Effective Application of Biocompatible Magnetite Nanoparticles in the Treatment of Multiple Sclerosis: Results of a Clinical Study

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Abstract

Multiple sclerosis (MS) is a serious neurological disorder due to its widespread prevalence, chronic nature, frequent progression to disability, and tendency to affect young people. The pathogenesis of MS is based on the immunopathogenesis hypothesis. Biocompatible magnetite nanoparticles, which exhibit selective sorption activity towards cell membrane surface proteins, circulating immune com-plexes, lymphocytotoxic antibodies, and the complement system, as well as enhance phagocytic ac-tivity and the completion index of leukocyte phagocytosis, can be effectively used for immunocor-rection. The main goal of the study is to slow the progression of MS, improve the neurological status and overall condition of the patient, and reduce the dynamics of the spread of demyelinating lesions in the brain. Materials and methods: A patient diagnosed with multiple sclerosis, secondary progres-sive type, cerebrospinal form, at the clinical aggravation stage was included in the study. Neurologi-cal status and disability were assessed using the EDSS scale, and brain MRI with contrast enhance-ment was performed. The nanodevice Micromage-B was administered orally as an immunosorbent and immunomodulator. The regimen and dosage of Micromage-B were personalized. Assessments of general condition and neurological status were conducted every 7 days for 6 months, with contrast-enhanced brain MRI performed in the 5th month. Results: The use of Micromage-B in MS treatment led to an objective improvement in neurological status, with reduced stiffness and fatigue in the lower extremities. Gait and coordination improved, hand tremors decreased, depression and concen-tration disorders subsided, appetite was restored, and speech improved. Throughout the treatment period, positive dynamics in the normalization of neurological status were observed. After 6 months, the total score on the EDSS scale decreased from 210 to 45. The most significant improvements were observed in the evaluation of the pyramidal system and coordination, with the EDSS Disability Scale score decreasing from 6.0 to 5.0. For the first time, contrast-enhanced brain MRI showed a reduction in the number of new demyelination foci by the 4th month of Micromage-B administra-tion. The positive changes in neurological status correlated with the MRI results. The recovery of central nervous system activity in MS is likely not only due to the immunosuppressive properties of magnetite nanoparticles but also due to the activation of remyelination mechanisms and oligoden-drocyte differentiation through enzymatic methylation. Conclusion: The use of biocompatible nanodevices in the complex treatment of MS is promising. Further improvement and study of the regimen and method of using biocompatible magnetite nanoparticles to enhance MS treatment effec-tiveness are required.
生物相容性磁铁矿纳米粒子在多发性硬化症治疗中的有效应用:临床研究结果
多发性硬化症(MS)是一种严重的神经系统疾病,因其广泛流行、慢性、经常发展为残疾以及易累及年轻人而闻名。多发性硬化症的发病机制基于免疫发病机制假说。具有生物相容性的磁铁矿纳米颗粒对细胞膜表面蛋白、循环免疫复合物、淋巴细胞毒性抗体和补体系统具有选择性吸附活性,并能提高吞噬活性和白细胞吞噬完成指数,可有效用于免疫抑制。本研究的主要目的是延缓多发性硬化症的进展,改善患者的神经功能状态和整体状况,降低脱髓鞘病变在脑内扩散的动态性。材料和方法:研究对象为一名被诊断为多发性硬化症、继发性进展型、脑脊液型、临床加重期的患者。使用 EDSS 量表评估患者的神经系统状况和残疾程度,并进行脑部核磁共振成像对比增强检查。纳米装置 Micromage-B 作为免疫吸附剂和免疫调节剂口服给药。Micromage-B的治疗方案和剂量都是个性化的。在6个月的时间里,每7天对患者的一般状况和神经系统状态进行一次评估,并在第5个月进行对比增强脑磁共振成像检查。结果使用 Micromage-B 治疗多发性硬化症客观上改善了神经状况,减轻了下肢僵硬和疲劳。步态和协调能力得到改善,手部震颤减少,抑郁和注意力不集中症状缓解,食欲恢复,语言表达能力提高。在整个治疗期间,患者的神经系统状况一直呈正常化趋势。6 个月后,EDSS 量表的总分从 210 分降至 45 分。锥体系统和协调能力的改善最为明显,EDSS 残疾量表得分从 6.0 降至 5.0。对比增强脑磁共振成像首次显示,在服用 Micromage-B 的第 4 个月,新的脱髓鞘病灶数量有所减少。神经系统状况的积极变化与核磁共振成像结果相关。多发性硬化症患者中枢神经系统活动的恢复不仅可能是由于磁铁矿纳米粒子的免疫抑制特性,还可能是由于通过酶甲基化激活了再髓鞘化机制和少突胶质细胞分化。结论在多发性硬化症的复合治疗中使用生物相容性纳米器械很有前景。需要进一步改进和研究使用生物相容性磁铁矿纳米颗粒的方案和方法,以提高多发性硬化症的治疗效果。
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