[PDF] Top 20 Bone marrow drives central nervous system regeneration after radiation injury

... between bone marrow and brain in the setting of radiation ...that bone marrow–derived monocytes and macrophages are essential for structural and functional repair mechanisms, including ... See full document

... CNS: Central Nervous system; PNS: Peripheral Nervous system; PPNIs: Preoperative peripheral Nervous system; WD: Wallerian degeneration; BMSCs: Bone ... See full document

... in bone marrow stromal cells ...the nervous system and first appears at a developmental time point that corresponds to the initiation of neuronal terminal differentiation ...neural ... See full document

... from bone marrow, adipose tissue, skin, dental pulp, umbilical cord or from nerve trunks can differentiate into the Schwann cells and nerve cells with ...in regeneration of the missing ...between ... See full document

... the central nervous system, such as Parkinson’s disease [18], traumatic brain injury [19], spinal cord injury [20, 21], multiple sclerosis [22], and cerebral ischemia ... See full document

... Fig. 2 Characterization of additional abnormalities identified. a, b MLPA profile of matched sample of case described using the P335 ALL SALSA MLPA kit at diagnosis and relapse sample, respectively. c 3 ’ RACE-PCR PAX5 ... See full document

... replace damaged or lost neurons (that is, neuronal re- placement). Furthermore, both neuroprotective and neuronal replacement strategies can be envisioned in chronic neurodegenerative (for example, age-related macular ... See full document

... in bone repair; with other kinase inhibi- tors having being examined in this area of research pre- ...from bone marrow of p27 −/− mice prolifer- ated at increased rates compared to wild type mice ... See full document

... Necrotizing leukoen cephalopathy and mineralizing microangiography are rare conditions that occur in patients with lymphoma and acute lymphatic leukemia treated by cranial radiation comb[r] ... See full document

... immune system, either because of molecular mimicry or sensitization against the self-antigens following a viral infection, myelin basic protein-reactive lymphocytes can interact with the ven- ous endothelium ... See full document

... No gross atrophy; no histolog ic c hang es co nsistent with diffuse tissue loss or damage Pallor and vacuo lati on of cerebral while matter in two cases from group 3; nn large histologic[r] ... See full document

... crush/saline control group (n = 10), crush/0.4 mL citicoline treatment group (n = 10), or crush/0.8 mL citicoline treatment group (n = 10). The injured nerves of the groups were then wrapped with a gelatin sponge soaked ... See full document

... Health. After two weeks of acclimatization of animal with new environment, experimental protocols were initiated and the rats were randomly (simple randomization) allocated in three groups (5 rats in each group): ... See full document

... at 0.4 throughout the experiment, and the respiratory rate was adjusted for normocapnia. We measured values of MAP, arterial blood gases, and respiratory system parameters 15 minutes after initiating MV ... See full document

... axonal regeneration including Nogo-A, myelin-associated glycoprotein (MAG) and myelin-oligodendrocyte glycoprotein (MOG) ...day after injury [8] where they are frequently present in the injury ... See full document

... to injury, which culminated in axonal regeneration and the formation of the glial ...following injury neurons can attempt to regenerate in two ...frank regeneration of the directly injured ... See full document

... One molecule, the NP17 antigen, appears in the connectives at the site of lesion at increased levels after approximately 3 days and the immunoreactivity remains elevated for several weeks. In the intact animal, ... See full document

... in vivo may often begin within 4 days of axotoray. Thus the onset of nerve fibre growth in culture is probably similar to that of fibres regenerating in vivo. This rapid onset of regeneration would explain how a ... See full document

... tissue regeneration or inhibit inflammatory processes, increasing their permanence in the site of injection and allowing different timing of release (Ikada, ... See full document

... [10]. After the transplantation, 18 F- fluorodeoxyglucose positron emission tomography (FDG-PET) and 123 I – Iomazenil singlephoton emission computed tomography (IMZSPECT) were performed to analyze cellular ... See full document