Your search keyword '"Khazaei, Mohamad"' showing total 49 results

1. Direct Reprogramming Strategies for the Treatment of Nervous System Injuries and Neurodegenerative Disorders

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Pieczonka, Katarzyna, McIntyre, William Brett, Khazaei, Mohamad, Fehlings, Michael G., Atoui, Rony, Section editor, Alvarez-Viejo, Maria, Section editor, Haider, Khawaja H., Section editor, and Haider, Khawaja Husnain, editor more...

Published

2022

2. Assessment of immune modulation strategies to enhance survival and integration of human neural progenitor cells in rodent models of spinal cord injury.

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Lou, Zijian, Post, Alex, Nagoshi, Narihito, Hong, James, Hejrati, Nader, Chio, Jonathon Chon Teng, Khazaei, Mohamad, and Fehlings, Michael G

Published

2025

3. Research applications of induced pluripotent stem cells for treatment and modeling of spinal cord injury

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Pieczonka, Katarzyna, primary, McIntyre, William Brett, additional, Robinson, Edward, additional, Khazaei, Mohamad, additional, and Fehlings, Michael G., additional

Published

2022

4. List of contributors

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Barragán-Álvarez, C.P., primary, Bernardini, Laura, additional, Boeshore, Kristen L., additional, Busch, Shana N., additional, Calvert, Ben A., additional, Casamassa, Alessia, additional, Cheuk, Brandon S., additional, Cota-Coronado, A., additional, D'Anzi, Angela, additional, Díaz-Martínez, N.E., additional, Du, Yiqin, additional, Fehlings, Michael G., additional, Ferrari, Daniela, additional, Freed, William J., additional, Ghosh, Sabrina, additional, Giadone, Richard M., additional, Hoffmann, Anke, additional, Hsu, Che-Yu, additional, Hung-Fat, T.S.E., additional, Jazouli, Zhour, additional, Kalatzis, Vasiliki, additional, Khazaei, Mohamad, additional, Koc-Gunel, Sinem, additional, Kumar, Ajay, additional, Kwong-Man, N.G., additional, Lee, Chun-Ting, additional, Lorenzana, Zareeb, additional, Makiyama, Takeru, additional, McIntyre, William Brett, additional, Murphy, George J., additional, Ordonez, M. Paulina, additional, Padilla-Camberos, E., additional, Pieczonka, Katarzyna, additional, Quiroz, Erik J., additional, Robinson, Edward, additional, Rosati, Jessica, additional, Ryan, Amy L., additional, Senger, Christiana N., additional, Spengler, Dietmar, additional, Steele, John, additional, Tata, Ada Maria, additional, Torriano, Simona, additional, Valadez-Barba, V., additional, Vescovi, Angelo Luigi, additional, Xinru, R.A.N., additional, Yiu-Lam, T.S.E., additional, Y. Wu, Emma, additional, and Ziller, Michael J., additional more...

Published

2022

5. Human Oligodendrogenic Neural Progenitor Cells Delivered with Chondroitinase ABC Facilitate Functional Repair of Chronic Spinal Cord Injury

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Nori, Satoshi, Khazaei, Mohamad, Ahuja, Christopher S., Yokota, Kazuya, Ahlfors, Jan-Eric, Liu, Yang, Wang, Jian, Shibata, Shinsuke, Chio, Jonathon, Hettiaratchi, Marian H., Führmann, Tobias, Shoichet, Molly S., and Fehlings, Michael G. more...

Published

2018

6. Longitudinal Magnetic Resonance Imaging Tracking of Transplanted Neural Progenitor Cells in the Spinal Cord Utilizing the Bright-Ferritin Mechanism.

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Luo, Zixiang, Zhuang, Keyu, Kim, Seong Jun, Vollett, Kyle D W, Lou, Zijian, Wang, Jian, Cheng, Hai-Ying Mary, Khazaei, Mohamad, Fehlings, Michael G, and Cheng, Hai-Ling Margaret

Published

2024

7. Human Spinal Oligodendrogenic Neural Progenitor Cells Enhance Pathophysiological Outcomes and Functional Recovery in a Clinically Relevant Cervical Spinal Cord Injury Rat Model

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Pieczonka, Katarzyna, primary, Nakashima, Hiroaki, additional, Nagoshi, Narihito, additional, Yokota, Kazuya, additional, Hong, James, additional, Badner, Anna, additional, Chio, Jonathon C T, additional, Shibata, Shinsuke, additional, Khazaei, Mohamad, additional, and Fehlings, Michael G, additional more...

