Muscle function measuring instrument speeds up stroke and hemiplegia treatment Muscle function meter is a combination of innovative technology and biomechanical theory. Aggero Medtech AB is a Swedish medical technology company that has developed a new solution (NeuroFlexor) for accurate clinical measurement of sputum status. NeuroFlexor devices offer a unique and objective way to measure different components of the 痉挛 state. When the device measures resistance, the limb moves passively (body relaxes). Use a validated biomechanical model of nerve (reflection) and muscle (stiffness) components. NeuroFlexor measurements provide an overview of the individual's unique sputum status, thus helping to provide optimal treatment. This method reliably makes it suitable for followL ups patients and evaluates the therapeutic effect. According to the researchers, this muscle function meter is cheaper than the instruments used before, the measurement speed is faster, the effect is more accurate, and the patient suffers less. The NeuroFlexor consists of a servo motor and a power sensor with a portable computer. In the control speed, the passive limb is displaced, and the force sensor is used to accurately measure the resistance. The measured resistance is analyzed according to a biomechanical model. The biomechanical model describes various mechanical components in the distraction muscle and nerve activation caused by stretch reflexes to aid in the development of resistance during distraction. The evaluation of the state-of-the-art component of this new model has been validated and the results have been published in the journal Neurorehabilitation Neural Repair (2011). The development of NeuroFlexor is suitable for clinical use. This device is easy to use and is suitable for clinical measurements and for experimental research. Device control interacts with the computer simply by using a development interface. The clinician uses the information on the computer screen to indicate the patient's measurements. The NeuroFlexor user interface is designed to be easy for clinicians to use. Dynamic settings can be saved and reset. This means that the same measurements can be taken on different dates, increasing the reliability of the measurements. The measurement results of NeuroFlexor are detailed and rich. The above example is a measurement of the state of paralysis in a stroke patient. The bright red curve represents the force trace produced by the rapid stretching (240°/s). The bright red curve below represents the force trace produced by slow stretching (5°/s). The crimson curve shows that the power profile is not passed (no run). The software's assessment of the resistance caused by components such as nerve, elasticity, and viscosity of the sputum state was verified against biomechanical models. NeuroFlexor provides useful data for research The NeuroFlexor method offers many advantages for clinical research in the sputum state. The NeuroFlexor is probably the only passive motion resistance that can be measured by nerves and machinery that cause muscle spasms. Patients with sputum status can use the NeuroFlexor status profile to obtain a more specific method of assessing the effectiveness of the treatment. Reliability measurements also make NeuroFlexor suitable for detecting treatment-induced benefits. NeuroFlexor and patient satisfaction The patients were very satisfied with the use of NeuroFlexor to measure their muscles. The patients indicated that they are very happy that the current method allows clinicians to accurately measure their paralysis status. The patient is also very interested in his own state file (reflection and mechanical contribution). The main interest of the patient is the visualization of different events after treatment. NeuroFlexor: Scientific Results and Clinical Benefits Model verification A study published in Neurorehabilitation Neural Repair (2011) used the same biomechanical model of NeuroFlexor to measure the state of handcuffs in 31 patients with long-term mild hemiplegia. The results support the validity of the biomechanical model. This study shows that the muscle and nerve components of the sputum state can be measured using the NeuroFlexor method. Pre- and post-chemical blockade of five stroke patients with sputum status components. In the ischemic nerve block lag (T0 = before nerve block; T25 = effective nerve block), the nerve component (NC) is abolished or greatly reduced, mechanical parts (elasticity, E and viscosity V) are not affected by nerves The effect of block. reliability Preliminary studies found that 32 patients with chronic mild hemiplegia stroke showed a high degree of confidence in the NeuroFlexor measurement. The results show that the NeuroFlexor measurement has good reliability. In response to treatment, this is important for clinicians wishing to change the state of paralysis in the future. More information can be scanned below QR code attention YT-T13 YT-T13 Shenzhen Sunshine Technology Co.,Ltd , https://www.shenzhenyatwin.com
