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Expert Opinion on Drug Delivery Volume 8, 2011 - Issue 5
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Intranasal delivery of stem cells to the brain

Yongjun JiangNanjing University School of Medicine, Jinling Hospital, Department of Neurology, 305 East Zhongshan Road, Nanjing 210002, Jiangsu Province, China+86 25 8537 2631; +86 25 8480 1861; [email protected]
,
Juehua ZhuNanjing University School of Medicine, Jinling Hospital, Department of Neurology, 305 East Zhongshan Road, Nanjing 210002, Jiangsu Province, China+86 25 8537 2631; +86 25 8480 1861; [email protected]
,
Gelin XuNanjing University School of Medicine, Jinling Hospital, Department of Neurology, 305 East Zhongshan Road, Nanjing 210002, Jiangsu Province, China+86 25 8537 2631; +86 25 8480 1861; [email protected]
&
Xinfeng LiuNanjing University School of Medicine, Jinling Hospital, Department of Neurology, 305 East Zhongshan Road, Nanjing 210002, Jiangsu Province, China+86 25 8537 2631; +86 25 8480 1861; [email protected]
Pages 623-632 | Published online: 19 Mar 2011

Bibliography

  • Jin K, Mao X, Xie L, Transplantation of human neural precursor cells in matrigel scaffolding improves outcome from focal cerebral ischemia after delayed postischemic treatment in rats. J Cereb Blood Flow Metab 2010;30:534-44
  • Harting MT, Sloan LE, Jimenez F, Subacute neural stem cell therapy for traumatic brain injury. J Surg Res 2009;153:188-94
  • Courtois ET, Castillo CG, Seiz EG, In vitro and in vivo enhanced generation of human a9 dopamine neurons from neural stem cells by bcl-xl. J Biol Chem 2010;285:9881-97
  • Deda H, Inci MC, Kurekci AE, Treatment of amyotrophic lateral sclerosis patients by autologous bone marrow-derived hematopoietic stem cell transplantation: a 1-year follow-up. Cytotherapy 2009;11:18-25
  • Aharonowiz M, Einstein O, Fainstein N, Neuroprotective effect of transplanted human embryonic stem cell-derived neural precursors in an animal model of multiple sclerosis. PLoS One 2008;3:e3145
  • Yang J, Yan Y, Ciric B, Evaluation of bone marrow- and brain-derived neural stem cells in therapy of central nervous system autoimmunity. Am J Pathol 2010;177:1989-2001
  • Blurton-Jones M, Kitazawa M, Martinez-Coria H, Neural stem cells improve cognition via bdnf in a transgenic model of alzheimer disease. Proc Natl Acad Sci USA 2009;106:13594-9
  • Gogel S, Gubernator M, Minger SL. Progress and prospects: stem cells and neurological diseases. Gene Ther 2011;18(1):1-6
  • Burt RK, Loh Y, Cohen B, Autologous non-myeloablative haemopoietic stem cell transplantation in relapsing-remitting multiple sclerosis: a phase i/ii study. Lancet Neurol 2009;8:244-53
  • Fisher M, Feuerstein G, Howells DW, Update of the stroke therapy academic industry roundtable preclinical recommendations. Stroke 2009;40:2244-50
  • Ma YP, Ma MM, Ge S, Intranasally delivered tgf-beta1 enters brain and regulates gene expressions of its receptors in rats. Brain Res Bull 2007;74:271-7
  • Alcala-Barraza SR, Lee MS, Hanson LR, Intranasal delivery of neurotrophic factors bdnf, cntf, epo, and nt-4 to the cns. J Drug Target 2010;18:179-90
  • Hashizume R, Ozawa T, Gryaznov SM, New therapeutic approach for brain tumors: intranasal delivery of telomerase inhibitor grn163. Neuro Oncol 2008;10:112-20
  • Perl DP, Good PF. Uptake of aluminium into central nervous system along nasal-olfactory pathways. Lancet 1987;1:1028
  • Bondier JR, Michel G, Propper A, Harmful effects of cadmium on olfactory system in mice. Inhal Toxicol 2008;20:1169-77
