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Publikacje naukowe

KOMÓRKI MACIERZYSTE Z TKANKI TŁUSZCZOWEJ:

 

  • de la Garza-Rodea AS. Myogenic properties of human mesenchymal stem cells derived from three different sources. Cell Transplant, 2011 Jun 7, PubMed.
  • Hicok KC, Zhou Y, Pucilowski Y. Adipose derived adult stem (ADAS) cells differentiate into bone synthesizing osteoblasts in vivo. Presentation #M233.
  • Huang JI, Beanes SR, Zhu M, Lorenz HP, Hedrick MH, Benhaim P. Rat extramedullary adipose tissue as a source of osteochondrogenic progenitor cells. Plast Reconstr Surg 2002; 109 (3): 1033.
  • Mitchell S. Fat stem cells can become nerve cells. United Press International. Durham, 2002.
  • Stashower M, Smith K, Williams J, Skelton H. Stromal Progenitor cells present within liposuction and reduction abdominoplasty fat for autologous transfer to aged skin. Dermatol Surg 1999; 25 (12): 945.
  • Zuk PA, Zhu M, Ashjian P, et al. Human Adipose Tissue Is a Source of Multipotent Stem Cells. Molecular Biology of the Cell 2002; 13: 4279.
  • Zuk PA, Zhu M, Mizuno H, et al. Multilineage cells from human adipose tissue: implications for cell based therapies. Tissue Engineering 2001; 7 (2): 211.

 

KOMÓRKI MACIERZYSTE Z TKANKI PĘPOWINOWEJ:

 

  • Zhou C, Yang B, Tian Y, Jiao H, Zheng W, Wang J, Guan F. Immunomodulatory effect of human umbilical cord Wharton’s jelly-derived mesenchymal stem cells on lymphocytes. Cell Immunol. 2011;272(1):33-8. Epub 2011 Sep 29.PMID: 22004796 [PubMed – indexed for MEDLINE]
  • Lupu M, Khalil M, Andrei E, Iordache F, Pfannkuche K, Neef K, Georgescu A, Buzila C, Brockmeier K, Maniu H, Hescheler J. Integration properties of Wharton’s jelly-derived novel mesenchymal stem cells into ventricular slices of murine hearts. Cell Physiol Biochem. 2011;28(1):63-76. Epub 2011 Aug 16. PMID: 21865849 [PubMed – indexed for MEDLINE]
  • Penolazzi L, Mazzitelli S, Vecchiatini R, Torreggiani E, Lambertini E, Johnson S, Badylak SF, Piva R, Nastruzzi C. Human mesenchymal stem cells seeded on extracellular matrix-scaffold: viability and osteogenic potential. J Cell Physiol. 2012 Feb;227(2):857-66. doi:10.1002/jcp.22983. PMID: 21830215 [PubMed – indexed for MEDLINE]
  • Yang X, Zhang M, Zhang Y, Li W, Yang B. Mesenchymal stem cells derived from Wharton jelly of the human umbilical cord ameliorate damage to human endometrial stromal cells. Fertil Steril. 2011 Oct;96(4):1029-36. Epub 2011 Jul 30. PMID: 21802667 [PubMed – indexed for MEDLINE]
  • Witkowska-Zimny M, Wrobel E. Perinatal sources of mesenchymal stem cells: Wharton’s jelly, amnion and chorion. Cell Mol Biol Lett. 2011 Sep;16(3):493-514. Epub 2011 Jul 18. Review. PMID: 21786036 [PubMed – indexed for MEDLINE]
  • Wang HW, Lin LM, He HY, You F, Li WZ, Huang TH, Ma GX, Ma L. Human umbilical cord mesenchymal stem cells derived from Wharton’s jelly differentiate into insulin-producing cells in vitro. Chin Med J (Engl). 2011 May;124(10):1534-9. PMID: 21740812 [PubMed – indexed for MEDLINE]
  • Taghizadeh RR, Cetrulo KJ, Cetrulo CL. Wharton’s Jelly stem cells: future clinical applications. Placenta. 2011 Oct;32 Suppl 4:S311-5. Epub 2011 Jul 6. Review. PMID: 21733573 [PubMed – indexed for MEDLINE]
  • Datta I, Mishra S, Mohanty L, Pulikkot S, Joshi PG.Neuronal plasticity of human Wharton’s jelly mesenchymal stromal cells to the dopaminergic cell type compared with human bone marrow mesenchymal stromal cells. Cytotherapy. 2011 Sep;13(8):918-32. Epub 2011 Jun 22. PMID: 21696238 [PubMed – indexed for MEDLINE]

 

TERAPIA ŚCIĘGIEN I WIĘZADEŁ:

 

