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Showing 1 to 12 of 1344 entries
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Corrigendum.

Regenerative medicine

[No authors listed]
PMID: 26237708
Regen Med. 2015;10(5):681. doi: 10.2217/rme.15.30.

No abstract available.

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Corrigendum. Regen Med. 2015;10(5):681doi: 10.2217/rme.15.30.
(2015). Corrigendum. Regenerative medicine, 10(5), 681. https://doi.org/10.2217/rme.15.30
"Corrigendum." Regenerative medicine vol. 10,5 (2015): 681. doi: https://doi.org/10.2217/rme.15.30
Corrigendum. Regen Med. 2015;10(5):681. doi: 10.2217/rme.15.30. PMID: 26237708.
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Latest developments in the field of stem cell research and regenerative medicine compiled from publicly available information and press releases from nonacademic institutions 1 February-31 March 2015.

Regenerative medicine

Ilic D.
PMID: 26237698
Regen Med. 2015;10(5):535-42. doi: 10.2217/rme.15.26.

No abstract available.

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Ilic D. Latest developments in the field of stem cell research and regenerative medicine compiled from publicly available information and press releases from nonacademic institutions 1 February-31 March 2015. Regen Med. 2015;10(5):535-42doi: 10.2217/rme.15.26.
Ilic, D. (2015). Latest developments in the field of stem cell research and regenerative medicine compiled from publicly available information and press releases from nonacademic institutions 1 February-31 March 2015. Regenerative medicine, 10(5), 535-42. https://doi.org/10.2217/rme.15.26
Ilic, Dusko. "Latest developments in the field of stem cell research and regenerative medicine compiled from publicly available information and press releases from nonacademic institutions 1 February-31 March 2015." Regenerative medicine vol. 10,5 (2015): 535-42. doi: https://doi.org/10.2217/rme.15.26
Ilic D. Latest developments in the field of stem cell research and regenerative medicine compiled from publicly available information and press releases from nonacademic institutions 1 February-31 March 2015. Regen Med. 2015;10(5):535-42. doi: 10.2217/rme.15.26. PMID: 26237698.
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Converting of Myometrial Stem Cells to Tumor-Initiating Cells: Mechanism of Uterine Fibroid Development.

Cell, stem cells and regenerative medicine

Yang Q, Diamond MP, Al-Hendy A.
PMID: 28042616
Cell Stem Cells Regen Med. 2016 Apr;2(1). doi: 10.16966/2472-6990.e103. Epub 2016 Apr 30.

No abstract available.

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Yang Q, Diamond MP, Al-Hendy A. Converting of Myometrial Stem Cells to Tumor-Initiating Cells: Mechanism of Uterine Fibroid Development. Cell Stem Cells Regen Med. 2016;2(1)doi: 10.16966/2472-6990.e103.
Yang, Q., Diamond, M. P., & Al-Hendy, A. (2016). Converting of Myometrial Stem Cells to Tumor-Initiating Cells: Mechanism of Uterine Fibroid Development. Cell, stem cells and regenerative medicine, 2(1), . https://doi.org/10.16966/2472-6990.e103
Yang, Qiwei, et al. "Converting of Myometrial Stem Cells to Tumor-Initiating Cells: Mechanism of Uterine Fibroid Development." Cell, stem cells and regenerative medicine vol. 2,1 (2016). doi: https://doi.org/10.16966/2472-6990.e103
Yang Q, Diamond MP, Al-Hendy A. Converting of Myometrial Stem Cells to Tumor-Initiating Cells: Mechanism of Uterine Fibroid Development. Cell Stem Cells Regen Med. 2016 Apr;2(1). doi: 10.16966/2472-6990.e103. Epub 2016 Apr 30. PMID: 28042616; PMCID: PMC5199021.
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MicroRNAs regulating meis1 expression and inducing cardiomyocyte proliferation.

Cardiovascular regenerative medicine

Pandey R, Yang Y, Jackson L, Ahmed RP.
PMID: 28111633
Cardiovasc Regen Med. 2016;3.

