Stem Cell Scaffolds for the Treatment of Spinal Cord Injury—A Review

Hey, Grace; Willman, Matthew; Patel, Aashay; Goutnik, Michael; Willman, Jonathan; Lucke-Wold, Brandon

doi:10.3390/biomechanics3030028

Cited by 10 publications

(7 citation statements)

References 148 publications

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“…47 Many of these natural polymer scaffolds are abundant in nature, and dissemination strategies to equip LMICs with these options for SCI treatment should be considered as clinical translational studies progress. 47 Similar approaches may be considered for transcutaneous neuromodulation, which has been demonstrated as a low-cost, noninvasive treatment for SCI symptoms, particularly neurogenic lower urinary tract dysfunction. 48 As previously mentioned, telemedicine for SCI patients in LMICs has shown an ability to improve quality of life, functional scores, and depression scores.…”

Section: Discussionmentioning

confidence: 99%

Social Determinants of Health Impact Spinal Cord Injury Outcomes in Low- and Middle-Income Countries: A Meta-Epidemiological Study

Covell,

Naik,

Shaffer

et al. 2023

Neurosurgery

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BACKGROUND AND OBJECTIVES: Traumatic spinal cord injuries (SCI), which disproportionally occur in low- and middle-income countries (LMICs), pose a significant global health challenge. Despite the prevalence and severity of SCI in these settings, access to appropriate surgical care and barriers to treatment remain poorly understood on a global scale, with data from LMICs being particularly scarce and underreported. This study sought to examine the impact of social determinants of health (SDoH) on the pooled in-hospital and follow-up mortality, and neurological outcomes, after SCI in LMICs. METHODS: A systematic review was conducted in adherence to the Preferred Reporting in Systematic Review and Meta-Analysis-guidelines. Multivariable analysis was performed by multivariable linear regression, investigating the impact of the parameters of interest (patient demographics, country SDoH characteristics) on major patient outcomes (in-hospital/follow-up mortality, neurological dysfunction). RESULTS: Forty-five (N = 45) studies were included for analysis, representing 13 individual countries and 18 134 total patients. The aggregate pooled in-hospital mortality rate was 6.46% and 17.29% at follow-up. The in-hospital severe neurological dysfunction rate was 97.64% and 57.36% at follow-up. Patients with rural injury had a nearly 4 times greater rate of severe in-hospital neurological deficits than patients in urban areas. The Gini index, reflective of income inequality, was associated with a 23.8% increase in in-hospital mortality, a 20.1% decrease in neurological dysfunction at follow-up, and a 12.9% increase in mortality at follow-up. CONCLUSION: This study demonstrates the prevalence of injury and impact of SDoH on major patient outcomes after SCI in LMICs. Future initiatives may use these findings to design global solutions for more equitable care of patients with SCI.

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Section: Discussionmentioning

confidence: 99%

Social Determinants of Health Impact Spinal Cord Injury Outcomes in Low- and Middle-Income Countries: A Meta-Epidemiological Study

Covell,

Naik,

Shaffer

et al. 2023

Neurosurgery

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“…MSCs have been utilised in the therapeutic management of diverse diseases, encompassing musculoskeletal disorders, neurodegenerative diseases, shock, and tumors 31–33 . MSCs are commonly employed for the repair of tissues or organs through cell transplantation 34 . They serve as scaffolds to provide viable cells or bioactive molecules.…”

Section: Discussionmentioning

confidence: 99%

Selective cargo sorting in stem cell‐derived small extracellular vesicles: impact on therapeutic efficacy for intervertebral disc degeneration

