Subject: Re: Teacher check From: Robert Zatorre <robert.zatorre(at)mcgill.ca> Date: Wed, 2 Mar 2005 11:50:44 -0500--=====================_5431959==_ Content-Type: multipart/alternative; boundary="=====================_5431959==_.ALT" --=====================_5431959==_.ALT Content-Type: text/plain; charset="us-ascii"; format=flowed At 13:50 02/03/05 +0100, Martin Braun wrote: >Music Perception was not the right source then. Rats hear fine at least down >to 250 Hz and at least down to 70 dB SPL at this frequency: >http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=pubmed&dopt=Abstract&list_uids=893752 > >http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=pubmed&dopt=Abstract&list_uids=8188553 In fact, the audiograms I referred to in the Music Perception paper were taken from the sources you cite. Attached is the figure from Heffner et al, hearing Research, 1994, which also plots the earlier one form Masterton plus two others. As you can see, rats can hear lower-frequency sounds, but only at high SPLs. Some strains don't hear much below 1kHz. We don't know what strain of rats was used for the Japanese study you cite, but if music was played to them at around 65 dB SPL, they would not have heard much below 500Hz. Compared to humans, their entire freq range is shifted. Their most sensitive region is between 8 and 32 kHz. So what were they hearing over those speakers in that freq range, I wonder? (we don't know cause we don't hear that high) The main point here is simply that the assumption that playing music to them results in a similar input to their ears as to ours has to be qualified by their very different peripheral hearing apparatus. >More importantly, even if their limit was 500 Hz, the rats would easily hear >all notes in the Mozart piece. For a long time people could not hear >frequencies below 300 Hz on the phone. But on the same phones they could >easily follow a male voice down to a pitch corresponding to 50 Hz. (Perhaps >the undergraduate that "flunked" your course can tell you the magic ;-)) I flunked him before we got to the section on missing fundamental. ;) But how does this work in the rat? what is the "existence region" for them? How are the unresolved partials that they would be hearing from all those low notes be processed? Is their cochlea identical to ours? Should we just assume that what we hear is what they hear? Perhaps this has all been worked out and someone on the list knows about it. But it needs to be established, not assumed, wouldn't you think? >>The second point, which I would expect an undergraduate to be able to >>point out (or else flunk my course), is that the cited study used no >>control group other than no treatment. So the specificity of the >>conclusions is, shall we say, a bit suspect. > >Nobody has claimed any specificity in this case. Well, I was responding to the phrase "...we have data showing similar signs of appreciation of Mozart's music in rats as in humans..." which sounds rather specific to me. So let's be explicit about the issues. We have no reason to dispute the actual results observed; But we do have reason to question the conclusion. What are the other factors that might have yielded the observed result? This is what I would expect all of us to be thinking about. Have we examined and rejected other, more parsimonious explanations of the phenomenon? For example, based on the description in that paper, the rats in the experimental group were taken to a special closed cage where they were exposed to the music. Perhaps the characteristics of that cage and/or room/environment were such that it was calmer (light, temperature, absence of other animals in the room, absence of other noises in the room etc) and led to the observed changes. Note that in that paper there were no differences between the times that the animal was exposed to music, and the time period after exposure ceased (a full two hours). This could be, of course, because they were so happy with Mozart that they stayed happy for that period of time (although you'd think that if they liked it so much they should have become stressed when it was turned off); or it could, of course, be that something else was making them calm and relaxed and the cessation of the music had no effect. I would vote for the latter until the former is proven. I am far from an expert on animal studies. I'm sure someone who knows about these manipulations would have