Abnormalities in later cognitive stages of beat processing?

Mathieu in 2012 (Dutch Tv).

A few years ago I reported on the start of a series of experiments with Mathieu, a case of congenital beat deafness (Phillips-Silver et al., 2011; see here). The paper reporting on that work just came out:

"Beat deafness, a recently documented form of congenital amusia, provides a unique window into functional specialization of neural circuitry for the processing of musical stimuli: Beat-deaf individuals exhibit deficits that are specific to the detection of a regular beat in music and the ability to move along with a beat. Studies on the neural underpinnings of beat processing in the general population suggest that the auditory system is capable of pre-attentively generating a predictive model of upcoming sounds in a rhythmic pattern, subserved largely within auditory cortex and reflected in mismatch negativity (MMN) and P3 event-related potential (ERP) components. The current study examined these neural correlates of beat perception in two beat-deaf individuals, Mathieu and Marjorie, and a group of control participants under conditions in which auditory stimuli were either attended or ignored. Compared to control participants, Mathieu demonstrated reduced behavioral sensitivity to beat omissions in metrical patterns, and Marjorie showed a bias to identify irregular patterns as regular. ERP responses to beat omissions reveal an intact pre-attentive system for processing beat irregularities in cases of beat deafness, reflected in the MMN component, and provide partial support for abnormalities in later cognitive stages of beat processing, reflected in an unreliable P3b component exhibited by Mathieu – but not Marjorie – compared to control participants. P3 abnormalities observed in the current study resemble P3 abnormalities exhibited by individuals with pitch-based amusia, and are consistent with attention or auditory-motor coupling accounts of deficits in beat perception." (Mathias et al., 2016)

Phillips-Silver, J., Toiviainen, P., Gosselin, N., Piché, O., Nozaradan, S., Palmer, C., & Peretz, I. (2011). Born to dance but beat deaf: A new form of congenital amusia Neuropsychologia DOI: 10.1016/j.neuropsychologia.2011.02.002

Mathias, B., Lidji, P., Honing, H., Palmer, C., & Peretz, I. (2016). Electrical brain responses to beat irregularities in two cases of beat deafness. Frontiers in Neuroscience. DOI: 10.3389/fnins.2016.00040.

Kun je ritmegevoel trainen? (2/5) [Dutch]

Ben jij een hork op de dansvloer? Er is nog hoop! Een college waarin door middel van geluidstestjes getest wordt hoe ons gehoor werkt als het aankomt op ritme- en maatgevoel. Heeft dit te maken met culturele achtergrond? Of juist erfelijke aanleg?

Voor de andere lezingen zie hier.

Bronnen:

01:00 Phillips-Silver et al. (2011); Mathias et al. (in press)
01:30 Hannon & Trehub (2005)
09:00 Large & Jones (1999); Honing (2006)

Phillips-Silver, J., Toiviainen, P., Gosselin, N., Piché, O., Nozaradan, S., Palmer, C., & Peretz, I. (2011). Born to dance but beat deaf: A new form of congenital amusia Neuropsychologia, 49 (5), 961-969 DOI: 10.1016/j.neuropsychologia.2011.02.002

Mathias et al. (in press)

Hannon, E., & Trehub, S. (2005). Metrical Categories in Infancy and Adulthood Psychological Science, 16 (1), 48-55 DOI: 10.1111/j.0956-7976.2005.00779.x

Large, E., & Jones, M. (1999). The dynamics of attending: How people track time-varying events. Psychological Review, 106 (1), 119-159 DOI: 10.1037//0033-295X.106.1.119

Honing, H. (2006). Computational Modeling of Music Cognition: A Case Study on Model Selection Music Perception, 23 (5), 365-376 DOI: 10.1525/mp.2006.23.5.365

A case of congenital beat deafness? [revisited]

Mathieu, apparently lacking a sense of beat.