  • Bruder SP, Jaiswal N, Ricalton N, Mosca J, Kraus K, Kadiyala S: Mesenchymal Stem Cells in Osteobiology and Applied Bone Regeneration. Clinical Orthopaedics and Related Research:S247-S256, 199.
  • Bruder SP, Kraus K, Goldberg V, Kadiyala S: The Effect of Implants Loaded with Autologous Mesenchymal Stem Cells on the Healing of Canine Segmental Bone Defects. The Journal of Bone and Joint Surgery, Incorporated 80-A:985-996, 1998.
  • Huang JI, Beanes SR, Zhu M, Lorenz HP, Hedrick MH, Benhaim P: Rat extramedullary adipose tissue as a source of osteochondrogenic progenitor cells. Plast Reconstr Surg 109:1033-1041, 2002.
  • Kon E, Muraglia A, Corsi A, Bianco P, Maracci M, Martin I, Boyde A, Ruspantini I, Chistolini P, Rocca M, Giardino R, Cancedda R, Quarto R: Autologous bone marrow stromal cells loaded onto porous hydroxyapatite ceramic accelerate bone repair in critical-size defects of sheep long bones. J Biomed Mater Res 49:328-337, 2000.
  • Kraus KH: The Use of Novel Strategies in the Treatment of Nonunions. In: ACVS Veterinary Symposium, 2001.
  • Lu X, Li S, Cheng J. Bone marrow mesenchymal stem cells: progress in bone/cartilage defect repair. Sheng Wu Yi Xue Gong Cheng Xue Za Zhi 2002; 19 (1): 135.
  • Noel D, Djouad F, Jorgense C: Regenerative medicine through mesenchymal stem cells for bone and cartilage repair. Curr Opin Investig Drugs 3:1000-1004, 2002.
  • Awad HA, Butler DL, Boivin GP, Smith FN, Malaviya P, Huibregtse B, Caplan AI: Autologous mesenchymal stem cell-mediated repair of tendon. Tissue Eng 5:267-277
  • Awad HA, Butler DL, Harris MT, Ibrahim R, E., Wu Y, Young RG, Kadiyala S, Boivin GP: In vitro characterization of mesenchymal stem cell-seeded collagen scaffolds for tendon repair: Effects of initial seeding density on contraction kinetics. J Biomed Mater Res 51:233-240, 2000.
  • Beredjiklian PK: Biologic Aspects of Flexor Tendon Laceration and Repair. Journal of Bone and Joint Surgery, Inc 85-A:539-550, 2003.
  • Dabareiner RM, Carter GK, Chaffin MK. How to perform ultrasound-guided tendon splitting and intralesional tendon injections in the standing horse. AAEP Proceedings 2000;46:176-179.
  • Dahlgren LA: Research Insights into Tendon Healing. In: ACVS Symposium, pp 157-160, 2002. 

Herthel DJ. Enhanced suspenspory ligament healing in 100 horses by stem cell and other bone marrow components. AAEP Proceedings 2001;47;319-21. 

Hildebrand
  • KA, Jia F, Woo SL-Y: Response of Donor and Recipient Cells after Transplantation of Cells to the Ligament and Tendon. Microscopy Research and Technique:34-38, 2002
  • Nixon A: Effect of adipose-derived nucleated cell fractions on tendon repair in horses with collagenase-induced tendinitis, AJVR, Vol69, No7, July 2008
  • Smith RKW, Korada M, Blunn GW, Goodship AE. Isolation and implantation of autologous equine mesenchymal stem cells from bone marrow into superficial digital flexor tendon as a potential novel treatment. Equine Vet J 2003; 35(1):99-102.
  • Vulliet RP, McDonald MH, Galuppo LD, et al. The use of stem cells to repair damaged tendons (02-12). Research Preview, Orthopedics/Performance. Center for Equine Health, University of California, Davis 2002-2003.
  • Watanabe N, Woo SL-Y, Papageorgiou C, Celechovsky C, Takai S: Fate of Donor Bone Marrow Cells in Medial Collateral Ligament after Simulated Autologous Transplantation. Microscopy Research and Technique:39-44, 2002.
  • Young RG, Butler DL, Weber W, Caplan AI, Gordon SL, Fink DJ. Use of Mesenchymal Stem Cells in a Collagen Matrix for Achilles Tendon Repair. J Ortho Res 1998 (16): 406.
  • Geburek F, Stadler P. [Regenerative therapy for tendon and ligament disorders in horses.Terminology, production, biologic potential and in vitro effects]. Tierarztl Prax Ausg G Grosstiere Nutztiere. 2011;39(6):373-83. German.

 

ARTRETYZM:

 

  • Applications in Cartilage Repair and Osteoarthritis Therapy – Mobasheri 2009
  • Repair of Osteochondral Defects Abstract – Nathan et al