Polyethylene glycol (PEG) is a fusion agent that is integral to the present and future work of our lab. However, not much is understood about how PEG interacts with membrane in damaged axons. Previous research finds that PEG seals cut axons instantly upon application. To better understand the membrane dynamics that result in this phenomenon, we have developed protocols to examine the effects of PEG on crayfish giant axons after injury.Integrative Biolog
Polyethylene glycol (PEG; 30% by volume, 2000 MW) can restore the integrity of neuronal membranes af...
AbstractöEarly physiological and pharmacological studies of cray¢sh and squid giant nerve ¢bers sugg...
To understand traumas to the nervous system, the relation between mechanical load and functional imp...
Polyethylene glycol (PEG) is a fusion agent that is integral to the present and future work of our l...
Acute damage to axons is manifested as a breach in their membranes, ion exchange across the compromi...
The management of traumatic peripheral nerve injury remains a considerable concern for clinicians. W...
textTraumatic neuronal injury inevitably causes plasmalemmal damage, and sometimes leads to axonal s...
AbstractAfter axonal severance, a barrier forms at the cut ends to rapidly restrict bulk inflow and ...
BACKGROUND: Nervous system injuries in mammals often involve transection or segmental loss of periph...
The inability to rapidly restore the loss of function that results from severance (cutting or crushi...
Polyethylene glycol (PEG) has been widely used as a solvent among other applications. An ideal solve...
The repair (sealing) of plasmalemmal damage, consisting of small holes to complete transections, is ...
Transected axons are often assumed to seal at their cut ends by the formation of continuous membran...
Spinal cord injury leads to persistent behavioral deficits because mammalian central nervous system ...
Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)Coordenação de Aperfeiçoamento de Pesso...
Polyethylene glycol (PEG; 30% by volume, 2000 MW) can restore the integrity of neuronal membranes af...
AbstractöEarly physiological and pharmacological studies of cray¢sh and squid giant nerve ¢bers sugg...
To understand traumas to the nervous system, the relation between mechanical load and functional imp...
Polyethylene glycol (PEG) is a fusion agent that is integral to the present and future work of our l...
Acute damage to axons is manifested as a breach in their membranes, ion exchange across the compromi...
The management of traumatic peripheral nerve injury remains a considerable concern for clinicians. W...
textTraumatic neuronal injury inevitably causes plasmalemmal damage, and sometimes leads to axonal s...
AbstractAfter axonal severance, a barrier forms at the cut ends to rapidly restrict bulk inflow and ...
BACKGROUND: Nervous system injuries in mammals often involve transection or segmental loss of periph...
The inability to rapidly restore the loss of function that results from severance (cutting or crushi...
Polyethylene glycol (PEG) has been widely used as a solvent among other applications. An ideal solve...
The repair (sealing) of plasmalemmal damage, consisting of small holes to complete transections, is ...
Transected axons are often assumed to seal at their cut ends by the formation of continuous membran...
Spinal cord injury leads to persistent behavioral deficits because mammalian central nervous system ...
Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)Coordenação de Aperfeiçoamento de Pesso...
Polyethylene glycol (PEG; 30% by volume, 2000 MW) can restore the integrity of neuronal membranes af...
AbstractöEarly physiological and pharmacological studies of cray¢sh and squid giant nerve ¢bers sugg...
To understand traumas to the nervous system, the relation between mechanical load and functional imp...
DOI