameters Influencing Circulating Tumor Cell Enrichment from Whole Blood

Author

Markus Beck, Leonardus Wendelinus Mathias Marie Terstappen, Guus van Dalum, Frank A. W. Coumans, ACS - Amsterdam Cardiovascular Sciences, CCA -Cancer Center Amsterdam, Biomedical Engineering and Physics, Faculty of Science and Technology, and Medical Cell Biophysics

Subjects

Pathology, Erythrocytes, lcsh:Medicine, Cell Separation, IR-90028, law.invention, Metastasis, Viscosity, Circulating tumor cell, law, Biological Fluid Mechanics, Basic Cancer Research, Leukocytes, Cell Mechanics, Biomechanics, lcsh:Science, Fixation (histology), Whole blood, Multidisciplinary, Chemistry, Hematology, Middle Aged, Neoplastic Cells, Circulating, Oncology, Medicine, Cancer Screening, Research Article, Adult, medicine.medical_specialty, Biophysics, Diluent, Fixatives, Diagnostic Medicine, Cell Line, Tumor, medicine, Cancer Detection and Diagnosis, Pressure, Humans, Biology, Filtration, Chromatography, METIS-298670, lcsh:R, Cancers and Neoplasms, Apparent viscosity, Hemorheology, lcsh:Q

Abstract

Filtration can achieve circulating tumor cell (CTC) enrichment from blood. Key parameters such as flow-rate, applied pressure, and fixation, vary largely between assays and their influence is not well understood. Here, we used a filtration system, to monitor these parameters and determine their relationships. Whole blood, or its components, with and without spiked tumor cells were filtered through track-etched filters. We characterize cells passing through filter pores by their apparent viscosity; the viscosity of a fluid that would pass with the same flow. We measured a ratio of 5 center dot 10(4):10(2):1 for the apparent viscosities of 15 mu m diameter MDA-231 cells, 10 mu m white cells and 90 fl red cells passing through a 5 mu m pore. Fixation increases the pressure needed to pass cells through 8 mu m pores 25-fold and halves the recovery of spiked tumor cells. Filtration should be performed on unfixed samples at a pressure of similar to 10 mbar for a 1 cm(2) track-etched filter with 5 mu m pores. At this pressure MDA-231 cells move through the filter in 1 hour. If fixation is needed for sample preservation, a gentle fixative should be selected. The difference in apparent viscosity between CTC and blood cells is key in optimizing recovery of CTC

Published

2013