Cardiovascular disease has been the biggest killer in the United States for decades, with almost a million new cases each year. Even though mammalian rodent neonatal cardiomyocytes show proliferative potential for up to 5 days, adult cardiomyocytes lose this...

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Pandey R, Yang Y, Jackson L, et al. MicroRNAs regulating meis1 expression and inducing cardiomyocyte proliferation. Cardiovasc Regen Med. 2016;3
Pandey, R., Yang, Y., Jackson, L., & Ahmed, R. P. (2016). MicroRNAs regulating meis1 expression and inducing cardiomyocyte proliferation. Cardiovascular regenerative medicine, 3.
Pandey, Raghav, et al. "MicroRNAs regulating meis1 expression and inducing cardiomyocyte proliferation." Cardiovascular regenerative medicine vol. 3 (2016).
Pandey R, Yang Y, Jackson L, Ahmed RP. MicroRNAs regulating meis1 expression and inducing cardiomyocyte proliferation. Cardiovasc Regen Med. 2016;3. PMID: 28111633; PMCID: PMC5245919.
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Poster Presentations.

Regenerative medicine

[No authors listed]
PMID: 26488890
Regen Med. 2015;10(7):S96-S296. doi: 10.2217/rme.15.73.

No abstract available.

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Poster Presentations. Regen Med. 2015;10(7):S96-S296doi: 10.2217/rme.15.73.
(2015). Poster Presentations. Regenerative medicine, 10(7), S96-S296. https://doi.org/10.2217/rme.15.73
"Poster Presentations." Regenerative medicine vol. 10,7 (2015): S96-S296. doi: https://doi.org/10.2217/rme.15.73
Poster Presentations. Regen Med. 2015;10(7):S96-S296. doi: 10.2217/rme.15.73. PMID: 26488890.
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Keynote Lectures.

Regenerative medicine

[No authors listed]
PMID: 26488888
Regen Med. 2015;10(7):S1-S11. doi: 10.2217/rme.15.71.

No abstract available.

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Keynote Lectures. Regen Med. 2015;10(7):S1-S11doi: 10.2217/rme.15.71.
(2015). Keynote Lectures. Regenerative medicine, 10(7), S1-S11. https://doi.org/10.2217/rme.15.71
"Keynote Lectures." Regenerative medicine vol. 10,7 (2015): S1-S11. doi: https://doi.org/10.2217/rme.15.71
Keynote Lectures. Regen Med. 2015;10(7):S1-S11. doi: 10.2217/rme.15.71. PMID: 26488888.
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Open for business: a comparative study of websites selling autologous stem cells in Australia and Japan.

Regenerative medicine

Munsie M, Lysaght T, Hendl T, Tan HL, Kerridge I, Stewart C.
PMID: 29125016
Regen Med. 2017 Oct;12(7):777-790. doi: 10.2217/rme-2017-0070. Epub 2017 Nov 10.

No abstract available.

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Munsie M, Lysaght T, Hendl T, et al. Open for business: a comparative study of websites selling autologous stem cells in Australia and Japan. Regen Med. 2017;12(7):777-790doi: 10.2217/rme-2017-0070.
Munsie, M., Lysaght, T., Hendl, T., Tan, H. L., Kerridge, I., & Stewart, C. (2017). Open for business: a comparative study of websites selling autologous stem cells in Australia and Japan. Regenerative medicine, 12(7), 777-790. https://doi.org/10.2217/rme-2017-0070
Munsie, Megan, et al. "Open for business: a comparative study of websites selling autologous stem cells in Australia and Japan." Regenerative medicine vol. 12,7 (2017): 777-790. doi: https://doi.org/10.2217/rme-2017-0070
Munsie M, Lysaght T, Hendl T, Tan HL, Kerridge I, Stewart C. Open for business: a comparative study of websites selling autologous stem cells in Australia and Japan. Regen Med. 2017 Oct;12(7):777-790. doi: 10.2217/rme-2017-0070. Epub 2017 Nov 10. PMID: 29125016.
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Human induced pluripotent stem cell for modeling cardiovascular diseases.

Regenerative medicine research

Liang P, Du J.
PMID: 25984332
Regen Med Res. 2014 Feb 05;2(1):4. doi: 10.1186/2050-490X-2-4. eCollection 2014 Dec.

