Unlike the well-examined cardiovascular changes during movement stimuli, changes of cerebral hemodynamics and cerebral metabolism in physical exercises have, as yet, rarely been studied. Our objective was to investigate whether there are changes in cerebral hemodynamics and cerebral metabolism caused by active and passive movement stimuli. Response to repetitive active and passive movement stimuli was studied in 14 volunteers (8 females, 6 males; mean age, 35.2+/-8 yr). Each volunteer was subjected to four measurement series while performing a defined active and passive exercise program of the right upper or right lower limb. Measurement series were designed according to Aaslid's "evoked flow test"; exercises were performed for 20 s, followed by a rest of 20 s. This sequence was repeated 10 times in each series. As a measure of cerebral hemodynamics mean and peak blood flow velocity of the middle cerebral artery were recorded by transcranial Doppler sonography (Multidop-X-DWL). In addition, cerebral metabolism was quantified in a subsample by means of oxygenic cytochrome aa3 (respiratory chain enzyme), cerebral oxygen saturation using near infrared spectroscopy (Critikon). As well, noninvasive blood pressure (Penaz method) and expiratory pCO2 were measured. Compared with resting measures, an increase in mean cerebral blood flow velocity of the middle cerebral artery of 3.8% (P = 0.003, paired t test) was observed after active exercises of the right lower limb and 3.5% after active exercises of the right upper limb. Respective changes were 3.4% (P = 0.004) for passive exercises of the lower limb and 4.6% (P = 0.007) for passive exercises of the right upper limb. Peak cerebral blood flow velocity of the middle cerebral artery showed an even more pronounced increase during passive and active exercises in all cases, with values of between 12.2% (P < 0.001) and 13.6% (P < 0.001). Significant increases (1.5-3%) of cytochrome aa3 and cerebral oxygen saturation were observed during active and passive exercises. These studies show that active as well as passive exercises are followed by an increase of cerebral blood flow velocity. We attribute the increase of cerebral hemodynamic and cerebral metabolism to cerebral activation and autoregulative mechanisms.
The purpose of the study contained herein was to investigate the effects of old traditional physiotherapeutic treatments on cerebral autoregulation. Treatment consisted of complete body immersion in cold or warm water baths. Fifteen volunteers were investigated by means of transcranial Doppler sonography and a servo-controlled noninvasive device for blood pressure measuring. One group of 8 volunteers (mean age, 27.2+/-3.5 yr; gender, 3 females/5 males) was subjected to cold baths of 22 degrees C for 20 min Another group of 7 volunteers (mean age, 52.1+/-8.5 yr; gender, 4 females/3 males) took hyperthermic baths at rising water temperatures from 36 degrees to 42 degrees C, increased by 1 degree C every 5 min. Each volunteer in both groups underwent autoregulation tests two to four times before, during, and after the thermic bath. Dynamic autoregulation was measured by the response of cerebral blood flow velocity to a transient decrease of the mean arterial blood pressure, induced by rapid deflation of thigh cuffs. The autoregulation index, i.e., a measure of the speed of change of cerebral autoregulation, was used to quantify the response. Further parameters were core temperature, blood pressure (mm Hg) and CO2et. During hypothermic baths, core temperature decreased by 0.3 degrees C (P = 0.001), measured between preliminary phase and the end of the bath; the autoregulation index decreased significantly (P < 0.05) from 5.3 before the bath to 4.25 during the bath. During hyperthermic baths, the autoregulation index increased from 6.0 to 7.5 and 8.9 (P < 0.001), with an increase of core temperature of 0.4 degrees C. The main cerebral autoregulation system is dependent on changes of core temperature, provoked by hypothermic or hyperthermic whole-body thermostimulus. Application of hyperthermic baths increased the autoregulation index, and hypothermic baths decreased the autoregulation index. Further studies are needed to prove the positive effects of thermo-stimulating water applications on cerebral hemodynamics in patients with cerebral diseases.
