The NADlongevity Institute in Munich uses this radiation-free, side-effect-free examination to perform a full-body scan. This allows us to obtain precise measurement data for posture analysis, body circumference, progress tracking, documentation of treatment processes, performance diagnostics, and sports medicine. This measurement method is quick and low-risk, and is always reliable, efficient, and non-invasive.

3D body scanning automatically and without contact measures the human body. A comprehensive, three-dimensional image of the body surface is generated within approximately 20 seconds.

This 3D image allows for the examination of different posture aspects and the performance of a posture analysis.

Variable horizontal and vertical planes are used for posture control, such as determining postural imbalances or body circumferences. Different colors allow for precise analysis of individual back regions or the identification of muscle asymmetries when comparing sides.

3D body mapping refers to the creation of a three-dimensional digital map or representation of the human body. This process involves the use of modern technologies, such as 3D scanning, to create precise and detailed models of the body. Here are some aspects to consider in 3D body mapping:

1. 3D scanning:
   • 3D scanning technologies are used to precisely measure the body and capture the relevant data. This can be done using lasers, cameras, or other imaging techniques.
2. Measurement of body surface and shape:
   • 3D body mapping allows for the precise measurement of the external body surface, including its shape and proportions. This is particularly relevant in fields such as fashion, healthcare, fitness, and sports.
3. Adaptation of clothing and equipment:
   • In the fashion industry, 3D body mapping is used to tailor clothing and accessories to individual body shapes. This can help develop more precisely fitting and comfortable products.
4. Health and fitness applications:
   • In the health and fitness sector, 3D body mapping can be used to monitor body condition, track progress towards fitness goals, and create personalized training or rehabilitation programs.
5. Medical applications:
   • In medicine, 3D body mapping can be used for the precise measurement of body parts or structures, for example for planning surgical procedures or for fitting prostheses.
6. Virtual reality applications:
   • 3D body mapping can also be integrated into virtual reality applications to enable realistic virtual representations of one's own body. This is used in areas such as gaming, simulation, and virtual training.

Furthermore, the use of 3D body mapping technologies has the potential to provide personalized and precise solutions in various industries by enabling an accurate representation of the individual body shape.

7. Body analysis and health assessment:
   • 3D body mapping allows for the collection of detailed information about body shape, body composition, and posture. This data can be used for a comprehensive health assessment, for example, to identify risk factors for certain diseases or to create personalized health plans.
8. In sports science:
   • In the field of sports science, 3D body mapping can be used to analyze movements and biomechanical processes. This is particularly important for optimizing training techniques, preventing injuries, and improving athletic performance.
9. Ergonomics and product design:
   • 3D body mapping also supports product design, particularly in the development of ergonomic products such as office chairs, car seats, or bedding. Precise adaptation to individual body shapes can improve the comfort and efficiency of such products.
10. Research and Development:
    • In research and development, 3D body mapping can help to collect detailed anthropometric data that can be useful in various disciplines such as anthropology, ergonomics, medicine and sports science.