Umbilical Cord Mesenchymal Stem Cells Promoting Spinal Cord Injury Repair Visually Monitored by AIE‐Tat Nanoparticles

Xie, Peigen; Ling, Haiqian; Pang, Mao; He, Lei; Zhuang, Zeyan; Zhang, Guiling; Chen, Zihao; Weng, Chuanggui; Cheng, Sijin; Jiao, Ju; Zhao, Zujin; Tang, Ben Zhong; Rong, Limin

doi:10.1002/adtp.202200076

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Treatment Strategies For Spinal Cord Injury1

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2023

2024

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Cited by 4 publications

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“…7 b) [ 121 ]. Similarly, Xie et al reported that transplantation of umbilical cord MSCs could effectively promote SCI repair [ 125 ]. Yao et al fabricated microfibers of 3D MSCs through electrospinning in spun cell cultures to mimic neural tissues and facilitate their integration with host tissues.…”

Section: Treatment Strategies For Spinal Cord Injurymentioning

confidence: 99%

Hydrogel-based treatments for spinal cord injuries

Jia,

Zeng,

et al. 2023

Heliyon

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Section: Treatment Strategies For Spinal Cord Injurymentioning

confidence: 99%

Hydrogel-based treatments for spinal cord injuries

Jia,

Zeng,

et al. 2023

Heliyon

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“…The results showed no adverse effects as well as SCI recovery showed by histopathological and behavioral rehabilitation results. Moreover, the cells were able to conserve the cell viability in microenvironments with highly reactive oxygen species and produce nerve growth factors [ 132 ].…”

Section: Introductionmentioning

confidence: 99%

Clinical utility of mesenchymal stem/stromal cells in regenerative medicine and cellular therapy

et al. 2023

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Mesenchymal stem/stromal cells (MSCs) have been carefully examined to have tremendous potential in regenerative medicine. With their immunomodulatory and regenerative properties, MSCs have numerous applications within the clinical sector. MSCs have the properties of multilineage differentiation, paracrine signaling, and can be isolated from various tissues, which makes them a key candidate for applications in numerous organ systems. To accentuate the importance of MSC therapy for a range of clinical indications, this review highlights MSC-specific studies on the musculoskeletal, nervous, cardiovascular, and immune systems where most trials are reported. Furthermore, an updated list of the different types of MSCs used in clinical trials, as well as the key characteristics of each type of MSCs are included. Many of the studies mentioned revolve around the properties of MSC, such as exosome usage and MSC co-cultures with other cell types. It is worth noting that MSC clinical usage is not limited to these four systems, and MSCs continue to be tested to repair, regenerate, or modulate other diseased or injured organ systems. This review provides an updated compilation of MSCs in clinical trials that paves the way for improvement in the field of MSC therapy.

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