Safety and efficacy of a novel mini-pool intravenous immunoglobulin therapy in children with primary immunodeficiency.

IF 1.8 4区医学 Q3 HEMATOLOGY Vox Sanguinis Pub Date : 2024-12-01 DOI:10.1111/vox.13769

Alshaimaa M Selim, Taghreed M Kamal, Madeen Adel A Abdou, Eman NasrEldin, Nada O Abdelhameed, Mariam E Abdallah, Naglaa S Osman, Maha Atwa, Magdy El-Ekiaby

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Abstract

Background and objectives: Intravenous polyvalent immunoglobulins (IVIG) for prophylaxis in patients with primary immunodeficiency disorders (PIDs) exposes them to life-threatening infections and debilitating diseases. To improve access to IVIG in lower middle-income countries, the WHO recommends a stepwise approach for the local production of purified and virus-inactivated plasma immunoglobulins by national blood transfusion services using new technologies and medical devices. One new technology relies on single-use sterile medical devices for the purification of plasma immunoglobulin G (IgG), as well as lipid-enveloped virus inactivation from mini-pools of recovered plasma separated from whole blood (mini-pool IVIG [MP-IVIG]). This study aimed to compare the safety and efficacy of MP-IVIG to standard IVIG (STD-IVIG).

Materials and methods: In this prospective crossover clinical study, we investigated the safety and efficacy of MP-IVIG for STD-IVIG preparations as a replacement therapy in a cohort of 21 paediatric patients with PID.

Results: Both MP-IVIG and STD-IVIG were effective in reducing the frequency of severe bacterial infections and hospital admissions in patients with PID. Mild side effects have been observed in seven patients (6.2%) with PID who received MP-IVIG and five patients (5.3%) who received STD-IVIG. No moderate or severe side effects or haemolytic transfusion reactions were reported. The mortality rates were also comparable and were not related to the study products.

Conclusion: MP-IVIG presented no safety issues and was as effective as STD-IVIG in IgG replacement in patients with PID. Due to the small numbers, the results have to be addressed with caution.

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一种新型小池静脉注射免疫球蛋白治疗原发性免疫缺陷儿童的安全性和有效性。

背景和目的：静脉注射多价免疫球蛋白（IVIG）预防原发性免疫缺陷疾病（PIDs）患者使他们暴露于危及生命的感染和使人衰弱的疾病。为了改善中低收入国家获得IVIG的机会，世卫组织建议采用分步方法，由国家输血服务机构使用新技术和医疗设备在当地生产纯化的和病毒灭活的血浆免疫球蛋白。一项新技术依靠一次性无菌医疗设备纯化血浆免疫球蛋白G (IgG)，以及从全血分离的回收血浆迷你池（mini-pool IVIG [MP-IVIG]）中灭活脂质包膜病毒。本研究旨在比较MP-IVIG与标准IVIG （STD-IVIG）的安全性和有效性。材料和方法：在这项前瞻性交叉临床研究中，我们研究了MP-IVIG作为STD-IVIG制剂替代疗法在21例儿科PID患者中的安全性和有效性。结果：MP-IVIG和STD-IVIG在降低PID患者严重细菌感染和住院率方面均有效。在接受MP-IVIG治疗的7例（6.2%）PID患者和接受STD-IVIG治疗的5例（5.3%）患者中观察到轻微的副作用。没有中度或重度副作用或溶血性输血反应的报道。死亡率也具有可比性，与研究产品无关。结论：MP-IVIG替代PID患者IgG无安全性问题，与STD-IVIG同样有效。由于数量少，结果必须谨慎处理。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Vox Sanguinis 医学-血液学

CiteScore

4.40

自引率

11.10%

发文量

156

审稿时长

6-12 weeks

期刊介绍： Vox Sanguinis reports on important, novel developments in transfusion medicine. Original papers, reviews and international fora are published on all aspects of blood transfusion and tissue transplantation, comprising five main sections: 1) Transfusion - Transmitted Disease and its Prevention: Identification and epidemiology of infectious agents transmissible by blood; Bacterial contamination of blood components; Donor recruitment and selection methods; Pathogen inactivation. 2) Blood Component Collection and Production: Blood collection methods and devices (including apheresis); Plasma fractionation techniques and plasma derivatives; Preparation of labile blood components; Inventory management; Hematopoietic progenitor cell collection and storage; Collection and storage of tissues; Quality management and good manufacturing practice; Automation and information technology. 3) Transfusion Medicine and New Therapies: Transfusion thresholds and audits; Haemovigilance; Clinical trials regarding appropriate haemotherapy; Non-infectious adverse affects of transfusion; Therapeutic apheresis; Support of transplant patients; Gene therapy and immunotherapy. 4) Immunohaematology and Immunogenetics: Autoimmunity in haematology; Alloimmunity of blood; Pre-transfusion testing; Immunodiagnostics; Immunobiology; Complement in immunohaematology; Blood typing reagents; Genetic markers of blood cells and serum proteins: polymorphisms and function; Genetic markers and disease; Parentage testing and forensic immunohaematology. 5) Cellular Therapy: Cell-based therapies; Stem cell sources; Stem cell processing and storage; Stem cell products; Stem cell plasticity; Regenerative medicine with cells; Cellular immunotherapy; Molecular therapy; Gene therapy.