  • Broberg EK, Peltoniemi J, Nygardas M, Spread and replication of and immune response to gamma134.5-negative herpes simplex virus type 1 vectors in balb/c mice. J Virol 2004;78:13139-52
  • Han IK, Kim MY, Byun HM, Enhanced brain targeting efficiency of intranasally administered plasmid DNA: an alternative route for brain gene therapy. J Mol Med 2007;85:75-83
  • Bitko V, Barik S. Nasal delivery of sirna. Methods Mol Biol 2008;442:75-82
  • Frenkel D, Solomon B. Filamentous phage as vector-mediated antibody delivery to the brain. Proc Natl Acad Sci USA 2002;99:5675-9
  • Dhuria SV, Hanson LR, Frey WH II. Intranasal delivery to the central nervous system: mechanisms and experimental considerations. J Pharm Sci 2010;99:1654-73
  • Jiang Y, Wei N, Lu T, Intranasal brain-derived neurotrophic factor protects brain from ischemic insult via modulating local inflammation in rats. Neuroscience 2011;172:398-405
  • De Rosa R, Garcia AA, Braschi C, Intranasal administration of nerve growth factor (ngf) rescues recognition memory deficits in ad11 anti-ngf transgenic mice. Proc Natl Acad Sci USA 2005;102:3811-16
  • Wei N, Liu XF, Chau M, Intranasal delivery of bone marrow stem cells into the cerebral ischemic lesion of mice. Program no. 57.10/t5. Neuroscience Meeting Planner. San Diego, CA: Society for Neuroscience, 2010, Available at: http://www.abstractsonline.com/Plan/SSResults.aspx
  • Danielyan L, Schafer R, von Ameln-Mayerhofer A, Therapeutic efficacy of intranasally delivered mesenchymal stem cells in a rat model of parkinson disease. Rejuvenation Res 2011;14:3-16
  • Danielyan L, Schafer R, von Ameln-Mayerhofer A, Intranasal delivery of cells to the brain. Eur J Cell Biol 2009;88:315-24
  • Aubry L, Bugi A, Lefort N, Striatal progenitors derived from human es cells mature into darpp32 neurons in vitro and in quinolinic acid-lesioned rats. Proc Natl Acad Sci USA 2008;105:16707-12
  • Deng J, Petersen BE, Steindler DA, Mesenchymal stem cells spontaneously express neural proteins in culture and are neurogenic after transplantation. Stem Cells 2006;24:1054-64
  • Windrem MS, Nunes MC, Rashbaum WK, Fetal and adult human oligodendrocyte progenitor cell isolates myelinate the congenitally dysmyelinated brain. Nat Med 2004;10:93-7
  • Takahashi K, Tanabe K, Ohnuki M, Induction of pluripotent stem cells from adult human fibroblasts by defined factors. Cell 2007;131:861-72
  • Vierbuchen T, Ostermeier A, Pang ZP, Direct conversion of fibroblasts to functional neurons by defined factors. Nature 2010;463:1035-41
  • Lloyd-Jones D, Adams RJ, Brown TM, Executive summary: heart disease and stroke statistics–2010 update: a report from the american heart association. Circulation 2010;121:948-54
  • Lee HJ, Lim IJ, Lee MC, Human neural stem cells genetically modified to overexpress brain-derived neurotrophic factor promote functional recovery and neuroprotection in a mouse stroke model. J Neurosci Res 2010;88:3282-94
  • Gao J, Prough DS, McAdoo DJ, Transplantation of primed human fetal neural stem cells improves cognitive function in rats after traumatic brain injury. Exp Neurol 2006;201:281-92
  • Hawkes N. Tracing Burt's descent to scientific fraud. Science 1979;205:673-5
  • Einstein O, Friedman-Levi Y, Grigoriadis N, Transplanted neural precursors enhance host brain-derived myelin regeneration. J Neurosci 2009;29:15694-702
  • Brazzini A, Cantella R, De la Cruz A, Intraarterial autologous implantation of adult stem cells for patients with parkinson disease. J Vasc Interv Radiol 2010;21:443-51
