Delivering comprehensive, fine-tuned diagnostic services tailored to each user: maximum performance assured
In the world of sports, maintaining optimal physical condition and preventing injuries are crucial for any athlete, whether a beginner or a seasoned professional. One key tool in achieving this goal is professional performance diagnostics, a systematic evaluation of an athlete's physical and neuromuscular functions.
This process, which is of great importance for everyone who is physically active, aims to optimise training, improve performance, and prevent injury by identifying deficits or fatigue-induced declines.
Common methods used in professional performance diagnostics include Neuromuscular Fatigue Assessments, Wearable Technology, Muscle Strength Measurement Tools, Statistical and Physiological Monitoring, and Preparticipation Evaluations (PPE).
Neuromuscular Fatigue Assessments typically involve tests such as vertical jump tests, isometric and isokinetic knee extension/flexion (KE/KF) tests, and sprint performance measures. These tests gauge explosive power and recovery state, helping detect neuromuscular fatigue.
Innovative wearables like smart insoles equipped with inertial measurement units (IMUs) are also being used in sports like soccer. These devices capture precise movement data like speed and running distance during training sessions, providing comprehensive insights into performance trends and fatigue.
Muscle Strength Measurement Tools, such as manual muscle testing (MMT), handheld dynamometers (HHDs), and isokinetic dynamometers, are used to quantify muscle strength in a reliable manner.
Statistical and Physiological Monitoring involves evaluating endurance and fatigue resistance using physiological parameters (e.g., VO2max) and statistical analyses to identify predictors of outstanding performance and fatigue effects.
Though not a direct performance diagnostic, PPEs screen healthy adults before sports participation to detect potential health risks affecting performance or safety.
The interaction of heart, lungs, circulation, and metabolism is reflected during the Spiroergometry process. The Ergospirometry method in professional performance diagnostics involves analyzing respiratory gases on a treadmill or a special bicycle called an ergometer. A spirometry device is used to analyze the exhaled air during the gas analysis. The athlete wears a face mask connected to a volume sensor for measuring the ventilated air volume.
Data from professional performance diagnostics shows the current physical condition and is the individual basis for a tailored training plan. Sports physicians are the first point of contact for professional performance diagnostics. This service is part of the spectrum in many cardiologists' and specialists' practices.
It is important to note that unreliable pulse meters from discount stores can be especially dangerous. The lactate test and heart rate measurement are essential parts of professional performance diagnostics, as they measure the anaerobic threshold and provide information about the individual aerobic or anaerobic area.
In conclusion, professional performance diagnostics in sports uses a combination of physical test protocols, wearable sensor technology, physiological measurements, and subjective reports to monitor athlete condition, fatigue, and performance potential accurately and efficiently. This integrated approach supports tailored training adaptations and injury prevention.
Other fields such as health-and-wellness and fitness-and-exercise also benefit from professional performance diagnostics, as they aim to optimize performance and prevent injuries by identifying deficits or fatigue-induced declines just like sports.
Additionally, the insights gained from professional performance diagnostics can aid in creating personalized exercise programs for those focusing on health-and-wellness and fitness-and-exercise, leading to enhanced results and reduced risk of injury.
