Gender-specific differences in stroke knowledge, stroke risk perception and the effects of an educational multimedia campaign.

This study aimed at identifying gender-specific differences in stroke knowledge, stroke risk perception and the educational effects of a multimodal educational intervention. We performed computer-assisted telephone surveys among an average sample of 500 members of the general public (44.0% male, 56.0% female), before and immediately after an intense 3-month educational stroke campaign in a western German area of 400,000 inhabitants. The intervention was comprised of poster advertisements and various print media. Slogans and stroke interest stories appeared regularly in local newspapers, on television and radio and public events focussed on the subject. Even before the intervention, more women than men were able to name at least one stroke warning sign (71.3 vs. 57.8%, p < 0.01), to name the correct emergency call number (33.3 vs. 24.3%, p < 0.05) or to cite the correct action in acute stroke ("call emergency care", 87.2 vs. 70.1%, p < 0.001). In some aspects women showed a generally better improvement of knowledge after the campaign (e.g. correct emergency call number: +5.7 vs. +1.2%, p < 0.05). Fewer women than men considered themselves as being at risk of stroke (30.9 vs. 36.9%. p < 0.01) with a significant increase following the intervention in both sexes (38.9/46.0%, p < 0.01). The perception of different educational media varied between the sexes. For example, female sex was independently associated with a better recall of poster advertisements and flyers in pharmacies and at the doctor's office (OR 1.44). Our data indicate that educational programs do have gender-specific effects. Women show a better stroke knowledge and in some aspects a better chance to gain information from classical broad educational interventions. Future campaigns should be tailored economically, and should focus different media and educational messages on the two sexes accordingly.

Brain edema and intracerebral necrosis caused by transcranial low-frequency 20-kHz ultrasound: a safety study in rats.

BACKGROUND AND PURPOSE: Ultrasound-accelerated thrombolysis is a promising approach toward acute stroke treatment. In previous in vitro studies, we demonstrated enhanced thrombus destruction induced by 20-kHz ultrasound. However, little is known about biological interactions of low-frequency ultrasound with brain tissue. The aim of this in vivo MRI study was to assess safety aspects of transcranial low-frequency ultrasound in rats. METHODS: The cranium of 33 male Wistar rats was sonificated for 20 minutes (20-kHz continuous wave). Power output was varied between 0 and 2.6 W/cm2. Tympanal and rectal temperature was monitored. Diffusion-weighted imaging and T2-weighted imaging was performed before and 4 hours, 24 hours, and 5 days after sonification. Apparent diffusion coefficients (ADCs) and T2 relaxation time (T2-RT) were measured in regions of interest in the cortex and the basal ganglia. The animals were euthanized for histological evaluation thereafter. RESULTS: Tympanal temperature increased significantly during insonation with 1.1 and 2.6 W/cm2. ADCs decreased significantly at 0.5 and 1.1 W/cm2, indicating cytotoxic edema. T2-RT increased significantly in the 0.5 and 1.1 W/cm2 group, consistent with vasogenic edema. No changes were detectable in the low-power output group (0.2 W/cm2). After sonification with 2.6 W/cm2, a significant loss of neurons could be detected on histopathology. Furthermore, 3 animals developed circumscript cortical lesions that could be identified as parenchymal necrosis. CONCLUSIONS: Low-frequency ultrasound caused vasogenic and cytotoxic brain edema and intracerebral necrosis in a dose-dependent fashion. This study indicates therapeutic low-frequency ultrasound as being potentially harmful and underlines the necessity of careful evaluation in further animal models.

Comparison of continuous wave Doppler ultrasound of the radial artery and laser Doppler flowmetry of the fingertips with sympathetic stimulation.

Laser Doppler is widely used to evaluate sympathetic vasoconstrictor function. Continuous wave (cw)-Doppler of the radial artery may be an alternative but less expensive approach to quantify sympathetically induced resistance changes in the peripheral vascular system. In order to compare the power of both methods, this study was performed with simultaneous assessment of cw Doppler and laser Doppler flowmetry in volunteers. Twenty-five healthy subjects (median age years, range 20-27) rested in a relaxed supine position and were asked to perform a deep inspiratory gasp and a commanded cough (DIG + C). Radial artery blood flow was assessed with a standard cw Doppler device, arteriolar blood flow was assessed simultaneously employing a single point laser Doppler perfusion monitor at the fingertips. We quantified the latency between stimulus and onset of vasoconstriction, the latency to the maximum vasoconstriction and the duration of response. The decrease in flow velocities (cw Doppler) after stimulus was compared with the decrease in capillary flow (laser Doppler). While the flow profile as measured with laser Doppler remained monophasic after stimulation, cw Doppler showed biphasic flow (or absent diastolic flow) in all subjects after DIG + C. The latencies between stimulus and onset of reaction were significantly shorter when measured with laser Doppler (1.8 s vs. 2 s, p = 0.049), the latencies till the maximum extent of the reaction was reached did not differ significantly (3.2 vs. 3.3 s). The duration of the response was significantly shorter when measured by laser Doppler (12.0 vs. 14.5 s (p < 0.0001). While skin blood flow in the laser Doppler measurement decreased after stimulation from 654 flux units (FU) to 319 FU (-59%), mean flow velocities in the radial artery declined from 1.07 kHz to 0.14 kHz (-87%). This relative change was significantly different (p < 0.0001). The correlation between the decline of flux units as measured by laser Doppler and cw Doppler changes was r = 0.616 (p = 0.004). Both methods are feasible to monitor flow changes due to sympathetic stimulation. Latencies and relative quantitative changes were closely correlated.Thus, cw Doppler is a valid alternative approach to laser Doppler flowmetry in healthy volunteers.

Sympathetic vasomotor response of the radial artery in patients with diabetic foot syndrome.

OBJECTIVE: Neurophysiological assessment of the peripheral autonomic system is characterized by various limitations. An alternative approach to laser Doppler and venous plethymography is the assessment of the sympathetic vasomotor response of the radial artery obtained by continuous wave Doppler sonography. Nomogram data have been established and demonstrate the temporary disappearance of diastolic flow after coughing or deep inspiration. RESEARCH DESIGN AND METHODS: We assessed the sympathetic vasomotor response in 25 patients (mean age 64 years, range 43-76) with diabetic foot syndrome. The Doppler data were correlated with nerve conduction studies of the median and peroneal nerve, the extent of radiologically diagnosed media sclerosis, and compared with nomogram values (n = 41). RESULTS: Although similar mean flow velocities were found under baseline conditions, the flow pattern was characterized by higher pulsatility in the diabetic group (resistance index [RI] 1.1 vs. 0.7). No significant difference in RI was observed after coughing. The latency of onset of the response was prolonged (2.1 vs. 1.5 s), while the duration of the response did not differ (18 vs. 15 s). Only the nerve conduction velocity of the peroneal nerve correlated inversely with the RI. The extent of radiologically proven calcification tended to correlate with the pulsatility of the baseline signal and the response latencies. CONCLUSIONS: The data obtained by this study suggest the concurrent existence of reduced vessel elasticity due to media sclerosis and dysfunction of the autonomic vasomotor system.