Published

2023

8. How can clinical safety and efficacy concerns in stem cell therapy for spinal cord injury be overcome?

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Hejrati, Nader, primary, Wong, Raymond, additional, Khazaei, Mohamad, additional, and Fehlings, Michael G, additional

Published

2023

9. Generation of Definitive Neural Progenitor Cells from Human Pluripotent Stem Cells for Transplantation into Spinal Cord Injury

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Khazaei, Mohamad, primary, Ahuja, Christopher S., additional, Rodgers, Christopher E., additional, Chan, Priscilla, additional, and Fehlings, Michael G., additional

Published

2019

10. Examining the fundamental biology of a novel population of directly reprogrammed human neural precursor cells

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Ahlfors, Jan-Eric, Azimi, Ashkan, El-Ayoubi, Rouwayda, Velumian, Alexander, Vonderwalde, Ilan, Boscher, Cecile, Mihai, Oana, Mani, Sarathi, Samoilova, Marina, Khazaei, Mohamad, Fehlings, Michael G., and Morshead, Cindi M more...

Published

2019

11. Promoting the Differentiation of Neural Progenitor Cells into Oligodendrocytes through the Induction of Olig2 Expression: A Transcriptomic Study Using RNA-seq Analysis

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Pieczonka, Katarzyna, primary, Khazaei, Mohamad, additional, and Fehlings, Michael G., additional

Published

2023

12. Collapsin Response Mediator Protein 4 Regulates Growth Cone Dynamics through the Actin and Microtubule Cytoskeleton

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Khazaei, Mohamad R., Girouard, Marie-Pier, Alchini, Ricardo, Ong Tone, Stephan, Shimada, Tadayuki, Bechstedt, Susanne, Cowan, Mitra, Guillet, Dominique, Wiseman, Paul W., Brouhard, Gary, Cloutier, Jean Francois, and Fournier, Alyson E. more...

Published

2014

13. List of Contributors

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Author

Ahuja, Christopher S., primary, Alonso, Marta M., additional, Arvanian, Victor L., additional, Ayers, Jacob I., additional, Chakrabarty, Paramita, additional, Chaudhary, Rajeev K., additional, Chen, Zhiguo, additional, Czerniewski, Leah, additional, Duan, Dongsheng, additional, Fehlings, Michael G., additional, Fong, Dahna M., additional, Fueyo, Juan, additional, Fukuchi, Ken-ichiro, additional, Gao, Yandi, additional, Gomez-Manzano, Candelaria, additional, Han, Renzhi, additional, Han, Zongchao, additional, Hao, Shuanglin, additional, Holtzman, David M., additional, Joo, Kyeung M., additional, Joyce, Jillian L., additional, Kaplitt, Michael G., additional, Khazaei, Mohamad, additional, Kodippili, Kasun, additional, Kou, Jinghong, additional, Kraft, Andrew W., additional, Kügler, Sebastian, additional, Lalonde, Robert, additional, Lee, Jin-Moo, additional, Lee, Young E., additional, Li, Mingjie, additional, Marongiu, Roberta, additional, Martínez-Vélez, Naiara, additional, Patel, Kinjal A., additional, Patiño-García, Ana, additional, Paul, Sudhir, additional, Petrosyan, Hayk A., additional, Planque, Stephanie A., additional, Roh, JeeHoon, additional, Rosenthal, Zachary P., additional, Roy, Ipsita, additional, Siddiqui, Ahad M., additional, Snider, B. Joy, additional, Song, Min, additional, Wang, Shuyan, additional, Wood, Matthew D., additional, Wu, Angela, additional, Xu, Li, additional, Yang, Junling, additional, Young, Deborah, additional, and Zhang, Yu Alex, additional more...

