Oxford, UK, July 18, 2016 - Increasing oxygen delivery to muscles can help athletes perform better and give them the edge needed to win elite competitions. One of the best ways to increase oxygen supply is through blood manipulation, undergoing a blood transfusion that provides extra red blood cells and boosts oxygen levels. These blood transfusions, popularly known as "blood doping," are illegal for professional athletes. While some transfusions and stimulants are identifiable with current testing methods, autologous blood transfusion (ABT) is not. A new report in Transfusion Medicine Reviews looks at novel biomarkers to identify potential new testing protocols for ABT.
Athletes are on a constant quest to maintain a peak level of performance, but in order to preserve a level playing field, many enhancements have been banned. One of these banned practices is blood doping, which artificially increases oxygen delivery to the muscles allowing athletes to increase their endurance. Certain blood manipulation methods, such as administration of recombinant human erythropoietin (rHuEPO) and homologous blood transfusion, are currently tracked through a longitudinal profile called the athlete biological passport (ABP); however, there is not yet a test available for ABT, which is reinfusion of the athlete's own blood or red cell concentrates.
A new review in Transfusion Medicine Reviews looks at the latest methods available for detecting ABT and suggests that combining several different methods may offer a comprehensive solution for identifying cheating athletes. New markers suggested include total mass of hemoglobin, altered expression of genes related to red blood cell metabolism, ironomics, storage lesions, and the presence of plasticizers from blood bags in athlete urine samples.
"Although the introduction of the ABP was a breakthrough toward the detection of blood transfusion and blood doping, the transition to microdose regimens of rHuEPO and blood transfusion has raised questions concerning the efficiency of the hematological module," explained lead investigator Nicolas Leuenberger, PhD, Swiss Laboratory for Doping Analyses, University Center of Legal Medicine at the University of Lausanne (Switzerland). "Blood doping remains omnipresent among cheating athletes. This analytical tool must thus be continuously refined and correlated with the introduction of new markers."
The review states that hematological markers such as total mass of hemoglobin appear to be a sensitive indicator of blood transfusion. Hemoglobin mass offers a detection window as long as 15 days after the initial transfusion, but testing requires athletes to undergo an uncomfortable carbon monoxide rebreathing test, which requires participants to inhale toxic CO, something that can reduce exercise capacity. "Furthermore, the CO rebreathing method requires athletes to fully cooperate, which is unlikely in cheating athletes," said Dr. Leuenberger. "Therefore, research is focused on indirect modeling of hemoglobin mass from indirect markers."
Next, investigators noted that studies have shown that blood doping influences the production of young red blood cells, altering their genetic expression. Being able to detect changes in genes is important because athletes often combine transfusions with injections of rHuEPO to limit fluctuations of classic hematological biomarkers. Examining the changes to genes can offer an additional criterion that is sensitive to even small variations and the observed changes were detectable up to three days posttransfusion.
Investigators looked at iron as another potential indicator of blood doping. They highlighted several iron-related factors that may be measurable to help identify ABT, including transferrin, the protein involved in the transport of iron in circulation, and hepcidin, a hepatic peptide that regulates the availability of iron, as well as erythroferrone, a recently discovered protein related to iron metabolism. "Because all of these players in iron metabolism demonstrate high interindividual variation, individual follow-up of these variables in an 'ironomics-based' approach appears to be an appropriate strategy in detecting blood manipulation," stated Dr. Leuenberger. "Confounding factors such as high-altitude training, physical exercise, or iron injections on the measurement of iron parameters should be explored. Differences in iron metabolism between men and women should also be well defined before any potential implementation of an ironomic passport."
Finally, the review identifies two blood storage-related biomarkers: storage lesions and the presence of plasticizers from blood bags in the urine matrix. Keeping blood for prolonged periods of time leads to a series of biochemical and biomechanical changes in red blood cells called storage lesions. Investigators assert that these changes can be tracked via proteomics by studying changes of the protein level during storage.
Another indicator that an athlete has recently been given previously stored blood is the presence of plasticizers in the urine. Plasticizers and other softening agents used to make blood bags can leech into the blood while it is being stored and then show up in urine samples after that blood is given to an athlete. Because these plasticizers also appear in other common products, the review notes it's important to use the passport method to establish an average amount for individual athletes. Then, urine tests can look for elevated levels in relation to previously established baselines.
Being able to identify athletes who use ABT to try to gain an illegitimate advantage is important to keeping competitions fair. With these new biomarkers, agencies, like the World Anti-Doping Agency, may be better able to identify cheaters, leveling the playing field for all.
As Dr. Leuenberger concluded, "Different biological sources such as urine, plasma, or whole blood will provide complementary data and increase the specificity and the discriminative performance of the athlete biological passport. The combination of longitudinal biomarkers improves diagnostic accuracy compared with use of a single marker and provides a powerful tool in personalized medicine. Combining short-term and long-term biomarkers would thus improve the general detection window and allow the identification of the biological fingerprint of blood transfusion and blood doping in general."
Notes for editors
The article is "Autologous Blood Transfusion in Sports: Emerging Biomarkers," by livier Salamin, Sara De Angelis, Jean-Daniel Tissot, Martial Saugy, Nicolas Leuenberger (doi: 10.1016/j.tmrv.2016.05.007). It appears in Transfusion Medicine Reviews, volume 30, issue 3 (2016), published by Elsevier.
Copies of this paper are available to credentialed journalists upon request; please contact Elsevier's Newsroom at firstname.lastname@example.org or +31 20 485 2492. Journalists wishing to interview the author should contact Nicolas Leuenberger, PhD, Swiss Laboratory for Doping Analyses, at +41 213 147 330, +41 795 564 297 (mobile), or Nicolas.email@example.com.
About Transfusion Medicine Reviews
Transfusion Medicine Reviews provides an international forum for the publication of peer-reviewed scholarly work devoted to the various sub-disciplines that comprise transfusion medicine including hemostasis and thrombosis and cellular therapies. The scope of the journal encompasses basic science, practical aspects, laboratory developments, clinical indications, and adverse effects.
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