From islet of Langerhans transplantation to the bioartificial pancreas

IF 3.2 3区 医学 Q1 MEDICINE, GENERAL & INTERNAL Presse Medicale Pub Date : 2022-12-01 DOI:10.1016/j.lpm.2022.104139
Thierry Berney , Charles H. Wassmer , Fanny Lebreton , Kevin Bellofatto , Laura Mar Fonseca , Juliette Bignard , Reine Hanna , Andrea Peloso , Ekaterine Berishvili
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引用次数: 3

Abstract

Type 1 diabetes is a disease resulting from autoimmune destruction of the insulin-producing beta cells in the pancreas. When type 1 diabetes develops into severe secondary complications, in particular end-stage nephropathy, or life-threatening severe hypoglycemia, the best therapeutic approach is pancreas transplantation, or more recently transplantation of the pancreatic islets of Langerhans. Islet transplantation is a cell therapy procedure, that is minimally invasive and has a low morbidity, but does not display the same rate of functional success as the more invasive pancreas transplantation because of suboptimal engraftment and survival. Another issue is that pancreas or islet transplantation (collectively known as beta cell replacement therapy) is limited by the shortage of organ donors and by the need for lifelong immunosuppression to prevent immune rejection and recurrence of autoimmunity.

A bioartificial pancreas is a construct made of functional, insulin-producing tissue, embedded in an anti-inflammatory, immunomodulatory microenvironment and encapsulated in a perm-selective membrane allowing glucose sensing and insulin release, but isolating from attacks by cells of the immune system. A successful bioartificial pancreas would address the issues of engraftment, survival and rejection. Inclusion of unlimited sources of insulin-producing cells, such as xenogeneic porcine islets or stem cell-derived beta cells would further solve the problem of organ shortage.

This article reviews the current status of clinical islet transplantation, the strategies aiming at developing a bioartificial pancreas, the clinical trials conducted in the field and the perspectives for further progress.

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从朗格汉斯胰岛移植到生物人工胰腺
1型糖尿病是一种由自身免疫破坏胰腺中产生胰岛素的细胞引起的疾病。当1型糖尿病发展为严重的继发性并发症,特别是终末期肾病或危及生命的严重低血糖时,最好的治疗方法是胰腺移植,或最近的朗格汉斯胰岛移植。胰岛移植是一种细胞治疗方法,具有微创性和低发病率,但由于植入和存活欠佳,其功能成功率不如更具侵入性的胰腺移植。另一个问题是胰腺或胰岛移植(统称为β细胞替代疗法)受到器官供体短缺和需要终身免疫抑制以防止免疫排斥和自身免疫复发的限制。生物人工胰腺是一种由功能性胰岛素生成组织构成的结构,嵌入抗炎、免疫调节的微环境中,并被包裹在热选择性膜中,允许葡萄糖感知和胰岛素释放,但与免疫系统细胞的攻击隔离。一个成功的生物人工胰腺将解决移植、存活和排斥等问题。包括无限来源的胰岛素生成细胞,如异种猪胰岛或干细胞衍生的β细胞,将进一步解决器官短缺的问题。本文综述了胰岛移植的临床研究现状、发展生物人工胰腺的策略、临床研究进展及未来发展的展望。
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来源期刊
Presse Medicale
Presse Medicale 医学-医学:内科
自引率
3.70%
发文量
40
审稿时长
43 days
期刊介绍: Seule revue médicale "généraliste" de haut niveau, La Presse Médicale est l''équivalent francophone des grandes revues anglosaxonnes de publication et de formation continue. A raison d''un numéro par mois, La Presse Médicale vous offre une double approche éditoriale : - des publications originales (articles originaux, revues systématiques, cas cliniques) soumises à double expertise, portant sur les avancées médicales les plus récentes ; - une partie orientée vers la FMC, vous propose une mise à jour permanente et de haut niveau de vos connaissances, sous forme de dossiers thématiques et de mises au point dans les principales spécialités médicales, pour vous aider à optimiser votre formation.
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