Add to ORKGThe response to pain involves a non-conscious, reflexive action and a conscious perception. According to Key (2016), consciousness — and thus pain perception — depends on a neuronal correlate that has a “unique neural architecture” as realized in the human cortex. On the basis of the “bioengineering principle that structure determines function,” Key (2016) concludes that animal species such as fish, which lack the requisite cortex-like neuroanatomical structure, are unable to feel pain. This commentary argues that the relationship between brain structure and brain function is less straightforward than suggested in Key’s target article
The basis of pain could be the causal nexus between one’s phylogenetic/ontogenetic history and one’s...
Phenomenal consciousness or the subjective experience of feeling sensory stimuli is fundamental to h...
Debate about the possibility of fish pain focuses largely on the fish’s lack of the cortex considere...
Only humans can report feeling pain. In contrast, pain in animals is typically inferred on the basis...
Key (2016) claims that fish do not feel pain because they lack the neural structures that have a con...
In his target article, Key (2016) reviews the neuroanatomy of human pain and uses what is known abou...
Evidence from neuroanatomy, neurophysiology, and neuropsychology suggests that the experience of fee...
Key (2016) claims that fish do not feel pain because they lack the neural structures that have a con...
The structure of Key\u27s (2016) argument that fish do not feel pain is flawed, betraying a fundamen...
The target article by Key (2016) examines whether fish have brain structures capable of mediating pai...
Neural and behavioral evidence from diverse species indicates that some forms of pain may be generat...
Key (2016) describes the neural system involved in human pain experience in an excellent fashion but...
Do fish consciously feel pain? Addressing this question, Key (2016) asks whether the neural mechanis...
Some contemporary scientists are using comparative neurobiological data to argue that non-mammalian ...
In his target article, Key (2016) argues that since fish don’t have a frontal cortex (part of the br...
The basis of pain could be the causal nexus between one’s phylogenetic/ontogenetic history and one’s...
Phenomenal consciousness or the subjective experience of feeling sensory stimuli is fundamental to h...
Debate about the possibility of fish pain focuses largely on the fish’s lack of the cortex considere...
Only humans can report feeling pain. In contrast, pain in animals is typically inferred on the basis...
Key (2016) claims that fish do not feel pain because they lack the neural structures that have a con...
In his target article, Key (2016) reviews the neuroanatomy of human pain and uses what is known abou...
Evidence from neuroanatomy, neurophysiology, and neuropsychology suggests that the experience of fee...
Key (2016) claims that fish do not feel pain because they lack the neural structures that have a con...
The structure of Key\u27s (2016) argument that fish do not feel pain is flawed, betraying a fundamen...
The target article by Key (2016) examines whether fish have brain structures capable of mediating pai...
Neural and behavioral evidence from diverse species indicates that some forms of pain may be generat...
Key (2016) describes the neural system involved in human pain experience in an excellent fashion but...
Do fish consciously feel pain? Addressing this question, Key (2016) asks whether the neural mechanis...
Some contemporary scientists are using comparative neurobiological data to argue that non-mammalian ...
In his target article, Key (2016) argues that since fish don’t have a frontal cortex (part of the br...
The basis of pain could be the causal nexus between one’s phylogenetic/ontogenetic history and one’s...
Phenomenal consciousness or the subjective experience of feeling sensory stimuli is fundamental to h...
Debate about the possibility of fish pain focuses largely on the fish’s lack of the cortex considere...