Cephalopod mollusks are endowed with an impressive range of features that have captured
the attention of scientists from different fields, the imaginations of artists, and the interests of …

Octopus and cephalopods are able to regenerate injured tissues. Recent advancements in
the study of regeneration in cephalopods appear promising encompassing different …

Spontaneous nerve regeneration in cephalopod molluscs occurs in a relative short time after
injury, achieving functional recovery of lost capacity. In particular, transection of the pallial …

Background Salamander limb regeneration is a complex biological process that entails the
orchestration of multiple cellular and molecular mechanisms in a three‐dimensional space …

The axolotl is a highly regenerative organism and has been studied in laboratories for over
150 years. Despite a long‐standing fascination with regeneration in general and axolotl …

We describe a compact, non‐contact design for a total emission detection (c‐TED) system
for intra‐vital multiphoton imaging. To conform to a standard upright two‐photon microscope …

Bio-imaging is a tedious task when it concerns exploring cell functions, developmental
mechanisms, and other vital processes in vivo. Single-cell resolution is challenging due to …

Intravital multiphoton microscopy is widely used to assess the structure and function of
organs in live animals. Although different tissues vary in their accessibility for intravital …

Regeneration, a process consisting in regrowth of damaged structures and their functional
recovery, is widespread in several phyla of the animal kingdom from lower invertebrates to …

Newts and other urodele amphibians can replace lost structures including limbs, providing a
vertebrate model for the study of regeneration of complex tissues. The composite of different …