The invention of the induced pluripotent stem cell (iPSC) technology allows patient-specific, mature somatic cells to be converted into an unlimited supply of pluripotent stem cells (PSCs). These iPSCs can then in turn be differentiated into any cell type...

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Liang P, Du J. Human induced pluripotent stem cell for modeling cardiovascular diseases. Regen Med Res. 2014;2(1):4doi: 10.1186/2050-490X-2-4.
Liang, P., & Du, J. (2014). Human induced pluripotent stem cell for modeling cardiovascular diseases. Regenerative medicine research, 2(1), 4. https://doi.org/10.1186/2050-490X-2-4
Liang, Ping, and Du, Jie. "Human induced pluripotent stem cell for modeling cardiovascular diseases." Regenerative medicine research vol. 2,1 (2014): 4. doi: https://doi.org/10.1186/2050-490X-2-4
Liang P, Du J. Human induced pluripotent stem cell for modeling cardiovascular diseases. Regen Med Res. 2014 Feb 05;2(1):4. doi: 10.1186/2050-490X-2-4. eCollection 2014 Dec. PMID: 25984332; PMCID: PMC4389800.
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Current status of induced pluripotent stem cells in cardiac tissue regeneration and engineering.

Regenerative medicine research

Liu Z, Zhou J, Wang H, Zhao M, Wang C.
PMID: 25984325
Regen Med Res. 2013 Nov 08;1(1):6. doi: 10.1186/2050-490X-1-6. eCollection 2013 Dec.

Myocardial infarction (MI) is associated with damage to the myocardium which results in a great loss of functional cardiomyocytes. As one of the most terminally differentiated organs, the endogenous regenerative potentials of adult hearts are extremely limited and insufficient...

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Liu Z, Zhou J, Wang H, et al. Current status of induced pluripotent stem cells in cardiac tissue regeneration and engineering. Regen Med Res. 2013;1(1):6doi: 10.1186/2050-490X-1-6.
Liu, Z., Zhou, J., Wang, H., Zhao, M., & Wang, C. (2013). Current status of induced pluripotent stem cells in cardiac tissue regeneration and engineering. Regenerative medicine research, 1(1), 6. https://doi.org/10.1186/2050-490X-1-6
Liu, Zhiqiang, et al. "Current status of induced pluripotent stem cells in cardiac tissue regeneration and engineering." Regenerative medicine research vol. 1,1 (2013): 6. doi: https://doi.org/10.1186/2050-490X-1-6
Liu Z, Zhou J, Wang H, Zhao M, Wang C. Current status of induced pluripotent stem cells in cardiac tissue regeneration and engineering. Regen Med Res. 2013 Nov 08;1(1):6. doi: 10.1186/2050-490X-1-6. eCollection 2013 Dec. PMID: 25984325; PMCID: PMC4376510.
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Expression of tropomyosin in relation to myofibrillogenesis in axolotl hearts.

Regenerative medicine research

Zajdel RW, McLean MD, Dube S, Dube DK.
PMID: 25984327
Regen Med Res. 2013 Dec 04;1(1):8. doi: 10.1186/2050-490X-1-8. eCollection 2013 Dec.

The anatomy, function and embryonic development of the heart have been of interest to clinicians and researchers alike for centuries. A beating heart is one of the key criteria in defining life or death in humans. An understanding of...

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Zajdel RW, McLean MD, Dube S, et al. Expression of tropomyosin in relation to myofibrillogenesis in axolotl hearts. Regen Med Res. 2013;1(1):8doi: 10.1186/2050-490X-1-8.
Zajdel, R. W., McLean, M. D., Dube, S., & Dube, D. K. (2013). Expression of tropomyosin in relation to myofibrillogenesis in axolotl hearts. Regenerative medicine research, 1(1), 8. https://doi.org/10.1186/2050-490X-1-8
Zajdel, Robert W, et al. "Expression of tropomyosin in relation to myofibrillogenesis in axolotl hearts." Regenerative medicine research vol. 1,1 (2013): 8. doi: https://doi.org/10.1186/2050-490X-1-8
Zajdel RW, McLean MD, Dube S, Dube DK. Expression of tropomyosin in relation to myofibrillogenesis in axolotl hearts. Regen Med Res. 2013 Dec 04;1(1):8. doi: 10.1186/2050-490X-1-8. eCollection 2013 Dec. PMID: 25984327; PMCID: PMC4431041.
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Isolation and Purification of Satellite Cells for Skeletal Muscle Tissue Engineering.

