Mass Spectrometry in Pharmacokinetic Studies of a Synthetic Compound for Spinal Cord Injury Treatment

The studies of drugs that could constitute a palliative to spinal cord injury (SCI) are a continuous and increasing demand in biomedicine field from developed societies. Recently we described the chemical synthesis and antiglioma activity of synthetic glycosides. A synthetic sulfated glycolipid (here IG20) has shown chemical stability, solubility in polar solvents, and high inhibitory capacity over glioma growth. We have used mass spectrometry (MS) to monitor IG20m/z=550.3in cells and tissues of the central nervous system (CNS) that are involved in SCI recovery. IG20 was detected by MS in serum and homogenates from CNS tissue of rats, though in the latter a previous deproteinization step was required. The pharmacokinetic parameters of serum clearance at 24 h and half-life at 4 h were determined for synthetic glycoside in the adult rat using MS. A local administration of the drug near of spinal lesion site is proposed.

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Paralysis elicited by spinal cord injury evokes selective disassembly of neuromuscular synapses with and without terminal sprouting in ankle flexors of the adult rat

The Journal of Comparative Neurology ◽

10.1002/cne.21143 ◽

2006 ◽

Vol 500 (1) ◽

pp. 116-133 ◽

Cited By ~ 18

Author(s):

Anthony S. Burns ◽

Sabiha Jawaid ◽

Hui Zhong ◽

Hiroyuki Yoshihara ◽

Srishti Bhagat ◽

...

Keyword(s):

Spinal Cord ◽

Spinal Cord Injury ◽

Adult Rat ◽

Neuromuscular Synapses ◽

Cord Injury ◽

Selective Disassembly

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Synergistic Effect of Neural Stem Cells and Olfactory Ensheathing Cells on Repair of Adult Rat Spinal Cord Injury

Cell Transplantation ◽

10.3727/096368910x505855 ◽

2010 ◽

Vol 19 (10) ◽

pp. 1325-1337 ◽

Cited By ~ 47

Author(s):

Gan Wang ◽

Qiang Ao ◽

Kai Gong ◽

Huancong Zuo ◽

Yandao Gong ◽

...

Keyword(s):

Spinal Cord ◽

Stem Cells ◽

Spinal Cord Injury ◽

Synergistic Effect ◽

Neural Stem Cells ◽

Olfactory Ensheathing Cells ◽

Rat Spinal Cord ◽

Adult Rat ◽

Cord Injury ◽

Adult Rat Spinal Cord

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Intraspinal Transplantation of hNT Neurons in the Lesioned Adult Rat Spinal Cord

Canadian Journal of Neurological Sciences / Journal Canadien des Sciences Neurologiques ◽

10.1017/s0317167100002882 ◽

2004 ◽

Vol 31 (1) ◽

pp. 87-96 ◽

Cited By ~ 6

Author(s):

Sean Dennis Christie ◽

Damaso Sadi ◽

Ivar Mendez

Keyword(s):

Spinal Cord ◽

Spinal Cord Injury ◽

Neuron Specific Enolase ◽

Neural Transplantation ◽

Adult Rat ◽

Tissue Source ◽

Human Neurons ◽

Cord Injury ◽

Female Wistar Rats ◽

Immunohistochemical Studies

Background:The role of neural transplantation as a restorative strategy for spinal cord injury continues to be intensely investigated. Ideally, the tissue source for transplantation must be readily available, free of disease and able to survive and mature following implantation into the adverse environment created by the injury. We have studied the use of a commercially available cell line of cultured human neurons (hNT neurons) as a tissue source for neural transplantation in spinal cord injury.Methods:Following a left lateral thoracic hemisection, 54 immunosuppressed, female Wistar rats were randomly allocated into different treatment groups; hemisection only or hemisection and hNT cell transplantation (via a bridge, double or triple graft). Grafting occurred three days after spinal cord injury. After thirteen weeks the animals were sacrificed and tissue sections were stained with human neuron specific enolase and human specific neural cell adhesion molecule.Results:Immunohistochemical evidence of graft survival was displayed in 66.7% of the surviving, grafted animals. Fibre outgrowth, greatest in the bridge and triple grafts, was observed in both rostral and caudal directions essentially bridging the lesion. Double grafts were smaller, displaying less fibre outgrowth, which did not cross the lesion. Long fibre outgrowth was evident up to 2 cm from the graft as assessed by tracing and immunohistochemical studies.Conclusion:Bridge and triple grafts displayed greater growth and enabled the hNT graft to essentially bridge the lesion. This suggests that hNT neurons have the potential to structurally reconnect the proximal and distal spinal cord across the region of injury.

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