  • Walczak P, Zhang J, Gilad AA, Dual-modality monitoring of targeted intraarterial delivery of mesenchymal stem cells after transient ischemia. Stroke 2008;39:1569-74
  • Tolar J, O'shaughnessy M J, Panoskaltsis-Mortari A, Host factors that impact the biodistribution and persistence of multipotent adult progenitor cells. Blood 2006;107:4182-8
  • Lee JS, Hong JM, Moon GJ, A long-term follow-up study of intravenous autologous mesenchymal stem cell transplantation in patients with ischemic stroke. Stem Cells 2010;28:1099-106
  • Pendharkar AV, Chua JY, Andres RH, Biodistribution of neural stem cells after intravascular therapy for hypoxic-ischemia. Stroke 2010;41:2064-70
  • Walker PA, Harting MT, Jimenez F, Direct intrathecal implantation of mesenchymal stromal cells leads to enhanced neuroprotection via an nfkappab-mediated increase in interleukin-6 production. Stem Cells Dev 2010;19:867-76
  • Ellenby MS, Tegtmeyer K, Lai S, Lumbar puncture. N Engl J Med 2006;355:e12
  • Zlokovic BV. The blood-brain barrier in health and chronic neurodegenerative disorders. Neuron 2008;57:178-201
  • Pardridge WM. The blood-brain barrier: bottleneck in brain drug development. NeuroRx 2005;2:3-14
  • Dahl R, Mygind N. Anatomy, physiology and function of the nasal cavities in health and disease. Adv Drug Deliv Rev 1998;29:3-12
  • Pires A, Fortuna A, Alves G, Intranasal drug delivery: how, why and what for? J Pharm Pharm Sci 2009;12:288-311
  • Chinese Pharmacopoeia. Chemical Industry Press, Beijing; 2005
  • Frey WH. Neurologic agents for nasal administration to the brain. Chiron Corp., US; 1991
  • van Velthoven CT, Kavelaars A, van Bel F, Nasal administration of stem cells: a promising novel route to treat neonatal ischemic brain damage. Pediatr Res 2010;68:419-22
  • Feifel D, Macdonald K, Nguyen A, Adjunctive intranasal oxytocin reduces symptoms in schizophrenia patients. Biol Psychiatry 2010;68:678-80
  • Guastella AJ, Einfeld SL, Gray KM, Intranasal oxytocin improves emotion recognition for youth with autism spectrum disorders. Biol Psychiatry 2010;67:692-4
  • Born J, Lange T, Kern W, Sniffing neuropeptides: a transnasal approach to the human brain. Nat Neurosci 2002;5:514-16
  • Benedict C, Hallschmid M, Hatke A, Intranasal insulin improves memory in humans. Psychoneuroendocrinology 2004;29:1326-34
  • Benedict C, Hallschmid M, Schultes B, Intranasal insulin to improve memory function in humans. Neuroendocrinology 2007;86:136-42
  • Reger MA, Watson GS, Frey WH II, Effects of intranasal insulin on cognition in memory-impaired older adults: Modulation by apoe genotype. Neurobiol Aging 2006;27:451-8
  • Reger MA, Watson GS, Green PS, Intranasal insulin administration dose-dependently modulates verbal memory and plasma amyloid-beta in memory-impaired older adults. J Alzheimers Dis 2008;13:323-31
  • Reger MA, Watson GS, Green PS, Intranasal insulin improves cognition and modulates beta-amyloid in early ad. Neurology 2008;70:440-8
  • Banks WA, During MJ, Niehoff ML. Brain uptake of the glucagon-like peptide-1 antagonist exendin(9-39) after intranasal administration. J Pharmacol Exp Ther 2004;309:469-75
  • Jansson B, Bjork E. Visualization of in vivo olfactory uptake and transfer using fluorescein dextran. J Drug Target 2002;10:379-86
  • Dhuria SV, Hanson LR, Frey WH II. Novel vasoconstrictor formulation to enhance intranasal targeting of neuropeptide therapeutics to the central nervous system. J Pharmacol Exp Ther 2009;328:312-20
  • Thorne RG, Pronk GJ, Padmanabhan V, Delivery of insulin-like growth factor-I to the rat brain and spinal cord along olfactory and trigeminal pathways following intranasal administration. Neuroscience 2004;127:481-96