Journal of regenerative medicine

Syverud BC, Lee JD, VanDusen KW, Larkin LM.
PMID: 26413555
J Regen Med. 2014;3(2). doi: 10.4172/2325-9620.1000117.

Engineered skeletal muscle holds promise as a source of graft tissue for the repair of traumatic injuries such as volumetric muscle loss. The resident skeletal muscle stem cell, the satellite cell, has been identified as an ideal progenitor for...

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Syverud BC, Lee JD, VanDusen KW, et al. Isolation and Purification of Satellite Cells for Skeletal Muscle Tissue Engineering. J Regen Med. 2014;3(2)doi: 10.4172/2325-9620.1000117.
Syverud, B. C., Lee, J. D., VanDusen, K. W., & Larkin, L. M. (2014). Isolation and Purification of Satellite Cells for Skeletal Muscle Tissue Engineering. Journal of regenerative medicine, 3(2), . https://doi.org/10.4172/2325-9620.1000117
Syverud, Brian C, et al. "Isolation and Purification of Satellite Cells for Skeletal Muscle Tissue Engineering." Journal of regenerative medicine vol. 3,2 (2014). doi: https://doi.org/10.4172/2325-9620.1000117
Syverud BC, Lee JD, VanDusen KW, Larkin LM. Isolation and Purification of Satellite Cells for Skeletal Muscle Tissue Engineering. J Regen Med. 2014;3(2). doi: 10.4172/2325-9620.1000117. PMID: 26413555; PMCID: PMC4582791.
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Extracellular HSP60 triggers tissue regeneration and wound healing by regulating inflammation and cell proliferation.

NPJ Regenerative medicine

Pei W, Tanaka K, Huang SC, Xu L, Liu B, Sinclair J, Idol J, Varshney GK, Huang H, Lin S, Nussenblatt RB, Mori R, Burgess SM.
PMID: 28936359
NPJ Regen Med. 2016;1. doi: 10.1038/npjregenmed.2016.13. Epub 2016 Oct 27.

After injury, zebrafish can restore many tissues that do not regenerate well in mammals, making it a useful vertebrate model for studying regenerative biology. We performed a systematic screen to identify genes essential for hair cell regeneration in zebrafish,...

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Pei W, Tanaka K, Huang SC, et al. Extracellular HSP60 triggers tissue regeneration and wound healing by regulating inflammation and cell proliferation. NPJ Regen Med. 2016;1doi: 10.1038/npjregenmed.2016.13.
Pei, W., Tanaka, K., Huang, S. C., Xu, L., Liu, B., Sinclair, J., Idol, J., Varshney, G. K., Huang, H., Lin, S., Nussenblatt, R. B., Mori, R., & Burgess, S. M. (2016). Extracellular HSP60 triggers tissue regeneration and wound healing by regulating inflammation and cell proliferation. NPJ Regenerative medicine, 1. https://doi.org/10.1038/npjregenmed.2016.13
Pei, Wuhong, et al. "Extracellular HSP60 triggers tissue regeneration and wound healing by regulating inflammation and cell proliferation." NPJ Regenerative medicine vol. 1 (2016). doi: https://doi.org/10.1038/npjregenmed.2016.13
Pei W, Tanaka K, Huang SC, Xu L, Liu B, Sinclair J, Idol J, Varshney GK, Huang H, Lin S, Nussenblatt RB, Mori R, Burgess SM. Extracellular HSP60 triggers tissue regeneration and wound healing by regulating inflammation and cell proliferation. NPJ Regen Med. 2016;1. doi: 10.1038/npjregenmed.2016.13. Epub 2016 Oct 27. PMID: 28936359; PMCID: PMC5605149.
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Showing 1 to 12 of 1344 entries