far more to say about the experimental design. For instance, people often use cross-over designs (within-subject) to try to disentangle all these difficult variables. My general point is that there are good reasons why one needs to be careful about control groups and control conditions. Without them, you cannot rule out nonspecific effects. >The result was that the >rats strongly responded to the presented music. The result was not that they >responded differently to this music than to other music. We in fact do not know that they responded to *music* per se. Perhaps any sound would have resulted in similar effects. No other stimulus was tested, so we simply don't know. Perhaps stimulation of any type in any modality would have done it. It could be a generalized effect of being stimulated as opposed to not being stimulated. Maybe being manipulated by the physical act of being transferred from one cage to another is a factor. A well-controlled study would have examined all these possibilites and rejected them one by one. >Sorry for the discomfort of facts and reason. Discomfort? Facts and reason, together with music by the way, lower my blood pressure, I'm sure!! It's their absence that makes me stressed. Thanks for the good debate. Cheers Robert --=====================_5431959==_.ALT Content-Type: text/html; charset="us-ascii" <html> <font size=3>At 13:50 02/03/05 +0100, Martin Braun wrote:<br> <br> <blockquote type=cite cite>Music Perception was not the right source then. Rats hear fine at least down<br> to 250 Hz and at least down to 70 dB SPL at this frequency:<br> <a href="http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=pubmed&dopt=Abstract&list_uids=893752" eudora="autourl">http</a><a href="http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=pubmed&dopt=Abstract&list_uids=893752" eudora="autourl">://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=pubmed&dopt=Abstract&list_uids=893752</a><br> <br> <a href="http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=pubmed&dopt=Abstract&list_uids=8188553" eudora="autourl">http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=pubmed&dopt=Abstract&list_uids=8188553</a></blockquote><br> </font>In fact, the audiograms I referred to in the Music Perception paper were taken from the sources you cite. Attached is the figure from Heffner et al, hearing Research, 1994, which also plots the earlier one form Masterton plus two others. As you can see, rats can hear lower-frequency sounds, but only at high SPLs. Some strains don't hear much below 1kHz. We don't know what strain of rats was used for the Japanese study you cite, but if music was played to them at around 65 dB SPL, they would not have heard much below 500Hz. Compared to humans, their entire freq range is shifted. Their most sensitive region is between 8 and 32 kHz. So what were they hearing over those speakers in that freq range, I wonder? (we don't know cause we don't hear that high) The main point here is simply that the assumption that playing music to them results in a similar input to their ears as to ours has to be qualified by their very different peripheral hearing apparatus. <br> <br> <blockquote type=cite cite><font size=3>More importantly, even if their limit was 500 Hz, the rats would easily hear<br> all notes in the Mozart piece. For a long time people could not hear<br> frequencies below 300 Hz on the phone. But on the same phones they could<br> easily follow a male voice down to a pitch corresponding to 50 Hz. (Perhaps<br> the undergraduate that "flunked" your course can tell you the magic ;-))</blockquote><br> </font>I flunked him before we got to the section on missing fundamental. ;) <br> <br> But how does this work in the rat? what is the "existence region" for them? How are the unresolved partials that they would be hearing from all those low notes be processed? Is their cochlea identical to ours? Should we just assume that what we hear is what they hear? Perhaps this has all been worked out and someone on the list knows about it. But it needs to be established, not assumed, wouldn't you think?<br> <br> <blockquote type=cite cite><blockquote type=cite cite><font size=3>The second point, which I would expect an undergraduate to be able to<br> point out (or else flunk my course), is that the cited study used no<br> control group other than no treatment. So the specificity of the<br> conclusions is, shall we say, a bit suspect.