Published

2018

14. Transplantation of Human-Induced Pluripotent Stem Cell-Derived Neural Precursor Cells for Treatment of Spinal Cord Injury

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Khazaei, Mohamad, primary, Ahuja, Christopher S., additional, Siddiqui, Ahad M., additional, and Fehlings, Michael G., additional

Published

2018

15. Chapter 11 - Research applications of induced pluripotent stem cells for treatment and modeling of spinal cord injury

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Author

Pieczonka, Katarzyna, McIntyre, William Brett, Robinson, Edward, Khazaei, Mohamad, and Fehlings, Michael G.

Published

2022

16. Cell–Cell Contact Mediates Gene Expression and Fate Choice of Human Neural Stem/Progenitor Cells

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McIntyre, William B., primary, Karimzadeh, Mehran, additional, Riazalhosseini, Yasser, additional, Khazaei, Mohamad, additional, and Fehlings, Michael G., additional

Published

2022

17. Administration of C5a Receptor Antagonist Improves the Efficacy of Human Induced Pluripotent Stem Cell–Derived Neural Stem/Progenitor Cell Transplantation in the Acute Phase of Spinal Cord Injury

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Shibata, Reo, primary, Nagoshi, Narihito, additional, Kajikawa, Keita, additional, Ito, Shuhei, additional, Shibata, Shinsuke, additional, Shindo, Tomoko, additional, Khazaei, Mohamad, additional, Nori, Satoshi, additional, Kohyama, Jun, additional, Fehlings, Michael G., additional, Matsumoto, Morio, additional, Nakamura, Masaya, additional, and Okano, Hideyuki, additional more...

Published

2022

18. Translating mechanisms of neuroprotection, regeneration, and repair to treatment of spinal cord injury

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Siddiqui, Ahad M., primary, Khazaei, Mohamad, additional, and Fehlings, Michael G., additional

Published

2015

19. Neural Progenitor Cells Expressing Herpes Simplex Virus-Thymidine Kinase for Ablation Have Differential Chemosensitivity to Brivudine and Ganciclovir

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Lou, Zijian, primary, Post, Alexander, additional, Rodgers, Christopher E., additional, Chamankhah, Mahmood, additional, Hong, James, additional, Ahuja, Christopher S., additional, Khazaei, Mohamad, additional, and Fehlings, Michael G., additional more...

Published

2021

20. In Vivo Neocortical [K]o Modulation by Targeted Stimulation of Astrocytes

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EbrahimAmini, Azin, primary, Mylvaganam, Shanthini, additional, Bazzigaluppi, Paolo, additional, Khazaei, Mohamad, additional, Velumian, Alexander, additional, Stefanovic, Bojana, additional, and Carlen, Peter L., additional more...

Published

2021

21. The Protein Kinase Inhibitor Midostaurin Improves Functional Neurological Recovery and Attenuates Inflammatory Changes Following Traumatic Cervical Spinal Cord Injury

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Zavvarian, Mohammad-Masoud, primary, Hong, James, additional, Khazaei, Mohamad, additional, Chio, Jonathon Chon Teng, additional, Wang, Jian, additional, Badner, Anna, additional, and Fehlings, Michael G., additional more...

Published

2021

22. Regenerative replacement of neural cells for treatment of spinal cord injury

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Author

McIntyre, William Brett, primary, Pieczonka, Katarzyna, additional, Khazaei, Mohamad, additional, and Fehlings, Michael G., additional

Published

2021

23. Bioengineered SMaRT Human Neural Stem Cells to Degrade Scar and Enhance Regeneration in Chronic Spinal Cord Injury

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Ahuja, Christopher S, primary, Khazaei, Mohamad, additional, Hong, James, additional, Senthilnathan, Vjura, additional, Hasan, Ali, additional, Dadabhoy, Maryam, additional, Gulati, Nitya, additional, Aiyar, Niharikaa, additional, Punjani, Nayaab, additional, Walji, Inaara, additional, Toossi, Amirali, additional, and Fehlings, Michael G, additional more...