Isabelle Peretz, co-director of the International Laboratory for Brain, Music and Sound Research (BRAMS), told me about Mathieu during a workshop at the Université Libre de Bruxelles in November 2009. She was very excited, and was pretty sure she found a 'beat-deaf' person. I couldn’t but share her enthusiasm. In Phillips-Silver et al. (2011) Peretz and her team wrote:

'Mathieu was discovered through a recruitment of subjects who felt they could not keep the beat in music, such as in clapping in time at a concert or dancing in a club. Mathieu was the only clear-cut case among volunteers who reported these problems. Despite a lifelong love of music and dancing, and musical training including lessons over several years in various instruments, voice, dance and choreography, Mathieu complained that he was unable to find the beat in music. Participation in music and dance activities, while pleasurable, had been difficult for him.'

About one year later her group published a journal paper presenting some behavioral evidence that Mathieu was a case of congenital beat deafness.

The questions posted in a blog entry just after the publication of that study resulted in a collaboration in which, next to behavioral, also direct electrophysiological methods were used. Pascale Lidji (also associated with BRAMS) initiated an EEG/ERP experiment, modeled after our earlier Amsterdam experiments, to directly probe Mathieu’s apparent beat-deafness.

Last winter, just a few weeks after the experiments, we had a teleconference discussing the first experimental results (filmed by a Dutch TV crew following our work). The first results suggested that Mathieu’s brain did pick-up the beat, but his conscious perception did not, as several behavioral experiments confirmed. Intriguing, to say the least. And the results will hopefully be published later this year.

See below for some fragments from the teleconference:



For more the documentary De man zonder ritme, see the website of NPO3.

Phillips-Silver, J., Toiviainen, P., Gosselin, N., Piché, O., Nozaradan, S., Palmer, C., & Peretz, I. (2011). Born to dance but beat deaf: A new form of congenital amusia Neuropsychologia DOI: 10.1016/j.neuropsychologia.2011.02.002

Meer weten over maatdoofheid? [Dutch]

Mathieu: de man zonder ritme.

Olaf Oudheusden (de regisseur van ‘De man zonder ritme’) en een heel team van enthousiaste programmamakers, waaronder Wiesje Kuijpers en Eef Grob, stopten veel energie in de aflevering van Labyrint over muziek en onze hersenen die gisteravond werd uitgezonden op Nederland 2. Je ziet het er, mijns inziens, aan af: zie de volledige aflevering op www.labyrint.nl. Voor een verslag van de online napraatsessie zie www.labyrint.nl.



Veel materiaal sneuvelt natuurlijk in de montage. Daarom hieronder een stukje uit de teleconferentie van een maand of wat geleden, tussen het CSCA in Amsterdam en BRAMS in Montréal, dat een aanvullend inzicht geeft in het ontbreken van maatgevoel bij Mathieu:

A case of congenital beat deafness? [Part 2]

Isabelle Peretz, Co-director of the International Laboratory for Brain, Music and Sound Research (BRAMS), told me about Mathieu during a workshop at the Université Libre de Bruxelles in November 2009. She was very excited, and I couldn’t but share her enthusiasm: She was pretty sure she found a beat-deaf person.

'Mathieu was discovered through a recruitment of subjects who felt they could not keep the beat in music, such as in clapping in time at a concert or dancing in a club. Mathieu was the only clear-cut case among volunteers who reported these problems. Despite a lifelong love of music and dancing, and musical training including lessons over several years in various instruments, voice, dance and choreography, Mathieu complained that he was unable to find the beat in music. Participation in music and dance activities, while pleasurable, had been difficult for him.' (from Phillips-Silver et al., 2011)

About one year later her group published a journal paper presenting some behavioral evidence that Mathieu was a case of congenital beat deafness.

The questions posted in a blog entry just after the publication of that study resulted in a collaboration in which next to behavioral also direct electrophysiological methods were used. Pascale Lidji (also associated with BRAMS) did an EEG/ERP experiment, modeled after our earlier Amsterdam experiments, to directly probe Mathieu’s apparent beat-deafness.

