{"id":24824,"date":"2013-01-28T19:20:15","date_gmt":"2013-01-29T00:20:15","guid":{"rendered":"https:\/\/www.windturbinesyndrome.com\/static\/static\/?p=24824"},"modified":"2013-01-28T19:40:46","modified_gmt":"2013-01-29T00:40:46","slug":"pierpont-comments-on-effects-of-industrial-wind-turbine-noise-on-sleep-health-journal-of-noise-health","status":"publish","type":"post","link":"https:\/\/www.windturbinesyndrome.com\/static\/2013\/pierpont-comments-on-effects-of-industrial-wind-turbine-noise-on-sleep-health-journal-of-noise-health\/","title":{"rendered":"Pierpont comments on “Effects of Industrial Wind Turbine Noise on Sleep & Health” (Jour. of Noise Health)"},"content":{"rendered":"
<\/p>\n
Editor’s note<\/em>: \u00a0This past autumn, 2 physicians and a statistician published a significant article in the journal Noise & Health on the\u00a0\u201cEffects of industrial wind turbine noise on sleep and health<\/a>.” \u00a0This website didn’t feature the article, worthy as it is, until we could twist Dr. Pierpont’s arm to review it—peer review it, if you like. \u00a0She has now done so, below.<\/p>\n <\/p>\n .<\/span> Comment on<\/strong>: \u00a0Nissenbaum MA, Aramini JJ, Hanning CD.\u00a0 2012.\u00a0 Effects of industrial wind turbine noise on sleep and health<\/a>.\u00a0 Noise Health 14:237-43.<\/p>\n .<\/span> This is a good paper.\u00a0 Its strengths are:<\/p>\n \u00bb<\/span>\u00a0Study and control populations (near and more distant from turbines, respectively) were selected by a random sampling method and assessed identically using the same questionnaires.<\/p>\n \u00bb<\/span>\u00a0The questionnaires are published and have been used and statistically refined in other populations for other kinds of problems.<\/p>\n \u00bb<\/span>\u00a0The data was analyzed in a complex multivariate fashion by a statistician.<\/p>\n \u00bb<\/span>\u00a0Significant relationships were found even though the sample size was small.<\/p>\n It appears to me that the investigators limited the scope of their inquiry to maintain the above conditions with the goal of keeping the study focused, easily explained, and publishable (a strength).\u00a0 In the process, however, they disregarded salient aspects of the wind turbine noise problem which are harder to explain and more controversial (a weakness of this study from my point of view).<\/p>\n Specific comments are as follows:<\/p>\n \u00bb<\/span>\u00a0The focus on sleep quality and use of general questionnaires about well-being exclude the unique and striking health effects from wind turbines, which are at present borne out by the recent Shirley, Wisconsin (2012) noise study.\u00a0 These effects include nausea, headache, and cloudy thinking independent of sleep disturbance (see Pierpont 2009, Ambrose and Rand 2011, Rand et al 2011, Shirley Wind report 2012).<\/p>\n \u00bb<\/span>\u00a0The sampling process for households and individuals within households is not made clear.\u00a0 Data are presented for numbers of adults sampled, but not for numbers of households sampled.\u00a0 The process for sampling households near turbines is clear (all were approached), but not the process of sampling the adults within the households (were all asked to participate?\u00a0 who and how many declined?).\u00a0 The process of choosing more distant households is also not specified, nor the process of sampling adults within these households.\u00a0 (To get a random sample, you can use all, a random selection [e.g., drawing straws], or a regular selection [e.g., every third entry in a tax list of properties].\u00a0 Refusal to participate biases the results, as do processes that involve volunteering to participate.\u00a0 Thus all studies have some degree of sampling bias.)<\/p>\n \u00bb<\/span>\u00a0Physical well-being was assessed but results were not presented.\u00a0 Negative or non-significant results can also tell us something about a phenomenon and should perhaps be included.<\/p>\n \u00bb<\/span>\u00a0The statistical modeling process used for drawing the regression (relationship) curves on the graphs is not clear.\u00a0 In what way, for example, were age, gender, and site incorporated into the regression (as noted in the descriptive legends of Figures 1-3)?\u00a0 How much of the variation in survey scores did these variables account for?<\/p>\n \u00bb<\/span>\u00a0However, there are simpler results presented numerically in Table 3, showing near vs. far comparisons for the various measures used, with their degree of significance. \u00a0 We find there, for example, that the average Pittsburgh Sleep Quality Index is significantly higher (meaning worse sleep) close to turbines, with a significance level of 0.046 for near vs. far.\u00a0 The percentage of high results is not significantly different.