This article presents the first series of MRI-based anatomically labeled sectioned images of the brain of the killer whale (Orcinus orca). Magnetic resonance images of the brain of an adult killer whale were acquired in the coronal and axial planes. The gross morphology of the killer whale brain is comparable in some respects to that of other odontocete brains, including the unusual spatial arrangement of midbrain structures. There are also intriguing differences. Cerebral hemispheres appear extremely convoluted and, in contrast to smaller cetacean species, the killer whale brain possesses an exceptional degree of cortical elaboration in the insular cortex, temporal operculum, and the cortical limbic lobe. The functional and evolutionary im...
Cetacean (dolphin, whale, and porpoise) brains are among the least studied mammalian brains because ...
Cetacean (dolphin, whale and porpoise) brains are among the least studied mammalian brains because o...
In this study we used magnetic resonance imaging (MRI) to investigate neuroanatomical structure in t...
This article presents the first series of MRI-based anatomically labeled sectioned images of the bra...
This article presents the first series of MRI-based anatomically labeled sectioned images of the bra...
Cetacean (dolphin, whale, and porpoise) brains are among the least-studied mammalian brains because ...
Cetacean (dolphin, whale and porpoise) brains are among the least studied mammalian brains because o...
Cetacean (dolphin, whale and porpoise) brains are among the least studied mammalian brains because o...
Magnetic resonance imaging offers a means of observing the internal structure of the brain where tra...
Magnetic resonance imaging offers a means of observing the internal structure of the brain where tra...
In this study, magnetic resonance (MR) images of the brain of an adult common dolphin (Delphinus del...
Magnetic resonance imaging offers a means of observing the internal structure of the brain where tra...
Magnetic resonance imaging offers a means of observing the internal structure of the brain where tra...
Magnetic resonance imaging offers a means of observing the internal structure of the brain where tra...
Cetacean (dolphin, whale, and porpoise) brains are among the least-studied mammalian brains because ...
Cetacean (dolphin, whale, and porpoise) brains are among the least studied mammalian brains because ...
Cetacean (dolphin, whale and porpoise) brains are among the least studied mammalian brains because o...
In this study we used magnetic resonance imaging (MRI) to investigate neuroanatomical structure in t...
This article presents the first series of MRI-based anatomically labeled sectioned images of the bra...
This article presents the first series of MRI-based anatomically labeled sectioned images of the bra...
Cetacean (dolphin, whale, and porpoise) brains are among the least-studied mammalian brains because ...
Cetacean (dolphin, whale and porpoise) brains are among the least studied mammalian brains because o...
Cetacean (dolphin, whale and porpoise) brains are among the least studied mammalian brains because o...
Magnetic resonance imaging offers a means of observing the internal structure of the brain where tra...
Magnetic resonance imaging offers a means of observing the internal structure of the brain where tra...
In this study, magnetic resonance (MR) images of the brain of an adult common dolphin (Delphinus del...
Magnetic resonance imaging offers a means of observing the internal structure of the brain where tra...
Magnetic resonance imaging offers a means of observing the internal structure of the brain where tra...
Magnetic resonance imaging offers a means of observing the internal structure of the brain where tra...
Cetacean (dolphin, whale, and porpoise) brains are among the least-studied mammalian brains because ...
Cetacean (dolphin, whale, and porpoise) brains are among the least studied mammalian brains because ...
Cetacean (dolphin, whale and porpoise) brains are among the least studied mammalian brains because o...
In this study we used magnetic resonance imaging (MRI) to investigate neuroanatomical structure in t...