Dynamic oscillatory circuit of regulation of capillary hemodynamics

We used laser Doppler flowmetry with wavelet analysis of blood flow oscillations, computer capillaroscopy, and thermometry of the nail bed in 30 subjects to show an important role of the oscillatory circuit in the regulation of capillary hemodynamics, number of functioning capillaries, and linear and volumetric velocity of blood flow. The number of functioning capillaries is regulated by oscillations of myogenic and sensory peptidergic origin. The appearance of sensory oscillations, especially high-amplitude oscillations, is an adaptive neurotrophic mechanism that significantly increases the number of functioning capillaries and intensity of blood flow from arterioles to capillaries. The linear velocity of blood flow depends on both the tone of microvessels and changes in the dynamic component of blood pressure. Under conditions of skin hypoperfusion, the mean linear velocity of capillary blood flow may be inversely related to the extracapillary perfusion, including the amplitude of heart rate (A _h) and oscillations of the tone of precapillary sphincters, whereas under conditions of vasodilation and increased skin perfusion, it may be inversely related to the amplitude of arteriolar oscillations of endothelial or neurogenic sympathetic origin (A _maxe + n) and the shunting index. The A _h affects the linear velocity of blood flow in the arterial part of capillaries, whereas the A _maxe + n influences the same factor in the venous part. The contribution of oscillations to the regulation of the linear velocity varies depending on the perfusion and skin temperature. The resultant tone of distributing microvessels is determined by the competition between the stationary and oscillatory components. In addition to changes in the amplitude, the frequency of vasomotions may also be important. The regulatory importance of the oscillatory circuit is increased with a decrease in the skin blood flow.     

The problem of adaptation and oscillatory processes in the microvascular bed

Healthy people (n = 16), patients with autonomic dystonia syndrome (n = 38), and patients with traumatic rupture of the median nerve before and after nerve suture (n = 28) were examined by laser Doppler flowmetry (LDF) with a computer wavelet analysis of blood flow oscillations. Functional states (FSs) of the microcirculatory bed wеre assessed using energetic and information indices of microvascular blood flow oscillations. The variation coefficient and the information regime (multistable or resonance) were used as key characteristics. Oscillatory processes are an integral part of adaptation and the FS formation in the microvascular bed. FSs were classified as adaptive, hyperadaptive, hypoadaptive, and failure of adaptation. Because supporting the optimal function of nutritive microvessels is a leading component of the adaptation process, FSs of nutritive and nonnutritive microvessels may differ. A selective contribution of the autonomic sympathetic regulatory channel was related to maintaining considerable hyperadaptation in the microvascular bed with overstrain or marked overstrain of regulatory systems, as in emotional stress. Hypoadaptive FSs formed when skin blood flow increased, an excess decrease in flow resistance was unnecessary, and especially when regulatory factors were in deficiency, e.g., in neurodystrophic syndrome.     

Influence of sensory peptidergic innervation on human skin blood flow oscillations in the range 0.047–0.069 Hz

Thirty-six healthy subjects and 65 patients with neurogenic inflammation (complex regional pain syndrome of the hand) or denervation syndromes (after median and ulnar nerve injuries or transplantation of denervated vascularized musculocutaneous autografts), as well as after thoracoscopic sympathectomy, underwent laser Doppler flowmetry with spectral wavelet analysis of the blood flow oscillations in cutaneous microvessels and thermography. It was shown that, along with maintenance of the blood flow oscillations of endothelial genesis, peptidergic sensory nerve fibers (SPFs) are involved in activating independent, including high-amplitude, oscillations in the myogenic range 0.047–0.069 Hz (an average of three to four oscillations per minute). The above-mentioned oscillations were recorded against the background of neurogenic inflammation and nociceptive activation of C afferents after nerve injuries, as well as in the course of functional tests in healthy subjects (the forearm skin electrostimulation test, capsaicin application). Sympathectomy and hyposympathicotonia contributed to their manifestation; they were not detected under the conditions of severe sensory-trophic skin denervation. The appearance of high-amplitude blood flow oscillations in human skin microvessels at a frequency of 0.047–0.069 Hz may serve as an objective criterion of SPF activation.     

Oscillatory processes in lymph microcirculation in the human skin

This study was the first to use laser Doppler flowmetry followed by wavelet analysis in order to estimate oscillations in lymph microcirculation in 30 subjects with (n = 13) or without (n = 17) edema of the distal part of the upper limb. Lymph flow in the human skin exhibited clear dominance of pacemaker phase oscillations in the frequency ranges of 0.021–0.042 and 0.016–0.035 Hz in the skin of the palm surface of the finger nail bone and in the skin of the forearm, respectively. Edema was associated with an increase in the peak frequencies and normalized maximum amplitudes (Al/Ml, where Al is the mean value of the maximum amplitude of phase oscillations, and Ml is the value of the averaged lymph flow expressed in perfusion units). Low-amplitude oscillations were recorded rarer in the myogenic, endothelial, and respiratory ranges. We did not find any cardiac pulse rhythm in the wavelet spectrum of the lymph flow. We did not find any interaction between the Al/Ml value and the skin temperature. In the group of subjects without edema, under physiological conditions only, we found a negative correlation between the Al/Ml value and the amplitudes of myogenous proper blood flow oscillations, which reflected the number of functional capillaries and activity of oxidative metabolism in the tissue. In the group with edema, we did not find any correlations between the indices of lymph flow and blood flow. The values of normalized amplitude and frequency of phase oscillations may be used as efficient diagnostic tools in the studies on lymph microcirculation.     

The use of sensory-sympathetic coupling indices for diagnosing of sympathetically maintained pain with laser Doppler flowmetry

For the first time the objective diagnosis of sympathetically maintained pain was created with laser Doppler flowmetry (LDF), directed specially to discovery of skin sensory-sympathetic coupling at 49 patients with posttraumatic complex regional pain syndrome. Sensory-sympathetic coupling was diagnosed as combination of sympathetic vasomotor activity with the existence of sensory peptidergic blood flow oscillations in frequency range of 0.047-0.069 Hz in LDF wavelet-spectrum. The results of LDF diagnosis were compared with clinical evaluation of sympathetically maintained pain carried out after desympathization surgery (thoracoscopic clipping above and below the Th3 ganglion of sympathetic chain at 33 patients and perivascular sympathectomy at the level of brachial artery and veins at 16 patients). Sensitivity of preoperative LDF-diagnosis was 90.2%, specificity--87.5%, positive predictive value--97.3%, negative predictive value--63.6%, diagnostic effectiveness--89.8%.     

Functional Changes in Blood Microcirculation in the Skin of the Foot during Heating Tests in Patients with Diabetes Mellitus

The paper shows the possibility of using the laser Doppler flowmetry method for the assessment of system of blood microcirculation in the lower limbs of patients with diabetes mellitus. A series of experimental studies involving 76 patients with diabetes mellitus and 46 healthy volunteers was carried out. The state of peripheral blood flow was assessed during the local heating tests with different temperature regimes. The wavelet analysis of LDF-grams was used to evaluate the adaptive changes of microcirculation during the temperature tests. The data show that the proposed methodology in the form of heating tests and the use of the wavelet transform in the analysis of LDF-grams allows the evaluation of adaptation processes in the microcirculatory bed during thermal tests and the detection of the preclinical stage of trophic disorders.