Femtosecond lasers are capable of precise ablation inside transparent media, including glass and ... more Femtosecond lasers are capable of precise ablation inside transparent media, including glass and in vivo samples. The transverse and axial resolution of damage inside the bulk are important parameters of ablation. The transverse resolution is straightforward to measure, but the axial resolution is much more difficult to measure and rarely performed. Using a 1040-nm, 400-fs pulsed laser, we performed ablation inside glass with a transverse and axial resolution of 0.75 µm. By fitting damage spot measurements to theoretical predictions, we find an ablation threshold of 6.4 x 1012 W/cm2. We also ablated neuron cell bodies and fibers in C. elegans and demonstrate submicrometer resolution in both the transverse and axial directions, consistent with our results in glass. Using simple yet rigorous methods, we define the resolution of laser ablation in transparent media along all directions.
Proceedings of the National Academy of Sciences of the United States of America, Jan 12, 2016
During development, a neuron transitions from a state of rapid growth to a stable morphology, and... more During development, a neuron transitions from a state of rapid growth to a stable morphology, and neurons within the adult mammalian CNS lose their ability to effectively regenerate in response to injury. Here, we identify a novel form of neuronal regeneration, which is remarkably independent of DLK-1/DLK, KGB-1/JNK, and other MAPK signaling factors known to mediate regeneration inCaenorhabditis elegans,Drosophila, and mammals. This DLK-independent regeneration inC. eleganshas direct genetic and molecular links to a well-studied form of endogenous activity-dependent ectopic axon outgrowth in the same neuron type. Both neuron outgrowth types are triggered by physical lesion of the sensory dendrite or mutations disrupting sensory activity, calcium signaling, or genes that restrict outgrowth during neuronal maturation, such as SAX-1/NDR kinase or UNC-43/CaMKII. These connections suggest that ectopic outgrowth represents a powerful platform for gene discovery in neuronal regeneration. M...
Femtosecond lasers are capable of precise ablation inside transparent media, including glass and ... more Femtosecond lasers are capable of precise ablation inside transparent media, including glass and in vivo samples. The transverse and axial resolution of damage inside the bulk are important parameters of ablation. The transverse resolution is straightforward to measure, but the axial resolution is much more difficult to measure and rarely performed. Using a 1040-nm, 400-fs pulsed laser, we performed ablation inside glass with a transverse and axial resolution of 0.75 µm. By fitting damage spot measurements to theoretical predictions, we find an ablation threshold of 6.4 x 1012 W/cm2. We also ablated neuron cell bodies and fibers in C. elegans and demonstrate submicrometer resolution in both the transverse and axial directions, consistent with our results in glass. Using simple yet rigorous methods, we define the resolution of laser ablation in transparent media along all directions.
Proceedings of the National Academy of Sciences of the United States of America, Jan 12, 2016
During development, a neuron transitions from a state of rapid growth to a stable morphology, and... more During development, a neuron transitions from a state of rapid growth to a stable morphology, and neurons within the adult mammalian CNS lose their ability to effectively regenerate in response to injury. Here, we identify a novel form of neuronal regeneration, which is remarkably independent of DLK-1/DLK, KGB-1/JNK, and other MAPK signaling factors known to mediate regeneration inCaenorhabditis elegans,Drosophila, and mammals. This DLK-independent regeneration inC. eleganshas direct genetic and molecular links to a well-studied form of endogenous activity-dependent ectopic axon outgrowth in the same neuron type. Both neuron outgrowth types are triggered by physical lesion of the sensory dendrite or mutations disrupting sensory activity, calcium signaling, or genes that restrict outgrowth during neuronal maturation, such as SAX-1/NDR kinase or UNC-43/CaMKII. These connections suggest that ectopic outgrowth represents a powerful platform for gene discovery in neuronal regeneration. M...
Uploads
Papers by Samuel Chung