</blockquote><br> Nobody has claimed any specificity in this case. </font></blockquote><br> Well, I was responding to the phrase "...<font size=3>we have data showing similar signs of appreciation of Mozart's music in rats as in humans..." which sounds rather specific to me.<br> <br> So let's be explicit about the issues. We have no reason to dispute the actual results observed; But we do have reason to question the conclusion. What are the other factors that might have yielded the observed result? This is what I would expect all of us to be thinking about. Have we examined and rejected other, more parsimonious explanations of the phenomenon? <br> <br> For example, based on the description in that paper, the rats in the experimental group were taken to a special closed cage where they were exposed to the music. Perhaps the characteristics of that cage and/or room/environment were such that it was calmer (light, temperature, absence of other animals in the room, absence of other noises in the room etc) and led to the observed changes. Note that in that paper there were no differences between the times that the animal was exposed to music, and the time period after exposure ceased (a full two hours). This could be, of course, because they were so happy with Mozart that they stayed happy for that period of time (although you'd think that if they liked it so much they should have become stressed when it was turned off); or it could, of course, be that something else was making them calm and relaxed and the cessation of the music had no effect. I would vote for the latter until the former is proven.<br> <br> I am far from an expert on animal studies. I'm sure someone who knows about these manipulations would have far more to say about the experimental design. For instance, people often use cross-over designs (within-subject) to try to disentangle all these difficult variables. My general point is that there are good reasons why one needs to be careful about control groups and control conditions. Without them, you cannot rule out nonspecific effects.<br> <br> <blockquote type=cite cite>The result was that the<br> rats strongly responded to the presented music. The result was not that they<br> responded differently to this music than to other music.</blockquote><br> </font>We in fact do not know that they responded to *music* per se. Perhaps any sound would have resulted in similar effects. No other stimulus was tested, so we simply don't know. Perhaps stimulation of any type in any modality would have done it. It could be a generalized effect of being stimulated as opposed to not being stimulated. Maybe being manipulated by the physical act of being transferred from one cage to another is a factor. A well-controlled study would have examined all these possibilites and rejected them one by one. <br> <br> <blockquote type=cite cite><font size=3>Sorry for the discomfort of facts and reason.</blockquote><br> Discomfort? Facts and reason, together with music by the way, lower my blood pressure, I'm sure!! It's their absence that makes me stressed.<br> <br> Thanks for the good debate.<br> <br> Cheers<br> <br> Robert</font></html> --=====================_5431959==_.ALT-- --=====================_5431959==_ Content-Type: image/jpeg; name="Heffner et al 1994 rat audiogram.jpg"; x-mac-type="4A504547"; x-mac-creator="4A565752" Content-Transfer-Encoding: base64 Content-Disposition: attachment; filename="Heffner et al 1994 rat audiogram.jpg" /9j/4AAQSkZJRgABAQAAAQABAAD/2wBDAAYEBQYFBAYGBQYHBwYIChAKCgkJChQODwwQFxQYGBcU FhYaHSUfGhsjHBYWICwgIyYnKSopGR8tMC0oMCUoKSj/2wBDAQcHBwoIChMKChMoGhYaKCgoKCgo KCgoKCgoKCgoKCgoKCgoKCgoKCgoKCgoKCgoKCgoKCgoKCgoKCgoKCgoKCj/wAARCAGAAd8DASIA AhEBAxEB/8QAHAABAAMBAQEBAQAAAAAAAAAAAAUGBwQDAgEI/8QAVRAAAQMDAwIFAgMDBgYPBQkA AQIDBAAFEQYSIRMxBxQiQVEyYRUjcQhCgRYzUmKRoRckcnaVsRglNThVV2OClKKys8HR0zdzkrTS Q1NWZHSDwvDx/8QAFAEBAAAAAAAAAAAAAAAAAAAAAP/EABQRAQAAAAAAAAAAAAAAAAAAAAD/2gAM AwEAAhEDEQA/AP6ppSlApSlApSlApSlApSlApSlApSlApSlApSlApSlApSlApSlApSlApSlApSlA 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--=====================_5431959==_ Content-Type: text/plain; charset="us-ascii"; format=flowed -+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ Robert J. Zatorre, Ph.D. Montreal Neurological Institute 3801 University St. Montreal, QC Canada H3A 2B4 phone: 1-514-398-8903 fax: 1-514-398-1338 web site: www.zlab.mcgill.ca --=====================_5431959==_--