The Experts below are selected from a list of 2328 Experts worldwide ranked by ideXlab platform
Attila Tárnok - One of the best experts on this subject based on the ideXlab platform.
-
microfluidic impedance based flow cytometry
Cytometry Part A, 2010Co-Authors: Karen C Cheung, Marco Di Berardino, Monika Hebeisen, Anja Mittag, Arkadiusz Pierzchalski, Jozsef Bocsi, Grit Schadekampmann, Attila TárnokAbstract:Microfabricated flow cytometers can detect, count, and analyze cells or particles using microfluidics and electronics to give impedance-based characterization. Such systems are being developed to provide simple, low-cost, label-free, and portable solutions for cell analysis. Recent work using microfabricated systems has demonstrated the capability to analyze micro-organisms, erythrocytes, leukocytes, and animal and human cell lines. Multifrequency impedance measurements can give multiparametric, high-content data that can be used to distinguish cell types. New combinations of microfluidic sample handling design and microscale flow phenomena have been used to focus and position cells within the channel for improved sensitivity. Robust designs will enable focusing at high flowrates while reducing requirements for control over multiple sample and sheath flows. Although microfluidic impedance-based flow cytometers have not yet or may never reach the extremely high throughput of conventional flow cytometers, the advantages of portability, simplicity, and ability to analyze single cells in small populations are, nevertheless, where chip-based cytometry can make a large impact.
-
Microfluidic impedance-based flow cytometry
Cytometry Part A, 2010Co-Authors: Karen C Cheung, Marco Di Berardino, Grit Schade-kampmann, Monika Hebeisen, Anja Mittag, Arkadiusz Pierzchalski, Jozsef Bocsi, Attila TárnokAbstract:Microfabricated flow cytometers can detect, count, and analyze cells or particles using microfluidics and electronics to give impedance-based characterization. Such systems are being developed to provide simple, low-cost, label-free, and portable solutions for cell analysis. Recent work using microfabricated systems has demonstrated the capability to analyze micro-organisms, erythrocytes, leukocytes, and animal and human cell lines. Multifrequency impedance measurements can give multiparametric, high-content data that can be used to distinguish cell types. New combinations of microfluidic sample handling design and microscale flow phenomena have been used to focus and position cells within the channel for improved sensitivity. Robust designs will enable focusing at high flowrates while reducing requirements for control over multiple sample and sheath flows. Although microfluidic impedance-based flow cytometers have not yet or may never reach the extremely high throughput of conventional flow cytometers, the advantages of portability, simplicity, and ability to analyze single cells in small populations are, nevertheless, where chip-based cytometry can make a large impact. Copyright {©} 2010 International Society for Advancement of Cytometry.
Arkadiusz Pierzchalski - One of the best experts on this subject based on the ideXlab platform.
-
microfluidic impedance based flow cytometry
Cytometry Part A, 2010Co-Authors: Karen C Cheung, Marco Di Berardino, Monika Hebeisen, Anja Mittag, Arkadiusz Pierzchalski, Jozsef Bocsi, Grit Schadekampmann, Attila TárnokAbstract:Microfabricated flow cytometers can detect, count, and analyze cells or particles using microfluidics and electronics to give impedance-based characterization. Such systems are being developed to provide simple, low-cost, label-free, and portable solutions for cell analysis. Recent work using microfabricated systems has demonstrated the capability to analyze micro-organisms, erythrocytes, leukocytes, and animal and human cell lines. Multifrequency impedance measurements can give multiparametric, high-content data that can be used to distinguish cell types. New combinations of microfluidic sample handling design and microscale flow phenomena have been used to focus and position cells within the channel for improved sensitivity. Robust designs will enable focusing at high flowrates while reducing requirements for control over multiple sample and sheath flows. Although microfluidic impedance-based flow cytometers have not yet or may never reach the extremely high throughput of conventional flow cytometers, the advantages of portability, simplicity, and ability to analyze single cells in small populations are, nevertheless, where chip-based cytometry can make a large impact.