  • Mitchell FL, Marks GE, Bichenkova EV, Molecular probes: Insights into design and analysis from computational and physical chemistry. Biochem Soc Trans 2008;36:46-50
  • Hadaczek P, Yamashita Y, Mirek H, The ‘perivascular pump’ driven by arterial pulsation is a powerful mechanism for the distribution of therapeutic molecules within the brain. Mol Ther 2006;14:69-78
  • Skipor J, Grzegorzewski W, Einer-Jensen N, Local vascular pathway for progesterone transfer to the brain after nasal administration in gilts. Reprod Biol 2003;3:143-59
  • Liu XF, Fawcett JR, Thorne RG, Intranasal administration of insulin-like growth factor-i bypasses the blood-brain barrier and protects against focal cerebral ischemic damage. J Neurol Sci 2001;187:91-7
  • Florence K, Manisha L, Kumar BA, Intranasal clobazam delivery in the treatment of status epilepticus. J Pharm Sci 2011;100:692-703
  • Shingaki T, Inoue D, Furubayashi T, Transnasal delivery of methotrexate to brain tumors in rats: a new strategy for brain tumor chemotherapy. Mol Pharm 6 August 2010. [Epub ahead of print] doi:10.1021/mp900275s
  • Martinez JA, Francis GJ, Liu WQ, Intranasal delivery of insulin and a nitric oxide synthase inhibitor in an experimental model of amyotrophic lateral sclerosis. Neuroscience 2008;157:908-25
  • Yuki Y, Byun Y, Fujita M, Production of a recombinant hybrid molecule of cholera toxin-b-subunit and proteolipid-protein-peptide for the treatment of experimental encephalomyelitis. Biotechnol Bioeng 2001;74:62-9
  • Piao HM, Balakrishnan P, Cho HJ, Preparation and evaluation of fexofenadine microemulsion for intranasal delivery. Int J Pharm 2010;395:309-16
  • Dalpiaz A, Gavini E, Colombo G, Brain uptake of an anti-ischemic agent by nasal administration of microparticles. J Pharm Sci 2008;97:4889-903
  • Cheng S, Ma M, Ma Y, Combination therapy with intranasal ngf and electroacupuncture enhanced cell proliferation and survival in rats after stroke. Neurol Res 2009;31:753-8
  • Steyn D, du Plessis L, Kotze A. Nasal delivery of recombinant human growth hormone: in vivo evaluation with pheroid technology and n-trimethyl chitosan chloride. J Pharm Pharm Sci 2010;13:263-73
  • van den Berg MP, Romeijn SG, Verhoef JC, Serial cerebrospinal fluid sampling in a rat model to study drug uptake from the nasal cavity. J Neurosci Methods 2002;116:99-107
  • Zwijnenburg PJ, van der Poll T, Florquin S, Experimental pneumococcal meningitis in mice: a model of intranasal infection. J Infect Dis 2001;183:1143-6
  • Yasuhara T, Hara K, Maki M, Intravenous grafts recapitulate the neurorestoration afforded by intracerebrally delivered multipotent adult progenitor cells in neonatal hypoxic-ischemic rats. J Cereb Blood Flow Metab 2008;28:1804-10
  • Bovetti S, Hsieh YC, Bovolin P, Blood vessels form a scaffold for neuroblast migration in the adult olfactory bulb. J Neurosci 2007;27:5976-80
  • Lois C, Garcia-Verdugo JM, Alvarez-Buylla A. Chain migration of neuronal precursors. Science 1996;271:978-81
  • Moore BE, Colvin GA, Dooner MS, Lineage-negative bone marrow cells travel bidirectionally in the olfactory migratory stream but maintain hematopoietic phenotype. J Cell Physiol 2005;202:147-52
  • Ferriero DM. Neonatal brain injury. N Engl J Med 2004;351:1985-95
  • Willenberg BJ, Zheng T, Meng FW, Gelatinized copper-capillary alginate gel functions as an injectable tissue scaffolding system for stem cell transplants. J Biomater Sci Polym Ed 9 August 2010. [Epub ahead of print] doi:10.1163/092050610X519453

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