Magnetic resonance imaging studies of age-dependent responses to scaled focal brain injury in the piglet.
暂无分享,去创建一个
[1] J. Dobbing,et al. Prenatal and postnatal growth and development of the central nervous system of the pig , 1967, Proceedings of the Royal Society of London. Series B. Biological Sciences.
[2] Age-weight relationships of selected organs and body weight for miniature swine. , 1971 .
[3] L. Bilaniuk,et al. Diffuse cerebral swelling following head injuries in children: the syndrome of "malignant brain edema". , 1981, Journal of neurosurgery.
[4] P. Flecknell,et al. Accurate measurement of cerebral metabolism in the conscious, unrestrained neonatal piglet. II. Glucose and oxygen utilization. , 1982, Biology of the neonate.
[5] S. Endo,et al. Differences in critical cerebral blood flow with age in swine. , 1991, Journal of neurosurgery.
[6] M A Foulkes,et al. Diffuse brain swelling in severely head-injured children. A report from the NIH Traumatic Coma Data Bank. , 1992, Journal of neurosurgery.
[7] R. Traystman,et al. Nitric oxide synthase inhibition with NG-mono‐methyl-L‐arginine reversibly decreases cerebral blood flow in piglets , 1994, Critical care medicine.
[8] G. Teasdale,et al. Diffuse brain swelling after head injury: more often malignant in adults than children? , 1994, Journal of neurosurgery.
[9] J. Löfgren,et al. Mechanical conditions of rebound of the intracranial pressure after a period of cerebral compression. , 1995, Neurological research.
[10] D. Graham,et al. Amyloid β‐Protein, APOE Genotype and Head Injury , 1996 .
[11] A. Duhaime,et al. Experimental acute subdural hematoma in infant piglets. , 1996, Pediatric neurosurgery.
[12] D. Prough,et al. Rebound intracranial hypertension in dogs after resuscitation with hypertonic solutions from hemorrhagic shock accompanied by an intracranial mass lesion. , 1999, Journal of neurosurgical anesthesiology.
[13] M. Zwienenberg,et al. Severe pediatric head injury: the role of hyperemia revisited. , 1999, Journal of neurotrauma.
[14] R. Raghupathi,et al. Age-Related Differences in Acute Physiologic Response to Focal Traumatic Brain Injury in Piglets , 2000, Pediatric Neurosurgery.
[15] R. Dempsey,et al. Application of 2,3,5-triphenyltetrazolium chloride staining to evaluate injury volume after controlled cortical impact brain injury: role of brain edema in evolution of injury volume. , 2000, Journal of neurotrauma.
[16] Jeffrey A. Golden,et al. Maturation-dependent response of the piglet brain to scaled cortical impact. , 2000, Journal of neurosurgery.
[17] K. Reinhart,et al. Immunomorphological sequelae of severe brain injury induced by fluid-percussion in juvenile pigs – effects of mild hypothermia , 2001, Acta Neuropathologica.
[18] H. Benveniste,et al. Apolipoprotein E affects the central nervous system response to injury and the development of cerebral edema , 2002, Annals of neurology.
[19] J. Norrie,et al. Effect of apolipoprotein E genotype on hematoma volume after trauma. , 2002, Journal of neurosurgery.
[20] T. Flynn. Developmental changes of myelin-related lipids in brain of miniature swine , 1984, Neurochemical Research.
[21] E. Reske‐Nielsen,et al. A simple mechanical model using a piston to produce localized cerebral contusions in pigs , 2005, Acta Neurochirurgica.
[22] M. Vapalahti,et al. Intraventricular pressure after administration of dehydrating agents to severely brain-injured patients , 2005, Acta Neurochirurgica.