Book contents
- Frontmatter
- Contents
- Contributors
- Acknowledgments
- An introduction to the imitative mind and brain
- Part I Developmental and evolutionary approaches to imitation
- Part II Cognitive approaches to imitation, body scheme, and perception-action coding
- Part III Neuroscience underpinnings of imitation and apraxia
- 14 From mirror neurons to imitation: Facts and speculations
- 15 Cell populations in the banks of the superior temporal sulcus of the macaque and imitation
- 16 Is there such a thing as functional equivalence between imagined, observed, and executed action?
- 17 The role of imitation in body ownership and mental growth
- 18 Imitation, apraxia, and hemisphere dominance
- Index
14 - From mirror neurons to imitation: Facts and speculations
Published online by Cambridge University Press: 22 September 2009
- Frontmatter
- Contents
- Contributors
- Acknowledgments
- An introduction to the imitative mind and brain
- Part I Developmental and evolutionary approaches to imitation
- Part II Cognitive approaches to imitation, body scheme, and perception-action coding
- Part III Neuroscience underpinnings of imitation and apraxia
- 14 From mirror neurons to imitation: Facts and speculations
- 15 Cell populations in the banks of the superior temporal sulcus of the macaque and imitation
- 16 Is there such a thing as functional equivalence between imagined, observed, and executed action?
- 17 The role of imitation in body ownership and mental growth
- 18 Imitation, apraxia, and hemisphere dominance
- Index
Summary
Introduction
This chapter is composed of two parts. In the first we review the functional properties of an intriguing class of premotor neurons that we discovered in the monkey premotor cortex: the “mirror neurons.” These neurons discharge both when the monkey performs an action and when it observes another individual making a similar action. The second part is basically speculative. It is based on the hypothesis that there is a very general, evolutionary ancient mechanism, that we will name “resonance” mechanism, through which pictorial descriptions of motor behaviors are matched directly on the observer's motor “representations” of the same behaviors. We will posit that resonance mechanism is a fundamental mechanism at the basis of inter-individual relations including some behaviors commonly described under the heading of “imitation.”
Functional properties of area F5
Motor properties
Area F5 forms the rostral part of inferior area 6 (Matelli et al., 1985). Microstimulation and single-neuron studies showed that F5 contains a hand and a mouth movement representation (Gentilucci et al., 1988; Hepp-Reymond, Husler, Maier, & Qi, 1994; Okano & Tanji, 1987; Rizzolatti et al., 1981; Rizzolatti et al., 1988). Particularly interesting results were obtained when F5 neurons were studied in a semi-naturalistic context (Rizzolatti et al., 1988). Awake monkeys were seated on a primate chair and presented with various objects (geometrical solids, pieces of food of different size and shape). The stimuli were introduced in various spatial locations around the monkey, inside and outside its peripersonal space.
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- Information
- The Imitative MindDevelopment, Evolution and Brain Bases, pp. 247 - 266Publisher: Cambridge University PressPrint publication year: 2002
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