Octopus arms are extremely dexterous structures. The special arrangements of the muscular fibers and nerve cord allow a rich variety of complex and fine movements under neural control. The arm structure has been historically investigated using traditional comparative morphological ex-vivo analysis. Here we employed ultrasound imaging, for the first time, to explore in vivo the arms of the cephalopod mollusc Octopus vulgaris. Sonographic examination (linear transducer, 18 MHz) was carried out in anesthetized animals along the three anatomical planes: transversal, sagittal and horizontal. Images of the arm were comparable to the corresponding histological sections. We were able, in a non-invasive way, to measure dimensions of the arm and its internal structures such as muscle bundles and neural components. In addition, we evaluated echo intensity signals as an expression of the difference in the muscular organization of the tissues considered (i.e. transverse versus longitudinal muscles), 38 finding different reflectivity based on different arrangement of fibers and their intimate relationship with other tissues. In contrast to classical preparative procedures, ultrasound imaging can provide rapid, destruction-free access to morphological data from numerous specimens, thus extending the range of techniques available for comparative studies of invertebrate morphology.
Noninvasive study of the Octopus vulgaris arm morphology using ultrasound
MARGHERI, Laura;PONTE, Giovanna;MAZZOLAI, Barbara;LASCHI, Cecilia;
2011-01-01
Abstract
Octopus arms are extremely dexterous structures. The special arrangements of the muscular fibers and nerve cord allow a rich variety of complex and fine movements under neural control. The arm structure has been historically investigated using traditional comparative morphological ex-vivo analysis. Here we employed ultrasound imaging, for the first time, to explore in vivo the arms of the cephalopod mollusc Octopus vulgaris. Sonographic examination (linear transducer, 18 MHz) was carried out in anesthetized animals along the three anatomical planes: transversal, sagittal and horizontal. Images of the arm were comparable to the corresponding histological sections. We were able, in a non-invasive way, to measure dimensions of the arm and its internal structures such as muscle bundles and neural components. In addition, we evaluated echo intensity signals as an expression of the difference in the muscular organization of the tissues considered (i.e. transverse versus longitudinal muscles), 38 finding different reflectivity based on different arrangement of fibers and their intimate relationship with other tissues. In contrast to classical preparative procedures, ultrasound imaging can provide rapid, destruction-free access to morphological data from numerous specimens, thus extending the range of techniques available for comparative studies of invertebrate morphology.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.