Neuro-microcirculatory interrelationships in patients with kyphoscoliosis associated with neurological deficits

Abstract

Background: The use of laser Doppler flowmetry with spectral wavelet analysis of blood flow fluctuations allows us to assess the functional state of thin unmyelinated nerve fibers and objectify the dynamics of recovery processes in patients with kyphoscoliotic spinal deformities associated with spinal cord compression. AIM: To study the features of neuromicrocirculatory relationships in patients with kyphoscoliosis associated with neurological deficits before and after surgical treatment. MATERIALS AND METHODS: 20 patients with spinal deformities associated with neurological deficits of varying severity were examined using the LDF method and operated on. Patients were examined before surgery, 1–2 weeks after surgery following regression of acute postoperative pain syndrome, 3–6 months, 6–12 months, and more than a year after surgery. The scope of the study included a general examination with a detailed assessment of the neurological status, radiation diagnostics (postural radiographs of the spine, computed tomography and magnetic resonance imaging of the spine with assessment of spinal canal stenosis). Patients with severe kyphoscoliotic deformities underwent CT myelography followed by the design of individual full-size 3D plastic models of the spine and myeloradicular structures. LDF with wavelet analysis was carried out at all periods of the survey. A perfusion study with determination of the average microcirculation was carried out at the level of the pad of the distal phalanx of the big toe using a two-channel LAKK-02 device with a semiconductor laser (sensing in the red Raman and infrared IR channels). The obtained LDF results were processed by spectral amplitude-frequency wavelet analysis to characterize microcirculation regulation factors in the ranges of sympathetic adrenergic regulation (0.02–0.046 Hz), sensory peptidergic influences (0.047–0.069 Hz), myogenic oscillations (0.07–0.145 Hz). RESULTS: After surgery, the activity of trophotropic sensory peptidergic nerve fibers, the values of perfusion of the microcirculatory channel increased and was maintained starting from the early postoperative period. Ergotropic sympathetic adrenergic activity was significantly decreased in the period of 6-12 months after surgery. Maximum mobilization of trophotropic neurogenic mechanisms of sanogenesis was observed in the period of 6-12 months after surgery. CONCLUSION: The obtained data indicate a significant participation of thin nerve fibers in the recovery processes after decompressive surgeries in the spinal canal zone and the creation of anatomical conditions for neurophysiological repair at the spinal cord level. The use of the LDF method with spectral wavelet analysis of blood flow fluctuations makes it possible to objectify the dynamics of thin unmyelinated nerve fibers and recovery processes in patients with kyphoscoliotic deformities of the spine associated with spinal cord compression.