-
Microfluidic impedance-based flow cytometry
Cytometry Part A, 2010Co-Authors: Karen C Cheung, Marco Di Berardino, Grit Schade-kampmann, Monika Hebeisen, Anja Mittag, Arkadiusz Pierzchalski, Jozsef Bocsi, Attila TárnokAbstract:Microfabricated flow cytometers can detect, count, and analyze cells or particles using microfluidics and electronics to give impedance-based characterization. Such systems are being developed to provide simple, low-cost, label-free, and portable solutions for cell analysis. Recent work using microfabricated systems has demonstrated the capability to analyze micro-organisms, erythrocytes, leukocytes, and animal and human cell lines. Multifrequency impedance measurements can give multiparametric, high-content data that can be used to distinguish cell types. New combinations of microfluidic sample handling design and microscale flow phenomena have been used to focus and position cells within the channel for improved sensitivity. Robust designs will enable focusing at high flowrates while reducing requirements for control over multiple sample and sheath flows. Although microfluidic impedance-based flow cytometers have not yet or may never reach the extremely high throughput of conventional flow cytometers, the advantages of portability, simplicity, and ability to analyze single cells in small populations are, nevertheless, where chip-based cytometry can make a large impact. Copyright {©} 2010 International Society for Advancement of Cytometry.
Anja Mittag - One of the best experts on this subject based on the ideXlab platform.
-
microfluidic impedance based flow cytometry
Cytometry Part A, 2010Co-Authors: Karen C Cheung, Marco Di Berardino, Monika Hebeisen, Anja Mittag, Arkadiusz Pierzchalski, Jozsef Bocsi, Grit Schadekampmann, Attila TárnokAbstract:Microfabricated flow cytometers can detect, count, and analyze cells or particles using microfluidics and electronics to give impedance-based characterization. Such systems are being developed to provide simple, low-cost, label-free, and portable solutions for cell analysis. Recent work using microfabricated systems has demonstrated the capability to analyze micro-organisms, erythrocytes, leukocytes, and animal and human cell lines. Multifrequency impedance measurements can give multiparametric, high-content data that can be used to distinguish cell types. New combinations of microfluidic sample handling design and microscale flow phenomena have been used to focus and position cells within the channel for improved sensitivity. Robust designs will enable focusing at high flowrates while reducing requirements for control over multiple sample and sheath flows. Although microfluidic impedance-based flow cytometers have not yet or may never reach the extremely high throughput of conventional flow cytometers, the advantages of portability, simplicity, and ability to analyze single cells in small populations are, nevertheless, where chip-based cytometry can make a large impact.
-
Microfluidic impedance-based flow cytometry
Cytometry Part A, 2010Co-Authors: Karen C Cheung, Marco Di Berardino, Grit Schade-kampmann, Monika Hebeisen, Anja Mittag, Arkadiusz Pierzchalski, Jozsef Bocsi, Attila TárnokAbstract:Microfabricated flow cytometers can detect, count, and analyze cells or particles using microfluidics and electronics to give impedance-based characterization. Such systems are being developed to provide simple, low-cost, label-free, and portable solutions for cell analysis. Recent work using microfabricated systems has demonstrated the capability to analyze micro-organisms, erythrocytes, leukocytes, and animal and human cell lines. Multifrequency impedance measurements can give multiparametric, high-content data that can be used to distinguish cell types. New combinations of microfluidic sample handling design and microscale flow phenomena have been used to focus and position cells within the channel for improved sensitivity. Robust designs will enable focusing at high flowrates while reducing requirements for control over multiple sample and sheath flows. Although microfluidic impedance-based flow cytometers have not yet or may never reach the extremely high throughput of conventional flow cytometers, the advantages of portability, simplicity, and ability to analyze single cells in small populations are, nevertheless, where chip-based cytometry can make a large impact. Copyright {©} 2010 International Society for Advancement of Cytometry.
Karen C Cheung - One of the best experts on this subject based on the ideXlab platform.
