Novel insights into the electrochemical detection of nitric oxide in biological systems

PEKAROVÁ, Michaela, Antonín LOJEK, Jan HRBÁČ, R KUCHTA, J KADLEC a Lukáš KUBALA. Novel insights into the electrochemical detection of nitric oxide in biological systems. Folia biologica. Praha: Institute of Molecular Genetics, 2014. ISSN 0015-5500.

Základní údaje

• Originální název: Novel insights into the electrochemical detection of nitric oxide in biological systems
• Název česky: Novel insights into the electrochemical detection of nitric oxide in biological systems
• Název anglicky: Novel insights into the electrochemical detection of nitric oxide in biological systems
• Autoři: PEKAROVÁ, Michaela, Antonín LOJEK, Jan HRBÁČ, R KUCHTA, J KADLEC a Lukáš KUBALA.
• Vydání: Folia biologica, Praha, Institute of Molecular Genetics, 2014, 0015-5500.

Další údaje

• Typ výsledku: Článek v odborném periodiku
• Utajení: není předmětem státního či obchodního tajemství
• WWW: URL
• Impakt faktor: Impact factor: 1.000
• Klíčová slova česky: nitric oxide; electrochemical detector; biological systems
• Klíčová slova anglicky: nitric oxide; electrochemical detector; biological systems

Anotace

In recent years, microsensor technologies have made a rapid expansion into different fields of physical sciences, engineering, and biomedicine. For analyses of various biomolecules, novel sensors and detection platforms in the electrochemical field have been reported recently. The most important applications based on microelectromechanical systems dramatically reduce the need of manipulation steps with samples, while improving data quality and quantitative capabilities. This is also the case of a special class of electrochemical sensors that allow direct, real-time and non-invasive measurements of nitric oxide, whose determination is crucial for the purposes of basic research, as well as of preclinical and clinical studies. Therefore, this minireview will focus on the description of recent discoveries in the electrochemical determination of nitric oxide, released in different in vitro systems.

Anotace česky

In recent years, microsensor technologies have made a rapid expansion into different fields of physical sciences, engineering, and biomedicine. For analyses of various biomolecules, novel sensors and detection platforms in the electrochemical field have been reported recently. The most important applications based on microelectromechanical systems dramatically reduce the need of manipulation steps with samples, while improving data quality and quantitative capabilities. This is also the case of a special class of electrochemical sensors that allow direct, real-time and non-invasive measurements of nitric oxide, whose determination is crucial for the purposes of basic research, as well as of preclinical and clinical studies. Therefore, this minireview will focus on the description of recent discoveries in the electrochemical determination of nitric oxide, released in different in vitro systems.

Anotace anglicky

In recent years, microsensor technologies have made a rapid expansion into different fields of physical sciences, engineering, and biomedicine. For analyses of various biomolecules, novel sensors and detection platforms in the electrochemical field have been reported recently. The most important applications based on microelectromechanical systems dramatically reduce the need of manipulation steps with samples, while improving data quality and quantitative capabilities. This is also the case of a special class of electrochemical sensors that allow direct, real-time and non-invasive measurements of nitric oxide, whose determination is crucial for the purposes of basic research, as well as of preclinical and clinical studies. Therefore, this minireview will focus on the description of recent discoveries in the electrochemical determination of nitric oxide, released in different in vitro systems.