MiPNet06.05 Test Experiments on O2k-Specifications: Difference between revisions
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== Definition of HRR == | == Definition of HRR == | ||
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== Oxygraph-2k: technical specifications == | |||
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=== General specifications === | === General specifications === |
Revision as of 16:43, 19 April 2017
Gnaiger E (2010) Test experiments on specifications of the OROBOROS Oxygraph. Mitochondr Physiol Network 6.5. |
OROBOROS (2010) Mitochondr Physiol Network
Abstract: Summary: The OROBOROS Oxygraph with DatLab software is world-wide the only instrument on the market, which allows routine measurements to be made with specifications summarized under the term βhigh-resolution respirometryβ: The limit of detection of O2 flux is as low as 0.5 pmols-1cm-3. Signal noise at zero oxygen concentration is <0.05 ΞΌM O2. Oxygen backdiffusion at zero oxygen is <3 pmols-1cm-3, and oxygen consumption at air saturation and standard barometric pressure (100 kPa) was 2.7 +/- 0.9 SD in 114 test runs at 37 Β°C. These highly standardized instrumental background fluxes are a linear function of oxygen concentration, which is used for routine background correction of oxygen flux. Typical exponential time constants of the oxygen sensors are <4 s, used for dynamic corrections in kinetic studies. Results of an extensive experimental test program are presented as the basis of OROBOROS Oxygraph specifications, which distinguish high-resolution respirometry from any conventional oxygraph system. Β»Versions
β’ O2k-Network Lab: AT Innsbruck OROBOROS
Labels: MiParea: Instruments;methods
HRR: Oxygraph-2k
The OROBOROS Oxygraph-2k with DatLab software is world-wide the only instrument (sole source) which allows routine measurements to be made with specifications summarized under the term high-resolution respirometry (HRR).
Definition of HRR
High-resolution respirometry (HRR) is defined on the basis of instrumental features of the O2k. The limit of detection of oxygen flux is as low as 1 pmol O2.s-1.ml-1. Oxygen backdiffusion at zero oxygen is <4 pmol.s-1.ml-1. Oxygen consumption by the polarographic oxygen sensor at air saturation and standard barometric pressure (100 kPa) is 2.7 Β± 0.9 SD (114 test runs at 37 Β°C). These highly standardized instrumental background fluxes are a linear function of oxygen concentration, which is used for automatic background correction of oxygen flux (DatLab). Typical exponential time constants of the oxygen sensors are <4 s, used for dynamic corrections in kinetic studies. Signal noise at zero oxygen concentration is <0.05 Β΅M O2.
Continuous control of the OROBOROS Oxygraph-2k specifications are a fundamental component of Quality Assurance and distinguish high-resolution respirometry from any conventional oxygraph system and from non-quantitative approaches.
Oxygraph-2k: technical specifications
General specifications
- Dimensions - O2k-Main Unit: L 45 cm, W 31 cm, H 25 cm; 13.45 kg without packing box or Peli Case.
- Chambers: chemically inert and minimum oxygen diffusion:
- - Two Duran glass chambers with 2 ml (1.5 to 3.5 ml) volume; 16 mm inner diameter.
- - PVDF or PEEK stoppers with Viton O-rings.
- - Electromagnetic stirrers with variable speed (100 to 900 rpm).
- - PVDF- or PEEK-coated stirrer bars (6 mm diameter).
- - Polarographic oxygen sensors (OroboPOS) sealed with butyl rubber seal tips.
- Built-in electronically regulated Peltier thermostat:
- - Temperature range:
At room temperature 4 Β°C to 47 Β°C At lower ambient temperature 2 Β°C
- - Temperature stability:
Temperature stability Β±0.002 Β°C over 90 min.
- - Temperature range:
in 15 min 20 Β°C to 30 Β°C in 20 min 30 Β°C to 20 Β°C
- Data output through USB:
- - Two oxygen signals.
- - Pressure transducer, for absolute barometric pressure signal, resolution 0.1 kPa.
- - Thermostat temperature signal, resolution 0.001 Β°C.
- - O2k-MultiSensor: two additional amperometric signals (O2k-fluorescence; NO sensors), and two additional potentiometric signals pX: for TPP or pH).
- DatLab software:
- - Display: simultaneous display of oxygen concentration and oxygen flux (negative slope or time derivative), together with any selected O2k-MultiSensor channels (raw or calibrated signals and corresponding time derivatives). Barometric pressure for oxygen calibration; temperature stability control.
- - Automatic calibrations: oxygen and O2k-MultiSensors.
Specifications for high-resolution respirometry
- Oxygen signal:
- - Noise at zero oxygen: <0.005 kPa (SD, 100 data points recorded at 1 s intervals) without smoothing (Β±0.003 kPa typical)
- - Noise at air saturation: <0.010 kPa (SD, 100 data points recorded at 1 s intervals) without smoothing, at partial oxygen pressure of 20 kPa (Β±0.005 kPa typical)
- - Time constant: <7 s at 25 Β°C (<4 s typical)
- - O2 range of linearity: Oxygen partial pressure of 0 to 100 kPa
- Oxygen flux:
- - Limit of detection: 0.5 pmol.s-1.ml-1 at steady-state over 5 min.
- - Sensitivity (normoxic): <1 pmol.s-1.ml-1 at steady-state over 5 min at 20 - 40 Β°C.
- - Sensitivity (hyperoxic): <3 pmol.s-1.ml-1 at steady-state over 5 min at 20 - 40 Β°C.
- - Noise: <0.2 pmol.s-1.ml-1 after standard smoothing (120 s).
- - O2 range of measurement: Flux measured at oxygen partial pressure up to 100 kPa and to <0.01 kPa based on DatLab analysis of oxygen kinetics (mitochondria and cells)
- Instrumental background for linear correction over the entire oxygen range:
- - O2 backdiffusion at 0 kPa:
- <3 pmol.s-1.ml-1 at 20 to 40 Β°C (2.5 pmol.s-1.ml-1 typical)
- - O2 consumption at 20 kPa:
- <4 pmol.s-1.ml-1 at 37 Β°C (3 pmol.s-1.ml-1 typical)
- <3 pmol.s-1.ml-1 at 25 Β°C (2 pmol.s-1.ml-1 typical).