-
microfluidic impedance based flow cytometry
Cytometry Part A, 2010Co-Authors: Karen C Cheung, Marco Di Berardino, Monika Hebeisen, Anja Mittag, Arkadiusz Pierzchalski, Jozsef Bocsi, Grit Schadekampmann, Attila TárnokAbstract:Microfabricated flow cytometers can detect, count, and analyze cells or particles using microfluidics and electronics to give impedance-based characterization. Such systems are being developed to provide simple, low-cost, label-free, and portable solutions for cell analysis. Recent work using microfabricated systems has demonstrated the capability to analyze micro-organisms, erythrocytes, leukocytes, and animal and human cell lines. Multifrequency impedance measurements can give multiparametric, high-content data that can be used to distinguish cell types. New combinations of microfluidic sample handling design and microscale flow phenomena have been used to focus and position cells within the channel for improved sensitivity. Robust designs will enable focusing at high flowrates while reducing requirements for control over multiple sample and sheath flows. Although microfluidic impedance-based flow cytometers have not yet or may never reach the extremely high throughput of conventional flow cytometers, the advantages of portability, simplicity, and ability to analyze single cells in small populations are, nevertheless, where chip-based cytometry can make a large impact.
-
Microfluidic impedance-based flow cytometry
Cytometry Part A, 2010Co-Authors: Karen C Cheung, Marco Di Berardino, Grit Schade-kampmann, Monika Hebeisen, Anja Mittag, Arkadiusz Pierzchalski, Jozsef Bocsi, Attila TárnokAbstract:Microfabricated flow cytometers can detect, count, and analyze cells or particles using microfluidics and electronics to give impedance-based characterization. Such systems are being developed to provide simple, low-cost, label-free, and portable solutions for cell analysis. Recent work using microfabricated systems has demonstrated the capability to analyze micro-organisms, erythrocytes, leukocytes, and animal and human cell lines. Multifrequency impedance measurements can give multiparametric, high-content data that can be used to distinguish cell types. New combinations of microfluidic sample handling design and microscale flow phenomena have been used to focus and position cells within the channel for improved sensitivity. Robust designs will enable focusing at high flowrates while reducing requirements for control over multiple sample and sheath flows. Although microfluidic impedance-based flow cytometers have not yet or may never reach the extremely high throughput of conventional flow cytometers, the advantages of portability, simplicity, and ability to analyze single cells in small populations are, nevertheless, where chip-based cytometry can make a large impact. Copyright {©} 2010 International Society for Advancement of Cytometry.
Peter F W M Rosier - One of the best experts on this subject based on the ideXlab platform.
-
ics educational module Cystometry in children
Neurourology and Urodynamics, 2018Co-Authors: Jian G Wen, J C Djurhuus, Peter F W M Rosier, Stuart B BauerAbstract:Aims: To introduce the standard procedure of Cystometry and interpretation of the results in children. Methods: The literature on Cystometry in children in PubMed for the last 20 years was reviewed. The updated knowledge regarding indication, preparation, technique, and interpretation of Cystometry in children were summarized. Results: Filling Cystometry is the core content of a paediatric urodynamic study. In this section, the technique for performing Cystometry is introduced in details. Emphasis is placed on correctly setting up the equipment according to ICS and ICCS guidelines, using appropriate terminology, providing indications for its performance with specific considerations for children, and proper interpretation of results. Conclusions: Cystometry can be used in children including newborn to evaluate lower urinary tract dysfunction.
-
ics teaching module Cystometry basic module
Neurourology and Urodynamics, 2017Co-Authors: Carlos Arturo Levi Dancona, Mario Joao Gomes, Peter F W M RosierAbstract:AIMS To summarize the evidence background for education of good urodynamic practice, especially Cystometry. METHODS A search was done in PubMed for the last 5 years of publications selecting only clinical studies, utilizing the following keywords: Cystometry 133 articles and filling Cystometry 53 articles. RESULTS The evidence with regard to clinical setting and Cystometry technique, as well as for catheters and transducers type, infused solution and patient position is presented with recommendations. Also the practice of determining bladder filling sensation and capacity and the basis of detrusor storage function diagnosis is educated. CONCLUSIONS This manuscript provides the evidence background for the practice of Cystometry. Neurourol. Urodynam. 9999:XX–XX, 2016. © 2016 Wiley Periodicals, Inc.
