Moradi Mehrnaz, Najibi Amirhossein, Moshfeghinia Reza, Heidarian Afshin, Moradi Mehrpour, Fehlings Michael G
Fasa Neuroscience Circle (FNC), Student Research Committee, Fasa University of Medical Sciences, Fasa, Iran.
Student Research Committee, Shiraz University of Medical Sciences, Shiraz, Iran; Research Center for Psychiatry and Behavioral Sciences, Shiraz University of Medical Sciences, Shiraz, Iran; Substance Abuse Research Center, Shiraz University of Medical Sciences, Shiraz, Iran.
Spine J. 2025 Jul 11. doi: 10.1016/j.spinee.2025.07.030.
Despite advances in the medical, surgical and rehabilitation treatment of spinal cord injury (SCI), there remains a need to develop therapeutic strategies to address mechanisms of secondary injury. Numerous preclinical studies have investigated the efficacy of deferoxamine, an iron chelating agent, in improving functional outcomes in SCI models. Anti-inflammatory, anti-ferroptosis, and lipoperoxidation inhibitory mechanisms have been proposed as the underlying mechanisms of action.
Considering preclinical studies are the gate to translational medicine, we present a quantitative synthesis of the existing literature to shed light on gaps and guide future research in neuroprotection for SCI.
Meta-analysis of preclinical studies involving the use of deferoxamine in in-vivo models of traumatic SCI, regardless of level of injury and/or animal species.
We conducted a comprehensive search in three databases (PubMed, Web of Science, Scopus) in accordance with PRISMA guidelines. Our review protocol was preregistered (PROSPERO registration ID: CRD420251007113). Ten preclinical studies that investigated deferoxamine administration and functional outcomes in animal models of SCI were chosen. We performed a meta-analysis, using a random effects approach, comparing normalized mean differences in deferoxamine-treated and control groups. To minimize heterogeneity, subgroup analysis and meta regression were conducted. We utilized the CAMARADES checklist for quality assessment of the included studies.
Out of 157 articles, 10 were included for final analysis. Our results revealed that deferoxamine can improve functional scores in animal models of thoracic traumatic SCI (NMD=35.74% [18.74, 52.75]; p<.001). The funnel plot was symmetric and no publication bias was noted. Heterogeneity was high among included studies (I²: 95.98). The median score for CAMARADES was five (IQR range: 4-6), indicating moderate overall quality of include studies. Sample size calculation and allocation concealment were lacking in included studies. Meta regression was significant for assessment time (Coefficient: -0.574 [-0.905, -0.242]) and route of administration.
We demonstrated that deferoxamine improves hindlimb motor function in animal models of SCI. Potential knowledge gaps exist, necessitating future animal studies across a more diverse range of injury levels and functional assessment tools before moving on to conducting clinical trials. Assessment time may play a critical role in preclinical models and needs to be adjusted to clinically plausible time points in future studies. More inter-species preclinical research, especially in nonhuman primates, is encouraged to foster generalizability and clinical applicability of the models.
Approved medical interventions for neuroprotection in SCI are lacking. Given the promising results of the included preclinical studies as well as the established clinical safety profile of deferoxamine, our paper provides a basic science foundation for the design and implementation of future randomized controlled trials. Notwithstanding, these trials may be withheld or approached with caution until more extensive preclinical research is available.
尽管脊髓损伤(SCI)的医学、外科和康复治疗取得了进展,但仍需要制定治疗策略来应对继发性损伤机制。大量临床前研究调查了铁螯合剂去铁胺在改善SCI模型功能结局方面的疗效。抗炎、抗铁死亡和抑制脂质过氧化机制被认为是其潜在的作用机制。
鉴于临床前研究是转化医学的大门,我们对现有文献进行定量综合分析,以揭示差距并指导未来SCI神经保护研究。
对涉及在创伤性SCI体内模型中使用去铁胺的临床前研究进行荟萃分析,不考虑损伤水平和/或动物种类。
我们按照PRISMA指南在三个数据库(PubMed、Web of Science、Scopus)中进行了全面检索。我们的综述方案已预先注册(PROSPERO注册ID:CRD420251007113)。选择了10项调查去铁胺给药和SCI动物模型功能结局的临床前研究。我们采用随机效应方法进行荟萃分析,比较去铁胺治疗组和对照组的标准化平均差异。为了尽量减少异质性,进行了亚组分析和荟萃回归。我们使用CAMARADES清单对纳入研究进行质量评估。
在157篇文章中,10篇被纳入最终分析。我们的结果显示,去铁胺可改善胸段创伤性SCI动物模型的功能评分(标准化平均差=35.74%[18.74,52.75];p<0.001)。漏斗图对称,未发现发表偏倚。纳入研究之间的异质性较高(I²:95.98)。CAMARADES的中位数分数为5(四分位间距范围:4-6),表明纳入研究的总体质量中等。纳入研究缺乏样本量计算和分配隐藏。评估时间(系数:-0.574[-0.905,-0.242])和给药途径的荟萃回归具有显著性。
我们证明去铁胺可改善SCI动物模型的后肢运动功能。存在潜在的知识差距,在开展临床试验之前,需要在更多不同损伤水平和功能评估工具的动物研究。评估时间可能在临床前模型中起关键作用,在未来研究中需要调整到临床合理的时间点。鼓励开展更多种间临床前研究,尤其是在非人类灵长类动物中,以提高模型的普遍性和临床适用性。
目前缺乏批准用于SCI神经保护的医学干预措施。鉴于纳入的临床前研究取得了有前景的结果以及去铁胺已确立的临床安全性,我们的论文为未来随机对照试验的设计和实施提供了基础科学依据。尽管如此,在有更广泛的临床前研究之前,这些试验可能会被推迟或谨慎进行。