The purpose of this study was to examine if local thermo-applications affect central nervous reactions. In a crossover study, six normal, healthy volunteers at first received cold packs (Cryogel, 8-12 degrees C; Pino GmbH, Hamburg, Germany) and afterwards hot packs (Parafango, 50-60 degrees C; Pino GmbH), and another six volunteers started with the hot packs and had the cold packs later; both groups administered the hot and cold packs to their thighs. Before, during, and after treatment, cerebral blood flow velocity (CBFV) in the middle cerebri-artery (MCA) was measured continuously by transcranial Doppler sonography, whereas cerebral respiratory chain enzyme cytochrome aa3 (cCytaa3) and cerebral oxygen saturation (cHbO2) were measured by transcranial near infrared spectroscopy in frontal brain tissue. Furthermore, CO2 end-tidal and arterial blood pressure (noninvasive) were also measured. Six other volunteers received only one treatment; therefore, 15 measurements with cold and 15 measurements with hot packs were performed. During application of cold packs, a decrease of cHbO2 of 10.5% (P < 0.001) and cCytaa3 of 6.7% (P < 0.001) was found, whereas the CBFV(MCA) increased significantly (3.9%; P < 0.001) between preliminary and post-stimulus periods. When cold packs were removed, a significant increase of the cHbO2 (16.9%; P < 0.001) and cCytaa3 (9.7%; P < 0.001) was measured. With these values, cHbO2 and cCytaa3 showed an overshooting counterreaction beyond the initial level. When applying the hot packs, a contrary course of the parameters was found. cCytaa3 showed a significant increase of 9.3% (P < 0.001) at the end of the stimulus phase and a decrease of 1.9% (P = 0.02) during the post-stimulus period. The correlating increase of cHbO2 was significant at 13.7% (P < 0.005). At the end of the post-stimulus phase, a significant decrease of cHbO2 at 1.9% (P = 0.004) was recorded. With Parafango applications, a significant decrease of CBFV(MCA) at 6.9% (P < 0.001) was measured at the end of the stimulus in comparison with the preliminary phase. Crossover analysis showed no significant period effects and intraindividual changes between period and treatment. Therefore, both treatments can be compared within the individual using paired t test. Local cold and warm stimuli influence the cerebral hemodynamics and cerebral metabolism. Cerebral hemodynamics (CBFV(MCA) in comparison with cerebral metabolism (cCytaa3, cHbO2) show opposite reactions under thermo-stress. Of special interest is the overshooting counter-regulation of cerebral metabolism after cold stimulation. These effects may open new thermotherapeutic aspects in central nervous system diseases.
Pilot Study on Mustard Footbaths Especially Considering Cerebral Blood Flow VelocityIntroduction: Mustard, especially Sinapis nigra, has been known as medicinal plant since former times and was considered as ‘sucking out’ and ‘brain purifying’. Later Hufeland used mustard seeds chiefly for external applications in form of baths, plasters, and compresses H. Krauss described the use of Sinapis nigra for asthmatical troubles and different forms of cephalgia. Objective: The pilot study presented here starts from the hypothesis that footbaths with Sinapis nigra cause changes in cerebral blood flow velocity (CBFV). Methods: We measured CBFV in the Arteria cerebri media by means of transcranial Doppler sonography, furthermore arterial blood pressure (ABP), carbon dioxide expiratory concentration (CO2ex), respiratory frequency, arterial oxygen saturation (SaO2), digital pulse, and body temperature. The verum group and the comparative group consisted of 5 healthy probands each (3 male, 2 female, mean age 27.5 years). Results: The application of footbaths with black mustard showed a significant reduction of CBFV (5.5–8%) in comparison to pure-water foot baths. Till now this change of CBFV cannot be explained, as neither ABP nor CO2ex changed. Conclusion: There initial examinations can give an indication of the mode of action of footbaths with Sinapis nigra, in accordance with the experience of physicians and patients using this form of application for chronical cephalgias. Further studies with a larger number of patients and probands will give more information on the observed physiological changes.
Manual vibratory massage is part of the preventive physiotherapeutic activities performed in intensive care units. The vibratory massage can be performed manually or as electrovibratory massage. The manual massage is a fast rhythmical vibration performed by the arm and shoulder muscles of the masseur and transferred to the patient's thorax by the hand. The hand of the masseur has to achieve a tremor with a frequency of 8 to 11 tremors/s. The aim of the pilot study was to examine the influence of manual vibratory massage on the pulmonary function of postoperative patients who were receiving mechanical ventilation, with special interest being focused on pulmonary ventilation and perfusion and cerebral blood flow velocity. Manual vibratory massage was performed postoperatively in the intensive care unit on eight patients: three patients had undergone heart transplantation, three had undergone lung transplantation, and two had undergone coronary artery bypass grafting (mean age, 53.6+/-8 yr). With the aid of continuous monitoring, we examined the changes of the respiration parameters and the cerebral blood flow velocity (measured by transcranial Doppler sonography). The vibratory massage was performed with a frequency of 8 to 10 vibrations/s for 15 min, 7.5 min on each side of the thorax, starting from the lower costal arch and progressing to the upper thoracic aperture. For 10 min before, during, and 10 min after the massage, the parameters of peripheral oxygen saturation, central venous pressure, mean arterial pressure, heart rate, lung resistance and compliance, tidal volume, respiration rate, and cerebral blood flow velocity were recorded at 2-min intervals. Moreover, before and after vibratory massage, arterial blood gases were determined. In four of the eight patients, it was possible to determine pulmonary arterial pressure, pulmonary capillary wedge pressure, as well as pulmonary vascular resistance. During the vibratory massage, we could prove a significant increase of the mean tidal volume by 30% (P = 0.008). The percutaneous oxygen saturation significantly increased also, from 92 to 93.6% (P = 0.002). Central venous pressure significantly decreased by 11% (P = 0.04), and pulmonary vessel resistance was reduced by 18.3% (P = 0.001). The pulmonary resistance decreased from 10.5 to 9.2 H2O/l/s (P < 0.05) by the end of the observation period. Cerebral blood flow velocity showed no significant change. Vibratory massage seems to improve pulmonary mechanism and perfusion, thus, reducing ventilation perfusion mismatch and increasing oxygen saturation.
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