Диссертация (1139911), страница 21
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– 2007. – V. 100. – P.662-669.243. Nienartowicz A. Mast cells in neoangiogenesis / A. Nienartowicz, M.E.Sobaniec-Łotowska, E. Jarocka-Cyrta // Med Sci Monit. – 2006. – V.12(3). –P.RA53-6.244. Norrby K. Mast cells and angiognesis // APMIS. – 2002. – V.10(5). –P.355-371.245. Nursalim A., Katili P.A., Santoso T. Cellular cardiomyoplasty formyocardial infarction: a 2014 evidence-based update // Acta Med Indones. –2014. – V.
46(2). – P. 150-162.246. Ohkubo T. Autoregulation of histamine release via the histamine H3receptor on mast cells in the rat skin / T. Ohkubo , M. Shibata , M. Inoue ,H Kaya, H. Takahashi // Arch Intern Pharmacodyn. Ther. – 1994. – V.328. –P. 307-314.247. Ohls R.K., Li Y., Trautman M.S., Christensen R.D.
Erythropoietinproduction by macrophages from preterm infants: implications regarding the135cause of the anemia of prematurity // Pediatr Res. – 1994. – V.35. – P.169170.248. Okabe T. Bone marrow derived mast cell acquire responsiveness tosubstance P with Ca(2+) signals and release of leukotriene B(4) via mitogenactivated protein kinase / T. Okabe, M. Hide, T. Hiragun [et al] // JNeuroimmunol. – 2006. – V.181, N.1-2. – P.1-12.249. Okayama Y.
Development, migration, and survival of mast cells / Y.Okayama, T. Kawakami // Immunol Res. – 2006. – V.34, N2. – P.97-115.250. Okayama Y. Mast cell derived cytokine expression induced via Fcreceptors and Toll-like receptors / Y. Okayama // Chem Immunol Allergy. –2005. – V.87. – P.101-111.251. Olivetti G., Lagrasta C., Ricci R., Long-term pressure-induced cardiachypertrophy: capillary and mast cell proliferation. //Am J Physiolю-1989ю257:H1766–H1772.252. Oron U. Light therapy and stem cells: A therapeutic intervention of thefuture // Journal of Interventional Cardiology. – 2011.
– V.3. – P. 627-629.253. Park I.S., Chung P.S., Ahn J.C. Enhanced angiogenic effect of adiposederived stromal cell spheroid with low-level light therapy in hind limbischemia mice // Biomaterials. – 2014. – V. 35(34). – P. 9280-9289.254. Patel A.N., Spadaccio C., Kuzman M., Park E., Fischer D.W., SticeS.L., Mullangi C., Toma C: Improved cell survival in infarcted myocardiumusing a novel combination transmyocardial laser and cell delivery system //Cell Transplant.
– 2007. – V.16(9). – P. 899-905.255. Patella V., de–Crescenzo G., Lamparter-Schummert B., De Rosa G.,() Increased cardiac mast cell density and mediator release in patients withdilated cardiomyopathy. //Inflamm Res.- 1997.-46:S31–S32.256. Patella V., Marinò I., Arbustini E., et al. Stem cell factor in mast cellsand increased mast cell density in idiopathic and ischemiccardiomyopathy.// Circulation.- 1998.-97:971–978.136257. Pereira A.N. Effect of low-power laser irradiation on cell growth andprocollagen synthesis of cultured fibroblasts / A.N. Pereira, P. Eduardo Cde,E. Matson [et al] // Lasers Surg Med.
– 2002. – V.31, N4. – P.263-267.258. Pereira T.S., Flecha O.D., Guimarães R.C., de Oliveira D., BotelhoA.M., Ramos Glória J.C., Aguiar Tavano K.T. Efficacy of red and infraredlasers in treatment of temporomandibular disorders--a double-blind,randomized, parallel clinical trial // Cranio.
– 2014. – V. 32(1). – P. 51-56.259. Pinheiro A.L. Mast cells in laser and surgical wounds / A.L. Pinheiro[et al.] // Braz Dent J. – 1995. – V.6(1). – P.11-17.260. Primo F.L., da Costa Reis M.B., Porcionatto M.A., Tedesco A.C. Invitro evaluation of chloroaluminum phthalocyanine nanoemulsion and lowlevel laser therapyon human skin dermal equivalents and bone marrowmesenchymal stem cells // Curr Med Chem. – 2011. – V. 18(22). – P.