Published

2020

24. The leading edge: Emerging neuroprotective and neuroregenerative cell-based therapies for spinal cord injury

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Author

Ahuja, Christopher S., primary, Mothe, Andrea, additional, Khazaei, Mohamad, additional, Badhiwala, Jetan H., additional, Gilbert, Emily A., additional, Kooy, Derek, additional, Morshead, Cindi M., additional, Tator, Charles, additional, and Fehlings, Michael G., additional more...

Published

2020

25. Administration of C5a Receptor Antagonist Improves the Efficacy of Human iPSCS-derived NS/PC Transplantation in the Acute Phase Of spinal Cord Injury

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Shibata, Reo, primary, Nagoshi, Narihito, additional, Kajikawa, Keita, additional, Ito, Shuhei, additional, Khazaei, Mohamad, additional, Nori, Satoshi, additional, Kohyama, Jun, additional, Fehlings, Michael G., additional, Matsumoto, Morio, additional, Nakamura, Masaya, additional, and Okano, Hideyuki, additional more...

Published

2020

26. Novel innovations in cell and gene therapies for spinal cord injury

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Author

Zavvarian, Mohammad-Masoud, primary, Toossi, Amirali, additional, Khazaei, Mohamad, additional, Hong, James, additional, and Fehlings, Michael, additional

Published

2020

27. Additional file 7: of Examining the fundamental biology of a novel population of directly reprogrammed human neural precursor cells

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Author

Jan-Eric Ahlfors, Ashkan Azimi, Rouwayda El-Ayoubi, Velumian, Alexander, Vonderwalde, Ilan, Boscher, Cecile, Mihai, Oana, Sarathi Mani, Samoilova, Marina, Khazaei, Mohamad, Fehlings, Michael, and Morshead, Cindi M more...

Subjects

nervous system

Abstract

Figure S7. drNPCs present in olfactory bulb express markers of neuronal differentiation. drNPCs transplanted into the SCID/Beige animals are present in the olfactory bulb at 1 month post-transplant and contain a subpopulation of NCAM-positive cells (white arrows). Scale bars = 10 μm. (PDF 831 kb) more...

Published

2019

28. Additional file 3: of Examining the fundamental biology of a novel population of directly reprogrammed human neural precursor cells

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Author

Jan-Eric Ahlfors, Ashkan Azimi, Rouwayda El-Ayoubi, Velumian, Alexander, Vonderwalde, Ilan, Boscher, Cecile, Mihai, Oana, Sarathi Mani, Samoilova, Marina, Khazaei, Mohamad, Fehlings, Michael, and Morshead, Cindi M more...

Abstract

Figure S3. drNPC differentiation in vitro. Differentiated drNPCs express increased levels of Map2 and Gfap mRNA compared to control drNPCs that were cultured in maintenance media. There was no change in Olig1 expression. Data are shown as mean ± SEM. n = 3 biological samples per cohort. Gene expression levels are relative to control drNPCs and normalized to the reference gene Gapdh. (PDF 111 kb) more...

Published

2019

29. Additional file 8: of Examining the fundamental biology of a novel population of directly reprogrammed human neural precursor cells

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Author

Jan-Eric Ahlfors, Ashkan Azimi, Rouwayda El-Ayoubi, Velumian, Alexander, Vonderwalde, Ilan, Boscher, Cecile, Mihai, Oana, Sarathi Mani, Samoilova, Marina, Khazaei, Mohamad, Fehlings, Michael, and Morshead, Cindi M more...

Subjects

body regions, sense organs, equipment and supplies, eye diseases

Abstract

Figure S8. Pixel colocalization analysis of cytoplasmic immunofluorescent staining. A: Co-localization measurement of cytoplasmic immunofluorescent staining in mouse brain cryosections. Zeiss Zen software was used to measure channel intensities of each immunofluorescently stained pixel and quantify a double positive pixel ratio in defined regions of interest. Threshold pixel intensities were adjusted first to non-labeled areas (Box 1), followed by fluorophore labeled secondary antibody backgrounds (Box 2) in the same section. Pixels of human cytoplasmic epitope-specific STEM121-labeled area (Box 3) was compared to STEM121-negative areas. The sample image, scatter plot of all three regions (Boxes 1, 2, and 3), and pixel measurements/co-localization coefficient are shown. (PDF 371 kb) more...

