Add to ORKGnone14noneBorgatti M; Altomare L; Abonnec M; Fabbri E; Manaresi N; Medoro G; Romani A; Tartagni M; Nastruzzi C; Di Croce S; Tosi A; Mancini I; Guerrieri R; Gambari R.Borgatti M; Altomare L; Abonnec M; Fabbri E; Manaresi N; Medoro G; Romani A; Tartagni M; Nastruzzi C; Di Croce S; Tosi A; Mancini I; Guerrieri R; Gambari R
The isolation of rare cells (such as peripheral hematopoietic stem cells, fetal cells in maternal bl...
We present an integrated circuit/microfluidic chip that traps and moves individual living biological...
The recent development of advanced analytical and bioseparation methodologies based on microarrays a...
Individual cell manipulation and targeting is of major interest in the field of diagnosis, phenotypi...
The Lab-on-a-chip technology will enable laboratory testing to move from laboratories employing comp...
Il capitolo fornisce lo stato dell'arte relativo alla possibilità di integrare dispositivi miniaturi...
Dielectrophoresis (DEP)-based lab-on-a-chip devices represent a very appealing approach for cell ma...
Manipulating single biological objects is a major unmet challenge of biomedicine. Herein, we describ...
Cell-based approaches in medicine, biotechnology, and pharmaceutical research offer unique prospects...
Manipulating single biological objects is a major unmet challenge of biomedicine. Herein, we describ...
none12noneBorgatti M; Altomare L; Baruffa M; Fabbri E; Breveglieri G; Feriotto G; Manaresi N; Medoro...
The development of lab-on-a-chip (LOC) devices over the past decade has attracted growing interest. ...
Microelectrode arrays (MEA) and microfluidic systems are two of the most used technologies in Lab-on...
One of the development trends of biomedical devices is towards miniaturization, which aims to integr...
In this review we present dat supporting the feasibility to perform experiments based on dielectroph...
The isolation of rare cells (such as peripheral hematopoietic stem cells, fetal cells in maternal bl...
We present an integrated circuit/microfluidic chip that traps and moves individual living biological...
The recent development of advanced analytical and bioseparation methodologies based on microarrays a...
Individual cell manipulation and targeting is of major interest in the field of diagnosis, phenotypi...
The Lab-on-a-chip technology will enable laboratory testing to move from laboratories employing comp...
Il capitolo fornisce lo stato dell'arte relativo alla possibilità di integrare dispositivi miniaturi...
Dielectrophoresis (DEP)-based lab-on-a-chip devices represent a very appealing approach for cell ma...
Manipulating single biological objects is a major unmet challenge of biomedicine. Herein, we describ...
Cell-based approaches in medicine, biotechnology, and pharmaceutical research offer unique prospects...
Manipulating single biological objects is a major unmet challenge of biomedicine. Herein, we describ...
none12noneBorgatti M; Altomare L; Baruffa M; Fabbri E; Breveglieri G; Feriotto G; Manaresi N; Medoro...
The development of lab-on-a-chip (LOC) devices over the past decade has attracted growing interest. ...
Microelectrode arrays (MEA) and microfluidic systems are two of the most used technologies in Lab-on...
One of the development trends of biomedical devices is towards miniaturization, which aims to integr...
In this review we present dat supporting the feasibility to perform experiments based on dielectroph...
The isolation of rare cells (such as peripheral hematopoietic stem cells, fetal cells in maternal bl...
We present an integrated circuit/microfluidic chip that traps and moves individual living biological...
The recent development of advanced analytical and bioseparation methodologies based on microarrays a...