National Institute on Drug Abuse, 6001 Executive Blvd, Room 5274, Bethesda, MD 20892, USA.
JAMA. 2011 Feb 23;305(8):808-13. doi: 10.1001/jama.2011.186.
The dramatic increase in use of cellular telephones has generated concern about possible negative effects of radiofrequency signals delivered to the brain. However, whether acute cell phone exposure affects the human brain is unclear.
To evaluate if acute cell phone exposure affects brain glucose metabolism, a marker of brain activity.
DESIGN, SETTING, AND PARTICIPANTS: Randomized crossover study conducted between January 1 and December 31, 2009, at a single US laboratory among 47 healthy participants recruited from the community. Cell phones were placed on the left and right ears and positron emission tomography with ((18)F)fluorodeoxyglucose injection was used to measure brain glucose metabolism twice, once with the right cell phone activated (sound muted) for 50 minutes ("on" condition) and once with both cell phones deactivated ("off" condition). Statistical parametric mapping was used to compare metabolism between on and off conditions using paired t tests, and Pearson linear correlations were used to verify the association of metabolism and estimated amplitude of radiofrequency-modulated electromagnetic waves emitted by the cell phone. Clusters with at least 1000 voxels (volume >8 cm(3)) and P < .05 (corrected for multiple comparisons) were considered significant.
Brain glucose metabolism computed as absolute metabolism (μmol/100 g per minute) and as normalized metabolism (region/whole brain).
Whole-brain metabolism did not differ between on and off conditions. In contrast, metabolism in the region closest to the antenna (orbitofrontal cortex and temporal pole) was significantly higher for on than off conditions (35.7 vs 33.3 μmol/100 g per minute; mean difference, 2.4 [95% confidence interval, 0.67-4.2]; P = .004). The increases were significantly correlated with the estimated electromagnetic field amplitudes both for absolute metabolism (R = 0.95, P < .001) and normalized metabolism (R = 0.89; P < .001).
In healthy participants and compared with no exposure, 50-minute cell phone exposure was associated with increased brain glucose metabolism in the region closest to the antenna. This finding is of unknown clinical significance.
随着移动电话的使用急剧增加,人们开始担心接触到大脑的射频信号可能产生负面效应。但是,急性手机辐射暴露是否会影响人脑还不清楚。
评估急性手机辐射暴露是否会影响大脑葡萄糖代谢,这是大脑活动的一个标志物。
设计、地点和参与者: 2009 年 1 月 1 日至 12 月 31 日在美国的一个实验室进行的一项随机交叉研究,在社区招募的 47 名健康参与者中进行。手机分别放在左右耳朵上,通过正电子发射断层扫描技术(PET)用 ((18)F) 氟代脱氧葡萄糖(FDG)注射来测量两次大脑葡萄糖代谢,一次在右手机激活(声音静音)50 分钟(“开”状态),一次在两个手机都关闭(“关”状态)。采用配对 t 检验,用统计参数映射法比较代谢在“开”和“关”状态下的差异,并采用皮尔逊线性相关来验证代谢与手机发射的调频电磁波的估计振幅之间的关系。采用至少 1000 个体素(体积 >8cm3)的聚类(校正多重比较后 P <.05)认为具有统计学意义。
用绝对代谢(每 100g 每分钟μmol)和标准化代谢(区域/全脑)计算大脑葡萄糖代谢。
全脑代谢在“开”和“关”状态下没有差异。相比之下,离天线最近的区域(眶额皮质和颞极)的代谢在“开”状态下明显高于“关”状态(35.7μmol/100g 每分钟比 33.3μmol/100g 每分钟;平均差值,2.4[95%置信区间,0.67-4.2];P =.004)。这种增加与估计的电磁场幅度呈显著相关,无论是绝对代谢(R = 0.95,P <.001)还是标准化代谢(R = 0.89;P <.001)。
在健康参与者中,与无接触相比,50 分钟的手机辐射暴露与离天线最近区域的大脑葡萄糖代谢增加有关。这一发现的临床意义尚不清楚。