Published

2019

30. Additional file 2: of Examining the fundamental biology of a novel population of directly reprogrammed human neural precursor cells

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Author

Jan-Eric Ahlfors, Ashkan Azimi, Rouwayda El-Ayoubi, Velumian, Alexander, Vonderwalde, Ilan, Boscher, Cecile, Mihai, Oana, Sarathi Mani, Samoilova, Marina, Khazaei, Mohamad, Fehlings, Michael, and Morshead, Cindi M more...

Abstract

Figure S2. The synthetic plasmid used in reprogramming does not integrate into drNPCs. RT-qPCR analysis demonstrates the lack of any plasmid sequences in reprogrammed drNPCs. 4 different primer pairs were designed to detect plasmid sequence (PCRs 1-4) and 1 ubiquitous promotor primer pair was used as positive control. Samples studied were control template (determined to be ~â 10 copy numbers), untransfected BMCs, and 3 distinct samples of drNPCs (drNPC1-3) made from different starting cells. UDâ =â undetected. (PDF 137 kb) more...

Published

2019

31. Additional file 1: of Examining the fundamental biology of a novel population of directly reprogrammed human neural precursor cells

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Author

Jan-Eric Ahlfors, Ashkan Azimi, Rouwayda El-Ayoubi, Velumian, Alexander, Vonderwalde, Ilan, Boscher, Cecile, Mihai, Oana, Sarathi Mani, Samoilova, Marina, Khazaei, Mohamad, Fehlings, Michael, and Morshead, Cindi M more...

Subjects

nervous system, embryonic structures, fungi, food and beverages

Abstract

Figure S1. drNPCs can be generated from multiple starting cell populations. In addition to BMCs, drNPCs can be generated from other cell sources such human foreskin fibroblasts (HFF) and keratinocytes. The expression of neural markers Nestin, Sox2, and GFAP is only observed post-transfection (post-reprogramming). Scale bar = 100¾m. (PDF 365 kb) more...

Published

2019

32. Additional file 6: of Examining the fundamental biology of a novel population of directly reprogrammed human neural precursor cells

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Author

Jan-Eric Ahlfors, Ashkan Azimi, Rouwayda El-Ayoubi, Velumian, Alexander, Vonderwalde, Ilan, Boscher, Cecile, Mihai, Oana, Sarathi Mani, Samoilova, Marina, Khazaei, Mohamad, Fehlings, Michael, and Morshead, Cindi M more...

Subjects

nervous system, genetic structures, sense organs, equipment and supplies

Abstract

Figure S6. drNPC-derived spheres can be derived from monolayers and give rise to neurons and glia in vitro. Dissociating 80% confluent drNPC monolayers and plating them at 10 cells/μl density results in free-floating spheres within 7 days of culturing. Differentiating spheres for additional 7 days in the presence of serum will result in GFAP-positive astrocytes, Olig2-positive oligodendrocytes, and Tuj1-positive neurons. Scale bar = 100 μm. Representative bright field images of drNPC monolayer (left) and spheres (centre), and a representative IHC image of differentiated drNPC-derived spheres. (PDF 249 kb) more...

Published

2019

33. Additional file 4: of Examining the fundamental biology of a novel population of directly reprogrammed human neural precursor cells

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Author

Jan-Eric Ahlfors, Ashkan Azimi, Rouwayda El-Ayoubi, Velumian, Alexander, Vonderwalde, Ilan, Boscher, Cecile, Mihai, Oana, Sarathi Mani, Samoilova, Marina, Khazaei, Mohamad, Fehlings, Michael, and Morshead, Cindi M more...

Abstract

Figure S4. BMCs do not acquire NPC characteristic when placed in the neural stem cell culturing conditions in the absence of reprogramming. BMCs placed in the neural stem cell culturing conditions maintain expression of BMC-specific marker CD44 and Stro1 and do not acquire any NPC marker expression (Nestin, Pax6, Sox2). Early = 1–3 in vitro; mid = days 6–7 in vitro; late = days 14–16 in vitro. Nuclei stained with Hoechst (blue). Scale bar = 100 μm. (PDF 496 kb) more...

