3D Scanner "BIOKINEKT"

3D Spine & Posture Analysis


The Trust-M scanner 3D is designed for carrying out anthropometric parameters calculations and spatial imaging of investigated human body as 3D model.


Orthopedics: detection of various postural abnormalities like  twisted pelvic torsion, chest deformations, joint and vertebral column anomalies. Dynamic control of anthropometric parameters. An additional method of selecting individual orthopedic insoles.

Posturology: integrated assessment of postural function including 3D modeling.

Neurology: body imbalances as a result of a neurological disorder.

Rehabilitation exercises:  postural evaluation, monitoring of treatment efficacy.

Manual therapy: monitoring of treatment efficacy.

Sports medicine: evaluation of the recovery processes of musculoskeletal system with the prognostic trend                                                      developing.


Minimal time requirement for the examination.

High patient’s safety, free from radiation.

High accuracy of registered parameters.

Synchronization with the stabilometric platform.

3D visual performing of results.

The option of carrying out the stato-kinetic functional tests.

Segment torsion angles calculation of the body and deviations from the Barré vertical

Evaluation of various anthropometric parameters.

Option of personalized techniques developing.


Main technical features

Completed  scanning  time

2 minutes or less

High of the subject

up to 200 cm

Weight of the subject

no more than 150 kg

Actual error in determining linear parameters (RMS) at a distance to an object of 0.5 m

no more than 2 mm

Actual error in determining linear parameters (RMS) at a distance to an object of 2.0 m

no more than 5 mm

PC connection

USB 3.0

Compatibility with Biokinekt software kinematic model


Easy integration  with Biokinekt stabilometric and kinematic modules


The Trust-M scanner 3D is designed for registration and analysis of spatial and anthropometric parameters of the human body. The device is based on the method of computer optical topography. The device can be used separately for diagnostics and in combination with the Trust-M Biomechanics and Trust-M Balance systems.

Use of the Biokinekt scanner 3D

TRUST-M Scanner 3D

Orthopedics: to identify postural disorders, scoliosis, twisted pelvic torsion, chest deformation. Allows you to monitor spine dynamics. Used as a supplemental method in the selection of personal orthopedic insoles.

Posturology: used for a comprehensive assessment of postural status and detection of postural deficiency .

Neurology: for muscle pain syndromes, asymmetries in movements, gait deficiencies, torso imbalance as a result of a neurological disorder.

Rehabilitation exercises: for diagnosis of postural disorders and subsequent monitoring of the effectiveness of therapy.

Manual therapy: for an objective assessment of the results of treatment and monitoring its effectiveness.

Sports medicine: to assess the musculoskeletal system’s recovery dynamics and predict the results.

It can be used as a screening method in preschools and primary schools to monitor the musculoskeletal system’s condition and development, as well as to diagnose early stage scoliosis.


Advantages of the Biokinekt scanner 3D:

- The method is safe (no radiation exposure), has no contraindications, and can be used on children able to remain in a static pose.

- High accuracy and objectivity of the results

- Ability to conduct an examination in functional poses

- EMG muscle tone evaluation

- Ability to use with a system for biomechanical analysis of movements and conduct an examination in a dynamic mode

- Visual imaging of results on 3D models

- Ability to assess scoliosis using a topographic analogue to Cobb angles

- Calculation of body segment torsion angles, deviation from the Barré vertical

- Synchronization with the stabilometric platform and statokinesiogram data

- Creation of personalized techniques

The Biokinekt scanner 3D models the surface of the entire human body and its individual segments in 3D, allowing you to detect even minor abnormalities. The assessment takes only a few minutes and does not require special patient preparation and a room.

The physician receives clear and objective information about the spine, posture, head position, shortening of limbs, asymmetry of shoulder blades and shoulders, and pelvis positioning. Reconstruction of the spine allows you to visualize its shape in three planes (frontal, sagittal, horizontal) and determine the spatial position of the vertebrae. Postural disorders, scoliosis, kyphosis, and lordosis are clearly demonstrated, with subsequent determination of their degrees and the Cobb angle. A spine assessment in three planes allows you to diagnose structural scoliosis when the spine is "twisting" around the vertical axis.


Topographic capabilities of the Biokinekt scanner 3D:

- diagnose postural disorders

TRUST-M Scanner 3D Soiftware

- diagnose scoliosis

- assess physiological curvatures

- determine chest deformity

- assess shoulder blade symmetry

- determine muscular asymmetry

- diagnose twisted pelvic torsion

- determine spatial position of vertebrae

- monitor treatment effectiveness

- conduct an examination in functional poses

- monitor spine dynamics

- objectively assess data and save results in a database

The Biokinekt body scanner creates a 3D model of the back with 3D spine reconstruction and visual imaging of the shoulder blades and pelvic bones. This allows the physician to obtain objective quantitative and qualitative information about a deviation of the body axis from the vertical, the position of the shoulder blades, twisting of the shoulder and pelvic girdles, misalignment of the pelvic bones, as well as about muscle imbalance. Conducting functional tests allows you to more effectively evaluate muscle asymmetries and estimate the optimality of the movement pattern. Data on the functions of the muscular system can be supplemented by recording the electromyogram. This capability is performed with the Trust-M biomechanical sensor, which is included in the equipment set. Various spinal deformities and musculoskeletal asymmetries lead to changes in the postural control system, including body imbalance. Using the Trust-M scanner 3D in combination with the Trust-M stabilometric platform allows for visual imaging of the center of mass on the 3D model of the patient, as well as complex diagnostics of the human postural control system. For more details, refer to the Trust-M Balance section.

All examination results are visualized on 3D models, records are simply and comprehensibly plotted, and a patient database allows treatment dynamics to be tracked.


Capabilities of the Biokinekt scanner 3D in combination with biomechanical sensors:

- dynamically carry out functional tests and examinations

Trust-M biomechanical sensor

- record biomechanics of movements (flexion, extension, rotation)

- determine the maximum angles of flexion and twisting of the spine

- EMG recording, muscle tone analysis, asymmetry mapping

- assess the properties of spine suspensions

Conducting a dynamic examination provides more complete information about the musculoskeletal system’s condition. This procedure is performed with the Biokinekt scanner 3D and additional Bisens biomechanical sensor. Movements in the cervical, thoracic and lumbar spine are recorded. All movements are recorded in three planes. By placing a sensor on the patient's head, it's possible to determine the degree of mobility of the cervical spine. Flexion, extension, right and left lateral flexion, and rotation are assessed. Simultaneous recording of muscle work of the back is possible, which is important for detecting asymmetries and estimating the distribution of the load on the spine. Another technique for examining the spine’s function is a study of properties of the spine suspensions. While walking, the Trust-M sensors record the magnitude of the accelerations at the level of the sacrum and upper regions of the spine, including the head region. The condition of the spine suspensions can be estimated by the amplitude of differences in acceleration, arising in the upper and lower spine regions.

For more information about the capabilities of the Bisens biomechanical sensors, refer to the Trust-M Biomechanics section.