Your search keyword '"Vital Signs radiation effects"' showing total 4 results

1. Whole body vibration at different exposure frequencies: infrared thermography and physiological effects.

Author

Sonza A, Robinson CC, Achaval M, and Zaro MA

Subjects

Adult, Female, Humans, Infrared Rays, Male, Postural Balance radiation effects, Skin Temperature radiation effects, Thermography methods, Touch radiation effects, Vital Signs radiation effects, Vibration adverse effects

Abstract

The aim of this study was to investigate the effects of whole body vibration (WBV) on physiological parameters, cutaneous temperature, tactile sensitivity, and balance. Twenty-four healthy adults (25.3 ± 2.6 years) participated in four WBV sessions. They spent 15 minutes on a vibration platform in the vertical mode at four different frequencies (31, 35, 40, and 44 Hz) with 1 mm of amplitude. All variables were measured before and after WBV exposure. Pressure sensation in five anatomical regions and both feet was determined using Von Frey monofilaments. Postural sway was measured using a force plate. Cutaneous temperature was obtained with an infrared camera. WBV influences the discharge of the skin touch-pressure receptors, decreasing sensitivity at all measured frequencies and foot regions (P ≤ 0.05). Regarding balance, no differences were found after 20 minutes of WBV at frequencies of 31 and 35 Hz. At 40 and 44 Hz, participants showed higher anterior-posterior center of pressure (COP) velocity and length. The cutaneous temperature of the lower limbs decreased during and 10 minutes after WBV. WBV decreases touch-pressure sensitivity at all measured frequencies 10 min after exposure. This may be related to the impaired balance at higher frequencies since these variables have a role in maintaining postural stability. Vasoconstriction might explain the decreased lower limb temperature.

Published

2015

2. Effects of static magnetic fields on cognition, vital signs, and sensory perception: a meta-analysis.

Author

Heinrich A, Szostek A, Nees F, Meyer P, Semmler W, and Flor H

Subjects

Cognition radiation effects, Female, Germany, Humans, Magnetic Resonance Imaging methods, Male, Needs Assessment, Reproducibility of Results, Risk Assessment, Sensation radiation effects, Vital Signs radiation effects, Electromagnetic Fields adverse effects, Magnetic Resonance Imaging adverse effects, Occupational Exposure adverse effects

Abstract

To evaluate whether cognitive processes, sensory perception, and vital signs might be influenced by static magnetic fields in magnetic resonance imaging (MRI), which could pose a risk for health personnel and patients, we conducted a meta-analysis of studies that examined effects of static magnetic fields. Studies covering the time from 1992 to 2007 were selected. Cohen's d effects sizes were used and combined in different categories of neuropsychology (reaction time, visual processing, eye-hand coordination, and working memory). Additionally, effects of static magnetic fields on sensory perception and vital signs were analyzed. In the category "neuropsychology," only effects on the visual system were homogeneous, showing a statistically significant impairment as a result of exposure to static magnetic fields (d = -0.415). Vital signs were not affected and effects on sensory perceptions included an increase of dizziness and vertigo, primarily caused by movement during static magnetic field gradient exposures. The number of studies dealing with this topic is very small and the experimental set-up of some of the analyzed studies makes it difficult to accurately determine the effects of static magnetic fields by themselves, excluding nonspecific factors. The implications of these results for MRI lead to suggestions for improvement in research designs., (Copyright © 2011 Wiley-Liss, Inc.)

Published

2011

3. An old issue and a new look: electromagnetic hypersensitivity caused by radiations emitted by GSM mobile phones.

Author

Mortazavi SM, Mahbudi A, Atefi M, Bagheri Sh, Bahaedini N, and Besharati A

Subjects

Adolescent, Adult, Attention Deficit Disorder with Hyperactivity etiology, Back Pain etiology, Blood Pressure radiation effects, Double-Blind Method, Female, Heart Rate radiation effects, Humans, Male, Monitoring, Physiologic, Respiration radiation effects, Vital Signs radiation effects, Young Adult, Cell Phone, Electromagnetic Fields adverse effects, Microwaves adverse effects

Abstract

University students use mobile phones frequently. We previously showed that there was no association between mobile phone use and EMF health hazards among university students. As our previous study was based only on self-reported symptoms this double-blind study was designed to answer two basic questions. Firstly, are self-reported hypersensitive individuals capable of sensing whether there is a real/sham microwave exposure? Secondly, do hypersensitive patients show alterations in their biological parameters such as heart rate, respiration, and blood pressure during microwave exposure? The study consisted of a preliminary screening phase and two subsequent complementary phases. In the 1st phase, 700 students were screened for EMF hypersensitivity. Fifty two participants were hypersensitive individuals but after applying the exclusion criteria only 28 students were invited to take part in the 2nd and 3rd phase of the study, but only 20 students (71.4%) declared their informed consent. In the 2nd phase, these self reported hypersensitive participants, were exposed/sham exposed to microwave radiation emitted from a mobile phone for 10 minutes and they were asked if they could sense the existence of microwave radiation. In the 3rd phase, all students were connected to ICU monitoring devices and their basic physiological parameters were recorded precisely. Among self-reported symptoms reported in our previous study, in this study only problem in concentration (P < 0.05) and low back pain (P < 0.05) were associated with mobile phone use. Furthermore, there was a significant association between the location of mobile phone during talk and the overall score of the severity of the symptoms (P < 0.001). When the participants were asked to report their perception about the real and sham exposures, only 5 students (25%) could discriminate the real exposure/sham exposure phases. This relative frequency can be only due to chance. In the 3rd phase all of the 20 participants were connected to intensive care unit monitors and the changes in their heart rate, respiration, and blood pressure during real/sham exposure were recorded. No statistically significant changes between the means of these parameters in real/sham exposure were observed. Our findings clearly confirm the results obtained inother provocative studies. These data also indicate the possible role of psychological factors in electromagnetic hypersensitivity.

Published

2011

4. Vital signs and cognitive function are not affected by 23-sodium and 17-oxygen magnetic resonance imaging of the human brain at 9.4 T.

Author

Atkinson IC, Sonstegaard R, Pliskin NH, and Thulborn KR

Subjects

Adult, Analysis of Variance, Female, Humans, Magnetics, Male, Middle Aged, Reference Values, Young Adult, Brain radiation effects, Cognition radiation effects, Magnetic Resonance Imaging methods, Oxygen Isotopes adverse effects, Sodium Isotopes adverse effects, Vital Signs radiation effects

Abstract

Purpose: To evaluate the effect of 23-sodium ((23)Na) and 17-oxygen ((17)O) magnetic resonance imaging (MRI) at 9.4 (T) on vital signs and cognitive function of the human brain., Materials and Methods: Vital sign and cognitive function measurements from healthy volunteers (N = 14) positioned outside and at isocenter of a 9.4 T scanner before and after (23)Na and (17)O MRI were compared for changes due to exposure to the static magnetic field and to the gradient switching and radiofrequency radiation during MRI., Results: Exposure to the 9.4 T static magnetic field and (23)Na and (17)O MRI at 105.92 MHz and 54.25 MHz, respectively, did not have a statistically significant (P > 0.05) effect on the vital signs or cognitive function of healthy normal adults., Conclusion: (23)Na and (17)O MRI of the human brain at 9.4 T does not have any readily demonstrated health risks reflected in vital signs or change in cognitive performance., ((c) 2010 Wiley-Liss, Inc.)

Published

2010