Published

2019

34. Chapter 16 - Transplantation of Human-Induced Pluripotent Stem Cell-Derived Neural Precursor Cells for Treatment of Spinal Cord Injury

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Author

Khazaei, Mohamad, Ahuja, Christopher S., Siddiqui, Ahad M., and Fehlings, Michael G.

Published

2018

35. Collapsin Response Mediator Protein 4 (CRMP4) Facilitates Wallerian Degeneration and Axon Regeneration following Sciatic Nerve Injury

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Author

Girouard, Marie-Pier, primary, Simas, Tristan, additional, Hua, Luyang, additional, Morquette, Barbara, additional, Khazaei, Mohamad R., additional, Unsain, Nicolas, additional, Johnstone, Aaron D., additional, Rambaldi, Isabel, additional, Sanz, Ricardo L., additional, Di Raddo, Marie-Eve, additional, Gamage, Kanchana K., additional, Yong, Yu, additional, Willis, Dianna E., additional, Verge, Valerie M. K., additional, Barker, Philip A., additional, Deppmann, Christopher, additional, and Fournier, Alyson E., additional more...

Published

2020

36. GDNF rescues the fate of neural progenitor grafts by attenuating Notch signals in the injured spinal cord in rodents

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Author

Khazaei, Mohamad, primary, Ahuja, Christopher S., additional, Nakashima, Hiroaki, additional, Nagoshi, Narihito, additional, Li, Lijun, additional, Wang, Jian, additional, Chio, Jonathon, additional, Badner, Anna, additional, Seligman, David, additional, Ichise, Ayaka, additional, Shibata, Shinsuke, additional, and Fehlings, Michael G., additional more...

Published

2020

37. Severe-combined immunodeficient rats can be used to generate a model of perinatal hypoxic-ischemic brain injury to facilitate studies of engrafted human neural stem cells

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Author

Beldick, Stephanie R., primary, Hong, James, additional, Altamentova, Svetlana, additional, Khazaei, Mohamad, additional, Hundal, Anisha, additional, Zavvarian, Mohammad-Masoud, additional, Rumajogee, Prakasham, additional, Chio, Jonathon, additional, and Fehlings, Michael G., additional more...

Published

2018

38. Exogenous Neural Precursor Cell Transplantation Results in Structural and Functional Recovery in a Hypoxic-Ischemic Hemiplegic Mouse Model

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Author

Rumajogee, Prakasham, primary, Altamentova, Svetlana, additional, Li, Lijun, additional, Li, Junyi, additional, Wang, Jian, additional, Kuurstra, Alan, additional, Khazaei, Mohamad, additional, Beldick, Stephanie, additional, Menon, Ravi S., additional, van der Kooy, Derek, additional, and Fehlings, Michael G., additional more...

Published

2018

39. Human Spinal Oligodendrogenic Neural Progenitor Cells Promote Functional Recovery After Spinal Cord Injury by Axonal Remyelination and Tissue Sparing

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Author

Nagoshi, Narihito, primary, Khazaei, Mohamad, additional, Ahlfors, Jan-Eric, additional, Ahuja, Christopher S., additional, Nori, Satoshi, additional, Wang, Jian, additional, Shibata, Shinsuke, additional, and Fehlings, Michael G., additional more...

Published

2018

40. Making Neurons from Human Stem Cells

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Author

Ahuja, Christopher S., primary, Khazaei, Mohamad, additional, Chan, Priscilla, additional, O’Higgins, Madeleine, additional, and Fehlings, Michael G., additional

Published

2018

41. Chapter 2 - Translating mechanisms of neuroprotection, regeneration, and repair to treatment of spinal cord injury

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Author

Siddiqui, Ahad M., Khazaei, Mohamad, and Fehlings, Michael G.