33763381.261.Pyczek, M. Effect of low-energy laser power on the bone marrow of therat / M. Pyczek, M. Sopala, Z. Dabrowski // Folia Biol (Krakow). – 1994. –V.42, N3-4. – P.151-156.262. Reid A.C., Brazin J.A., Morrey C., Silver R.B., Levi R. Targetingcardiac mast cells: pharmacological modulation of the local renin-angiotensinsystem // Curr Pharm Des. – 2011. – V. 17(34). – P.
3744-3752.263. Ren G., Dewald O., Frangogiannis N.G. Inflammatory mechanisms inmyocardial infarction. // Curr Drug Targets Inflamm Allergy. – 2003. – V.2(3). – P. 242-256.264. Reyes G., Allen K.B., Aguado B., Duarte J. Bone marrow laserrevascularisation for treating refractory angina due to diffuse coronary heartdisease // Eur J Cardiothorac Surg. – 2009. – V. 36(1). – P. 192-194.265. Reyes G., Allen K.B., Alvarez P., Alegre A., Aguado B., Olivera M.,Caballero P., Rodríguez J., Duarte J. Mid term results after bone marrow laserrevascularization for treating refractory angina // BMC Cardiovasc Disord.
–2010. – V. 10. – P. 42. – doi: 10.1186/1471-2261-10-42.137266. Rich I.N. A role for the macrophage in normal hemopoiesis. II. Effectof varying physiological oxygen tensions on the release of hemopoieticgrowth factors from bone-marrow-derived macrophages in vitro // ExpHematol. 1986 Sep. – V. 14(8). – P. 746-751.267. Rich I.N. Haemopoietic regulation and the role of the macrophage inerythropoietic gene expression // Adv Exp Med Biol.
– 1988. – V.241. – P.5566.268. Rich I.N., Heit W., Kubanek B. External erythropoietin production bymacrophages // Blood. – 1982. - V.60. – P.1007-1017269. Rivera J., Gilfillan A.M. Molecular regulation of mast cell activation //J. Allergy Clin. Immunol. – 2006. – V.117. - P.1214-1225270. Sanchis-Gomar F, Garcia-Gimenez JL, Pareja-Galeano H, RomagnoliM, Perez-Quilis C, Lippi G.
Erythropoietin and the heart: physiologicaleffects and the therapeutic perspective // Int J Cardiol. – 2014. – V. 171(2). –P. 116-25.271. Sanganalmath S.K., Abdel-Latif A., Bolli R., Xuan Y.T., Dawn B.Hematopoieticcytokinesforcardiacrepair:mobilizationof bonemarrow cells and beyond // Basic Res Cardiol.
– 2011. – V. 106(5). – P. 709733272. Santamato A., Solfrizzi V., Panza F., Tondi G., Frisardi V., LegginB.G., Ranieri M., Fiore P. Short-term effects of high-intensity laser therapyversus ultrasound therapy in the treatment of people with subacromialimpingement syndrome: a randomized clinical trial // Phys Ther.
– 2009 Jul. –V.89(7). – P. 643-652.273. Santos J, Yates D, Guilarte M, Vicario M, Alonso C, Perdue MH.Stress neuropeptides evoke epithelial responses via mast cell activation in therat colon // Psychoneuroendocrinology. 2008 Oct. – V. 33(9). – P. 1248-56.274. Saygun I, Nizam N, Ural AU, Serdar MA, Avcu F, Tozum TF. Lowlevel laser irradiation affects the release of basic fibroblast growth factor138(bFGF), insulin-like growth factor-I (IGF-I), and receptor of IGF-I (IGFBP3)from osteoblasts // Photomed Laser Surg.
2012 Mar. – V. 30(3). – P. 149–54.275. Schiffer, F., Johnston, A.L., Ravichandean, C., Polcari, A.,Teicher,M.H., Webb, R.H., and Hamblin, M.R. (2009). Psychological benefits 2 and 4weeks after a single treatment with NIR to the forehead: a pilot study of 10patents with major depression and anxiety.
Behav. Brain Funct. 5, 46.276. Schmetzer O, Valentin P, Smorodchenko A, Domenis R, Gri G,Siebenhaar F, Metz M, Maurer M. A novel method to generate and culturehuman mast cells: Peripheral CD34+ stem cell-derived mast cells (PSCMCs)// J Immunol Methods. – 2014.
