says
Shoo...nothing to see here. - zeio
Been waiting for this day to post it. Yet, it's no April Fools. The no-booster camp at ITTF is still looking for a way to weed out every last one of them. Note the name Claudia Herweg.
https://doi.org/10.1016/j.aca.2021.338227
Detection of illegal treatment of table tennis rackets using gas chromatography coupled to ion mobility spectrometry – A feasibility study
Carolin Drees, Markus Knieb, Annika Fechner, Joachim Franzke, Claudia Herweg, Wolfgang Vautz
Highlights
• Ion mobility coupled to gas chromatography (GC-IMS) enables booster control in table tennis.
• Characteristic VOC patterns of table tennis coverings and from boosters can be differentiated.
• Quantitative and selective determination of relevant compounds by calibration.
• Short analysis time (1–2 min) using mobile GC-IMS allows booster monitoring on-site.
• This analytical tool GC-IMS could help keeping sports fair and equitable.
Abstract
In all professional sports, performance pressure is high at the top level. Therefore, rules are defined and controlled to keep sports fair in accordance e.g. with the Agenda 21 of the International Olympic Committee. However, it’s about money and honour and as a consequence it is obvious that the athletes will go to the limits at all levels or even beyond. This is not only true for performance-enhancing substances to improve the physical capacity but – when sports equipment is involved – also for their optimisation. Thus, rules and related controls are necessary with regard to fairness between competitors but also with regard to their health when chemicals are involved. In table tennis, such chemicals (so-called boosters) are used occasionally – but against the rules – to improve the performance of the rackets. In the present study, several boosters were analysed as well as numerous common racket coverings using ion mobility spectrometry coupled to gas-chromatographic pre-separation. After optimisation of sampling with regard to improving reproducibility, characteristic patterns of volatiles for booster compounds and for racket coverings with different characteristics were developed successfully. In particular, signals related to particular softening agents could be identified and detected even in the untreated coverings. The patterns of volatiles were found to be characteristic for the particular boosters investigated as well as for the particular coverings. Furthermore, those patterns enable a differentiation between booster and covering or – in other words – between rule-consistent racket coverings and rule violation by after treatment of the rubber with a booster. After adaptation of the entire procedure to realistic competition situations, the method could be used for proving an infringement against the prohibition of applying such compounds.
https://doi.org/10.1016/j.aca.2021.338227
Detection of illegal treatment of table tennis rackets using gas chromatography coupled to ion mobility spectrometry – A feasibility study
Carolin Drees, Markus Knieb, Annika Fechner, Joachim Franzke, Claudia Herweg, Wolfgang Vautz
Highlights
• Ion mobility coupled to gas chromatography (GC-IMS) enables booster control in table tennis.
• Characteristic VOC patterns of table tennis coverings and from boosters can be differentiated.
• Quantitative and selective determination of relevant compounds by calibration.
• Short analysis time (1–2 min) using mobile GC-IMS allows booster monitoring on-site.
• This analytical tool GC-IMS could help keeping sports fair and equitable.
Abstract
In all professional sports, performance pressure is high at the top level. Therefore, rules are defined and controlled to keep sports fair in accordance e.g. with the Agenda 21 of the International Olympic Committee. However, it’s about money and honour and as a consequence it is obvious that the athletes will go to the limits at all levels or even beyond. This is not only true for performance-enhancing substances to improve the physical capacity but – when sports equipment is involved – also for their optimisation. Thus, rules and related controls are necessary with regard to fairness between competitors but also with regard to their health when chemicals are involved. In table tennis, such chemicals (so-called boosters) are used occasionally – but against the rules – to improve the performance of the rackets. In the present study, several boosters were analysed as well as numerous common racket coverings using ion mobility spectrometry coupled to gas-chromatographic pre-separation. After optimisation of sampling with regard to improving reproducibility, characteristic patterns of volatiles for booster compounds and for racket coverings with different characteristics were developed successfully. In particular, signals related to particular softening agents could be identified and detected even in the untreated coverings. The patterns of volatiles were found to be characteristic for the particular boosters investigated as well as for the particular coverings. Furthermore, those patterns enable a differentiation between booster and covering or – in other words – between rule-consistent racket coverings and rule violation by after treatment of the rubber with a booster. After adaptation of the entire procedure to realistic competition situations, the method could be used for proving an infringement against the prohibition of applying such compounds.
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