Liao,

Tong,

Zhang

et al. 2023

Clinical & Translational Med

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BackgroundGrowing evidence has suggested the role of stem cell‐derived small extracellular vesicles (sEVs) in intervertebral disc degeneration (IVDD). The cargo sorting of sEVs, particularly miRNAs, may be influenced when the donor cell is subjected to oxidative stress. Here, we discovered that miRNAs containing specific motifs are selectively sorted into intraluminal vesicles within mesenchymal stem cells (MSCs) in response to oxidative stress.MethodsAnalysis of miRNA cargoes in sEVs derived from normal MSCs (C‐sEVs) or stressed MSCs (T‐sEVs) was conducted using miRNA sequencing. Differential expressed miRNAs in sEVs and the identification of motifs were evaluated through bioinformatics analysis. Protein binding was assessed using immunofluorescent staining and immunoprecipitation analysis. Additionally, RNA pull down and RNA immunoprecipitation (RIP) immunoprecipitation were employed to determine the binding between miRNAs and proteins. The effects of C‐sEVs and T‐sEVs on IVDD were compared by detecting the expression levels of phenotypic genes in vitro or histological evaluation in vivo.ResultsThe sorting process of miRNAs is mediated by the nucleocytoplasmic transport of heterogeneous nuclear ribonucleoproteins, which in turn facilitates the phosphorylation of SNAP25 and promotes the transport and secretion of sEVs. Additionally, CHMP1B plays a role in membrane repair and protects against cell ferroptosis upon oxidative stress, concurrently affecting the release of sEVs. Notably, stem cell‐derived sEVs associated with ferroptosis impair the therapeutic efficacy for IVDD. However, the application of engineered sEVs containing a specific miRNA inhibitor exhibits the potential to reinstate the therapeutic efficacy for IVDD both in vitro and in vivo.ConclusionsTaken together, our findings shed light on the mechanism of miRNAs sorting into sEVs and offer new insights for the optimization of sEV‐based treatments during intervertebral disc regeneration. regeneration.

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“…Currently, cutting-edge approaches to neural regeneration and functional restoration post-SCI are multi-pronged and propose using various combinations of supportive TES with cell therapies (Figure 1), including cell therapy utilizing induced pluripotent stem cells (iPSCs) or directly reprogrammed neural precursor/progenitor cells (drNPCs), electrical epidural stimulation, and the application of bio-active compounds modulating molecular pathways critical for tissue regeneration and its normal functioning [25][26][27]. TES transplanted to the lesion site provide mechanical support to the tissue, can be used as a drug delivery system, might have conductive properties, and guides cell differentiation, proliferation and migration.…”

Section: Therapeutic Approaches To Scimentioning

confidence: 99%

“…This brings to our discussion another tool of post-SCI neuroregenerative therapy-TES. Indeed, in the past few years there seems to have been a steady increase in reports focusing on TES for successful neuroregeneration [117], including SC incorporating TES for SCI treatment (as comprehensively reviewed in [27]). Such TES should meet several requirements: briefly, they have to be biodegradable (allowing for their substitution with tissue), bio-compatible, and bio-mimetic, i.e., recapitulating key properties of the neural tissue, for example, conductivity [29].…”

Section: Strategies To Increase Efficiency Of Direct Reprogramming To...mentioning

confidence: 99%

Improving Efficiency of Direct Pro-Neural Reprogramming: Much-Needed Aid for Neuroregeneration in Spinal Cord Injury

Chudakova,

Samoilova,

Chekhonin

et al. 2023

Cells

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Spinal cord injury (SCI) is a medical condition affecting ~2.5–4 million people worldwide. The conventional therapy for SCI fails to restore the lost spinal cord functions; thus, novel therapies are needed. Recent breakthroughs in stem cell biology and cell reprogramming revolutionized the field. Of them, the use of neural progenitor cells (NPCs) directly reprogrammed from non-neuronal somatic cells without transitioning through a pluripotent state is a particularly attractive strategy. This allows to “scale up” NPCs in vitro and, via their transplantation to the lesion area, partially compensate for the limited regenerative plasticity of the adult spinal cord in humans. As recently demonstrated in non-human primates, implanted NPCs contribute to the functional improvement of the spinal cord after injury, and works in other animal models of SCI also confirm their therapeutic value. However, direct reprogramming still remains a challenge in many aspects; one of them is low efficiency, which prevents it from finding its place in clinics yet. In this review, we describe new insights that recent works brought to the field, such as novel targets (mitochondria, nucleoli, G-quadruplexes, and others), tools, and approaches (mechanotransduction and electrical stimulation) for direct pro-neural reprogramming, including potential ones yet to be tested.

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Stem Cell Scaffolds for the Treatment of Spinal Cord Injury—A Review

Cited by 10 publications

References 148 publications

Social Determinants of Health Impact Spinal Cord Injury Outcomes in Low- and Middle-Income Countries: A Meta-Epidemiological Study

Social Determinants of Health Impact Spinal Cord Injury Outcomes in Low- and Middle-Income Countries: A Meta-Epidemiological Study

Selective cargo sorting in stem cell‐derived small extracellular vesicles: impact on therapeutic efficacy for intervertebral disc degeneration

Improving Efficiency of Direct Pro-Neural Reprogramming: Much-Needed Aid for Neuroregeneration in Spinal Cord Injury

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