\u00a0 The result for the Epworth Sleepiness Scale is similar, with the near vs. far difference in average value being significant at 0.032.\u00a0 The near vs. far difference in the average Mental Health well-being score is significant at 0.002, meaning it is 15 to 20 times more likely to be a real, non-random difference than the sleep measures.\u00a0 Significance levels for the calculated regression equations (relating scores to distance as a continuous variable and incorporating some other variables) are similar, as shown in the descriptive legends for Figures 1-3.<\/p>\n \u00bb<\/span>\u00a0You can see this difference if you compare Figure 3 to Figures 1 and 2, looking at the patterns of scatter of the data points close to turbines compared to far away.\u00a0 The fact that you can see a clear difference between near and far in the mental health results, but not for sleep results, is reflected in the degree of significance of the results.\u00a0 The difference is due to the dense cluster of low points (poor mental health) for locations close to turbines, compared to only scattered, isolated low points for the locations far from turbines.<\/p>\n \u00bb<\/span>\u00a0I am pleased that, unlike an earlier, draft version of their report, the authors no longer attribute the mental health effects to the sleep deprivation, but just note that both are significant health effects that vary with distance from wind turbines.\u00a0 They recognize that other symptoms they did not study may contribute to the mental health effects, drawing a parallel with low-frequency-noise-induced Sick Building Syndrome (page 242).<\/p>\n \u00bb<\/span>\u00a0The discussion of mechanism is measured and seeks to comfortably embed wind turbine effects with other types of noise disturbance.\u00a0 In fact, there are qualitative differences due to the dominance of inaudible, low-frequency or infrasonic components over the audible components in wind turbine noise (see Shirley Wind report 2012).<\/p>\n \u00bb<\/span>\u00a0These authors, like others who study wind turbine noise effects, asked their subjects before-and-after questions about their subjective experiences and preferences.\u00a0 These authors present these data in Table 3, showing significant near vs. far differences in responses to questions about changes when the turbines began operation, differences sleeping at home vs. away from home and turbines, and desire to move away. \u00a0 These kinds of subjective explorations are typical in studies of wind turbine noise, the results often discussed informally in an introduction or discussion.\u00a0 Face-to-face with affected people, researchers tend to step down from their posture as people who only measure objectively, ask natural before-and-after questions, find their own reasons for believing people, and present the information so gained as critical for their understanding of wind turbine noise effects (e.g., Ambrose and Rand 2011, Rand et al 2011, Shirley Wind report 2012).\u00a0 Only my study (Pierpont 2009) documented before-and-after effects systematically in a natural experiment case-crossover format, basing the entire analysis on the premise that believing what the subjects have to say about their experiences of wind turbine noise is both reliable and the most efficient means to develop understanding of these significant new noise-related phenomena.\u00a0 Though the scientific posture doesn\u2019t recognize this kind of approach, every researcher does it anyway, because it is real and valid.\u00a0 Even Eja Pedersen did this, though she confined the results of her in-depth interviews (in which she discovered people driven from their homes) to her thesis (2007), never publishing them in a journal.<\/p>\n \u00bb<\/span>\u00a0New research proposals in this field are wisely suggesting case-crossover formats.\u00a0 The 2012 Shirley Wind\u00a0 report, for example, recommends a short-term, prospective, experimental case-crossover exposure format using previously affected people, asking them to quantify their immediate sensory responses to wind turbines being on or off without other knowledge of the state of the turbines.\u00a0 This approach could clarify experimentally the sensory, low-frequency-noise-associated phenomena that disturb physical sensation and mental processes apart from sleep, contribute to sleep disturbance, and differ among exposed people.<\/p>\n <\/p>\n References<\/strong><\/p>\n A Cooperative Measurement Survey and Analysis of Low Frequency and Infrasound at the Shirley Wind Farm in Brown County, Wisconsin.\u00a0 Submitted in expurgated form to the Wisconsin Public Service Commission on December 27, 2012 and in complete form on December 28, 2012; both forms are available with commentary here<\/a>.