- V.413. – 62-68.277. Seth S., Narang R., Bhargava B. et al. Percutaneous intracoronarycellular cardiomyoplasty for nonischemic cardiomyopathy: clinical andhistopathological results: the first-in-man ABCD (Autologous Bone MarrowCells in Dilated Cardiomyopathy) trial. // J Am Coll Cardiol. 2006. – V. 48. –P. 2350–1.278. Shaik-Dasthagirisaheb Y.B., Varvara G., Murmura G., Saggini A.,Potalivo G., Vascular endothelial growth factor (VEGF), mast cells andinflammation // Int J Immunopathol Pharmacol. -2013 -Apr-Jun. – V.
26(2). –P. 327-35.279. Shaw, V.E., Spana, S., Ashkan, K. Benabid AL, Stone J, Baker GE, andMitrofanis, J. (2010). Neuroprotection in midbrain dopaminergic cells inMPTP-treated mice after near-infrared light treatment. J. Comp. Neurol. 518,25–40.280. Shefer G. Low-energy laser irradiation promotes the survival and cellcycle entry of skeletal muscle satellite cells / G. Shefer [et al] // J Cell Sci. –2002.
– V.115, NPt 7. – P.1461-1469.281. Shelburne, C.P. The role of Th2 cytokines in mast cell homostasis /C.P. Shelburne, J.J. Ryan // Immunology. – 2001. – V.179. – P.82-93.282. Shiota N., Rysä J., Kovanen P.T., Ruskoaho H., Kokkonen J.O,Lindstedt K.А. A role for cardiac mast cells in the pathogenesis of139hypertensive heart disease. // J Hypertens. 2003 Oct. – V. 21(10).
– P. 193544.283. Smith JN, Calvi LM. Concise review: Current concepts in bone marrowmicroenvironmental regulation of hematopoietic stem and progenitor cells //Stem Cells. 2013 Jun. – V. 31(6). – P. 1044-50.284. Snyder S.K. Quantitation of calcitonin gene-related peptide mRNA andneuronal cell death in facial motor nuclei following axotomy and 633 nm lowpower laser treatment / S.K. Snyder, K.R. Byrnes, R.C.
Borke [et al] // LasersSurg Med. 2002. – V.31, N3. – P.216-222.285. Soleimani M, Abbasnia E, Fathi M, Sahraei H, Fathi Y, Kaka G.Theeffects of low-level laser irradiation on differentiation and proliferation ofhuman bone marrow mesenchymal stem cells into neurons and osteoblasts-an in vitro study // Lasers Med Sci. 2012 Mar. – V. 27(2). – P. 423-30.286. Somasundaram P, Ren G, Nagar H, Kraemer D, Mendoza L, MichaelLH, Caughey GH, Entman ML, Frangogiannis NG Mast cell tryptase maymodulate endothelial cell phenotype in healing myocardial infarcts.
// JPathol. 2005 Jan. – V. 205(1). – P. 102-11.287. Souza NH, Ferrari RA, Silva DF, Nunes FD, Bussadori SK, FernandesKP. Effect of low-level laser therapy on the modulation of the mitochondrialactivity of macrophages // Braz J Phys Ther. 2014 Aug. – V. 18(4). – P. 30814.288. Stevens R.L., Adachi R. Protease–proteoglycan complexes of mouseand human mast cells and importance of their β-tryptase–heparin complexesin inflammation and innate immunity // Immunol. Rev. 2007. – V.
217. – P.155–167.289. Stewart J.A. Jr., Wei C.C., Brower G.L., et al. Cardiac mast cell- andchymase-mediated matrix metalloproteinase activity and left ventricularremodeling in mitral regurgitation in the dog.// J Mol Cell Cardiol.- 2003.35:311–319140290. Swindle, E.J. Rodent and human mast cells produce functionallysignificant intracellular reactive oxygen species but not nitric oxide / E.J.Swindle, D.D. Metcalfe, J.W. Coleman // J. biol. chem. – 2004. – V.279(47).– P.48751-48759.291. Swindle, E.J. The role of reactive oxygen species and nitric oxide inmast cell-dependent inflammatory processes / E.J. Swindle, D.D. Metcalfe //Immunol Rev.
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