During the last years, an increased misuse of doping substances in sport has been observed. The action of doping substances characterized by the stimulation of blood flow and metabolic processes is also reflected in the hair structure. In the present study it was demonstrated that optical coherent tomography is well suited for the analysis of hair parameters influenced by doping. Analyzing 20 patients, systemically treated with steroids which also represent doping substances, it was found that in all cases a significant increase in the cross-section of the hairs could be detected. The results obtained in the study are not only important for the screening of doping substances but also for medical diagnostics and control of compliance of patients.
Eighty percent of hair follicles are in the growing phase. They grow approximately 0.3 mm/day. The hair follicles are surrounded by a close network of capillaries, which supplies them with nutrients. It is well known that substances which influence the metabolic processes of humans also influence hair growth. Steroids, which are used for doping in sport, are among these substances. In the present paper, optical coherent tomography is used for the analysis of changes in the hair structure during the application of steroids for the treatment of patients suffering from auto-immune diseases. Significant differences in the hair cross section could be detected during treatment, while the shape of the hairs was not influenced. It could be demonstrated that optical coherence tomography is a suitable, non-invasive and low-cost measuring technique that can be applied for doping control and screening. As a result of this screening process, only those athletes who show abnormalities in hair parameters would need to be investigated by classical analytical methods. The results presented in this study are not only important for doping controls, but also for several clinical applications, such as therapy and compliance control in cases where the applied substances induce changes in the hair structure.
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