Published

2015

42. Generation of Oligodendrogenic Spinal Neural Progenitor Cells From Human Induced Pluripotent Stem Cells

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Author

Khazaei, Mohamad, primary, Ahuja, Christopher S., additional, and Fehlings, Michael G., additional

Published

2017

43. Induced Pluripotent Stem Cells for Traumatic Spinal Cord Injury

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Author

Khazaei, Mohamad, primary, Ahuja, Christopher S., additional, and Fehlings, Michael G., additional

Published

2017

44. Rewiring of spinal respiratory neural network via cervical glutamatergic interneurons preserves respiratory function in progressive cervical spinal cord compression injury (CSM)

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Author

Satkunendrarajah, Kajana, primary, Karadimas, Spyridon K, additional, Khazaei, Mohamad, additional, Samson, Patricia, additional, and Fehlings, Michael G, additional

Published

2016

45. The Potential for iPS-Derived Stem Cells as a Therapeutic Strategy for Spinal Cord Injury: Opportunities and Challenges

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Author

Khazaei, Mohamad, primary, Siddiqui, Ahad, additional, and Fehlings, Michael, additional

Published

2014

46. Smart Neural Stem Cells to Degrade Scar and Optimize Regeneration After Spinal Cord Injury.

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Author

Ahuja, Christopher, Khazaei, Mohamad, Chan, Priscilla, Zijian Lou, Yao Yao, Bhavsar, Jinil, and Fehlings, Michael

Published

2018

47. Additional file 5: of Examining the fundamental biology of a novel population of directly reprogrammed human neural precursor cells

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Author

Jan-Eric Ahlfors, Ashkan Azimi, Rouwayda El-Ayoubi, Velumian, Alexander, Vonderwalde, Ilan, Boscher, Cecile, Mihai, Oana, Sarathi Mani, Samoilova, Marina, Khazaei, Mohamad, Fehlings, Michael, and Morshead, Cindi M more...

Subjects

embryonic structures, 3. Good health

Abstract

Figure S5. Pluripotency markers are not expressed during reprogramming. BMCs reprogrammed to drNPCs were analyzed for pluripotency markers Nanog, Oct4, SSEA-1, and TRA1–81 during the reprogramming process over time. No expression of pluripotency markers was observed. Early = 1–3 in vitro; mid = days 6–7 in vitro; late = days 14–16 in vitro. Nuclei stained with Hoechst (blue). Scale bar = 100 μm. (PDF 562 kb) more...

48. Additional file 5: of Examining the fundamental biology of a novel population of directly reprogrammed human neural precursor cells

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Author

Jan-Eric Ahlfors, Ashkan Azimi, Rouwayda El-Ayoubi, Velumian, Alexander, Vonderwalde, Ilan, Boscher, Cecile, Mihai, Oana, Sarathi Mani, Samoilova, Marina, Khazaei, Mohamad, Fehlings, Michael, and Morshead, Cindi M more...

Subjects

embryonic structures, 3. Good health

Abstract

Figure S5. Pluripotency markers are not expressed during reprogramming. BMCs reprogrammed to drNPCs were analyzed for pluripotency markers Nanog, Oct4, SSEA-1, and TRA1–81 during the reprogramming process over time. No expression of pluripotency markers was observed. Early = 1–3 in vitro; mid = days 6–7 in vitro; late = days 14–16 in vitro. Nuclei stained with Hoechst (blue). Scale bar = 100 μm. (PDF 562 kb) more...

49. Generation of Definitive Neural Progenitor Cells from Human Pluripotent Stem Cells for Transplantation into Spinal Cord Injury.

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Author

Khazaei M, Ahuja CS, Rodgers CE, Chan P, and Fehlings MG

Subjects

Animals, Cell Culture Techniques, Cells, Cultured, Disease Models, Animal, Embryoid Bodies, Humans, Neural Stem Cells metabolism, Pluripotent Stem Cells metabolism, Rats, Receptors, Notch metabolism, Spinal Cord Injuries therapy, Cell Differentiation, Neural Stem Cells cytology, Pluripotent Stem Cells cytology, Stem Cell Transplantation

Abstract

In this chapter, we first describe two interchangeable protocols optimized in our lab for deriving definitive neuronal progenitor cells from human pluripotent stem cells (hPSCs). The resultant NPCs can then be propagated and differentiated to produce differing proportions of neurons, oligodendrocytes, and astrocytes as required for in vitro cell culture studies or in vivo transplantation. Following these protocols, we explain the method for transplanting these cells into the rat model of spinal cord injury (SCI). more...

Published

2019