<\/p>\n Ambrose SE, Rand RW.\u00a0 2011.\u00a0 The Bruce McPherson Infrasound and Low Frequency Noise Study:\u00a0 Adverse Health Effects Produced by Large Industrial Wind Turbines Confirmed.\u00a0 Available here<\/a>.<\/p>\n Rand RW, Ambrose SE, Krogh CM.\u00a0 2011.\u00a0 Occupational Health and Industrial Wind Turbines:\u00a0 A Case Study.\u00a0 Bulletin of Science Technology & Society 31: 359-362.<\/p>\n Pedersen E.\u00a0 2007.\u00a0 Human response to wind turbine noise:\u00a0 perception, annoyance and moderating factors.\u00a0 PhD dissertation, Occupational and Environmental Medicine, Department of Public Health and Community Medicine, G\u00f6teborg University, G\u00f6teborg, Sweden.\u00a0 86 pp.<\/p>\n Pierpont N.\u00a0 2009.\u00a0 Wind Turbine Syndrome: A Report on a Natural Experiment.\u00a0 Santa Fe, NM, K-Selected Books.\u00a0 294 pp.<\/p>\n<\/div>","protected":false},"excerpt":{"rendered":" Editor’s note: \u00a0This past autumn, 2 physicians and a statistician published a significant article in the journal Noise & Health on the\u00a0\u201cEffects of industrial wind turbine noise on sleep and health.” \u00a0This website didn’t feature the article, worthy as it is, until we could twist Dr. Pierpont’s arm to review it—peer review it, if you like. \u00a0She has now done so, below. . —Nina Pierpont, MD, PhD (1\/28\/13) Comment on: \u00a0Nissenbaum MA, Aramini JJ, Hanning CD.\u00a0 2012.\u00a0 Effects of industrial wind turbine noise on sleep and health.\u00a0 Noise Health 14:237-43. . This paper demonstrates a significant relationship between distance from wind turbines (as a marker for noise intensity) and questionnaire assessments of sleep disturbance, daytime sleepiness, and mental well-being.\u00a0 Physical well-being was also assessed by questionnaire but had no significant relationship to distance from turbines. This is a good paper.\u00a0 Its strengths are: \u00bb\u00a0Study and control populations (near and more distant from turbines, respectively) were selected by a random sampling method and assessed identically using the same questionnaires. \u00bb\u00a0The questionnaires are published and have been used and statistically refined in other populations for other kinds of problems. \u00bb\u00a0The data was analyzed in a complex multivariate fashion by a statistician. \u00bb\u00a0Significant relationships were found even though the sample size was small. It appears to me that the investigators limited the scope of their inquiry to maintain the above conditions with the goal of keeping the study focused, easily explained, and publishable (a strength).\u00a0 In the process, however, they disregarded salient aspects of the wind turbine noise problem which are harder to explain and more controversial (a weakness of this study from my point of view). Specific comments are as follows: \u00bb\u00a0The focus on sleep quality and use of general questionnaires about well-being exclude the unique and striking health effects from windRead More…<\/a><\/p>\n","protected":false},"author":3,"featured_media":0,"comment_status":"open","ping_status":"open","sticky":false,"template":"","format":"standard","meta":[],"categories":[157,163,16,161,162],"tags":[],"_links":{"self":[{"href":"https:\/\/www.windturbinesyndrome.com\/static\/wp-json\/wp\/v2\/posts\/24824"}],"collection":[{"href":"https:\/\/www.windturbinesyndrome.com\/static\/wp-json\/wp\/v2\/posts"}],"about":[{"href":"https:\/\/www.windturbinesyndrome.com\/static\/wp-json\/wp\/v2\/types\/post"}],"author":[{"embeddable":true,"href":"https:\/\/www.windturbinesyndrome.com\/static\/wp-json\/wp\/v2\/users\/3"}],"replies":[{"embeddable":true,"href":"https:\/\/www.windturbinesyndrome.com\/static\/wp-json\/wp\/v2\/comments?post=24824"}],"version-history":[{"count":0,"href":"https:\/\/www.windturbinesyndrome.com\/static\/wp-json\/wp\/v2\/posts\/24824\/revisions"}],"wp:attachment":[{"href":"https:\/\/www.windturbinesyndrome.com\/static\/wp-json\/wp\/v2\/media?parent=24824"}],"wp:term":[{"taxonomy":"category","embeddable":true,"href":"https:\/\/www.windturbinesyndrome.com\/static\/wp-json\/wp\/v2\/categories?post=24824"},{"taxonomy":"post_tag","embeddable":true,"href":"https:\/\/www.windturbinesyndrome.com\/static\/wp-json\/wp\/v2\/tags?post=24824"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}
\n—Nina Pierpont, MD, PhD (1\/28\/13)<\/strong><\/p>\n
\nThis paper demonstrates a significant relationship between distance from wind turbines (as a marker for noise intensity) and questionnaire assessments of sleep disturbance, daytime sleepiness, and mental well-being.\u00a0 Physical well-being was also assessed by questionnaire but had no significant relationship to distance from turbines.<\/p>\n