下一代儿科护理:基于纳米技术和人工智能驱动的心血管、呼吸和肠胃疾病解决方案。

IF 6.1 2区 医学 Q1 PEDIATRICS
Waldenice de Alencar Morais Lima, Jackson G de Souza, Fátima García-Villén, Julia Lira Loureiro, Fernanda Nervo Raffin, Marcelo A C Fernandes, Eliana B Souto, Patricia Severino, Raquel de M Barbosa
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引用次数: 0

摘要

背景:全球儿科医疗显示,与儿童和新生儿呼吸系统、心脏和胃肠道疾病相关的发病率和死亡率非常高,这主要是由于儿科和新生儿科的治疗管理非常复杂,缺乏适合这些患者的剂型,往往使他们成为 "治疗孤儿"。儿科药物制剂的开发和应用面临诸多挑战,包括年龄组内生理异质性、制药业利润有限以及伦理和临床限制。许多药物未经许可或在无标签的情况下使用,具有很高的毒性和降低疗效的风险。尽管存在这些情况,但一些监管规定正在发生变化,从而推动了这一领域的研究创新:主要数据来源包括最新的同行评审期刊论文、书籍、政府和机构报告、数据储存库和数据库:在为解决儿科护理现状而提出的主要策略中,纳米技术尤其有望用于儿科呼吸系统疾病,因为纳米技术可提供非侵入性、多功能、可调、特定部位的药物释放。组织工程学与热诊断系统一起成为解决儿科心脏疾病战略的焦点。纳米技术与热诊断技术的结合有望完善和推动纳米医学方法,为儿科患者开创一个创新的个性化给药时代。最后,儿科医疗保健中的药物再利用和人工智能工具的交叉应用潜力巨大。这不仅有望提高药物开发的总体效率,也有望提高儿科领域的效率,从而有望促进针对这一人群的临床试验:尽管前路漫漫,但纳米技术的深化、组织工程学的发展以及传统技术与人工智能的结合是最近报道的儿科治疗特定领域的最新策略。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Next-generation pediatric care: nanotechnology-based and AI-driven solutions for cardiovascular, respiratory, and gastrointestinal disorders.

Next-generation pediatric care: nanotechnology-based and AI-driven solutions for cardiovascular, respiratory, and gastrointestinal disorders.

Background: Global pediatric healthcare reveals significant morbidity and mortality rates linked to respiratory, cardiac, and gastrointestinal disorders in children and newborns, mostly due to the complexity of therapeutic management in pediatrics and neonatology, owing to the lack of suitable dosage forms for these patients, often rendering them "therapeutic orphans". The development and application of pediatric drug formulations encounter numerous challenges, including physiological heterogeneity within age groups, limited profitability for the pharmaceutical industry, and ethical and clinical constraints. Many drugs are used unlicensed or off-label, posing a high risk of toxicity and reduced efficacy. Despite these circumstances, some regulatory changes are being performed, thus thrusting research innovation in this field.

Data sources: Up-to-date peer-reviewed journal articles, books, government and institutional reports, data repositories and databases were used as main data sources.

Results: Among the main strategies proposed to address the current pediatric care situation, nanotechnology is specially promising for pediatric respiratory diseases since they offer a non-invasive, versatile, tunable, site-specific drug release. Tissue engineering is in the spotlight as strategy to address pediatric cardiac diseases, together with theragnostic systems. The integration of nanotechnology and theragnostic stands poised to refine and propel nanomedicine approaches, ushering in an era of innovative and personalized drug delivery for pediatric patients. Finally, the intersection of drug repurposing and artificial intelligence tools in pediatric healthcare holds great potential. This promises not only to enhance efficiency in drug development in general, but also in the pediatric field, hopefully boosting clinical trials for this population.

Conclusions: Despite the long road ahead, the deepening of nanotechnology, the evolution of tissue engineering, and the combination of traditional techniques with artificial intelligence are the most recently reported strategies in the specific field of pediatric therapeutics.

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来源期刊
World Journal of Pediatrics
World Journal of Pediatrics 医学-小儿科
CiteScore
10.50
自引率
1.10%
发文量
592
审稿时长
2.5 months
期刊介绍: The World Journal of Pediatrics, a monthly publication, is dedicated to disseminating peer-reviewed original papers, reviews, and special reports focusing on clinical practice and research in pediatrics. We welcome contributions from pediatricians worldwide on new developments across all areas of pediatrics, including pediatric surgery, preventive healthcare, pharmacology, stomatology, and biomedicine. The journal also covers basic sciences and experimental work, serving as a comprehensive academic platform for the international exchange of medical findings.
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