Last week we had a teleconference discussing the first experimental results (filmed by a Dutch TV crew following our work). These suggest that Mathieu’s brain did pick-up the beat, but his conscious perception did not, as several behavioral experiments confirmed. Intriguing, to say the least.

See below for some fragments from the teleconference:


And the trailer announcing the tv program to be broadcasted next week:


For more information, see the Labyrint tv website.

N.B. There will be a live broadcasted napraatsessie that can be viewed at www.labyrint.nl.

Phillips-Silver, J., Toiviainen, P., Gosselin, N., Piché, O., Nozaradan, S., Palmer, C., & Peretz, I. (2011). Born to dance but beat deaf: A new form of congenital amusia Neuropsychologia DOI: 10.1016/j.neuropsychologia.2011.02.002

A case of congenital beat deafness?

Of most people that claim things like ‘Oh, but I’m not musical at all’, ‘I’m hopeless at keeping a tune’ or ‘I have no sense of rhythm’, only a small percentage turn out to be unmusical. The condition is known as amusia, and those who suffer from it are literally music-deficient. It is a rather exceptional, mostly inherited condition that comprises a range of handicaps in recognising or reproducing melodies and rhythms. It has been estimated that about 4 per cent of the people in Western Europe and North America have problems in this direction, to a greater or lesser degree. The most common handicap is tone-deafness or dysmelodia: the inability or difficulty in hearing the difference between two separate melodies.

To diagnose amusia, the Montreal Battery of Evaluation of Amusia (MBEA) has been developed. This test is available online – but wait a while before trying it out :-) People who say: ‘I can’t hold a note,’ ‘I sing out of tune,’ or ‘I have no sense of rhythm,’ are not necessarily suffering from amusia. Such people often confuse poor singing or dancing skills with the absence of a sense of hearing differences in melodies and rhythms. For instance, clapping a complex rhythm or dancing to the music requires quite some practice. Nevertheless, almost all of us can hear the differences between rhythms. It has been established that, even in people who are diagnosed as being tone-deaf, about half of them have a normal sense for rhythm (Peretz & Hyde, 2003).

Jessica Phillips-Silver (Université de Montréal, Canada) and a dream-team of music cognition experts found a person that claims to have truly no sense for rhythm, or, more precisely, is apparently deaf to hearing regularity in music. They describe their results in an upcoming issue of Neuropsychologia.

All tests presented in this intriguing study indeed hint at a person that has a true deficit in picking up the regularity in music (the ‘beat’ or regular pulse).

However, as with other studies on beat induction, it has proven to be very difficult to support the presence or absence of this skill on judging overt behavior such as dancing (see earlier entries on, e.g., Snowball). The study presents one (non-standard) perceptual test on beat perception, and I’m surprised the researchers did not use a relatively simple and far more direct test to see if beat induction is present or absent in this participant, such as the MMN paradigm used in work with newborns (e.g., Honing et al., 2009) or other recent studies making use of brain imaging methods. Would make a great follow-up paper.*

Phillips-Silver, J., Toiviainen, P., Gosselin, N., Piché, O., Nozaradan, S., Palmer, C., & Peretz, I. (2011). Born to dance but beat deaf: A new form of congenital amusia Neuropsychologia DOI: 10.1016/j.neuropsychologia.2011.02.002

Peretz, I. & Hyde, K. (2003). What is specific to music processing? Insights from congenital amusia Trends in Cognitive Sciences, 7 (8), 362-367 DOI: 10.1016/S1364-6613(03)00150-5

Honing, H., Ladinig, O., Háden, G., & Winkler, I. (2009). Is Beat Induction Innate or Learned? Annals of the New York Academy of Sciences, 1169 (1), 93-96 DOI: 10.1111/j.1749-6632.2009.04761.x

* In fact, we started working on it this summer (Lidji, Palmer, Honing & Peretz, in preparation)