Emerging Strategies for Beta Cell Encapsulation for Type 1 Diabetes Therapy

TY - JOUR

T1 - Emerging Strategies for Beta Cell Encapsulation for Type 1 Diabetes Therapy

AU - Toftdal, Mette Steen

AU - Grunnet, Lars Groth

AU - Chen, Menglin

PY - 2024/7/26

Y1 - 2024/7/26

N2 - Diabetes is a prevalent chronic disease affecting millions of people globally. To address this health challenge, advanced beta cell therapy using biomaterials-based macroscale, microscale, and nanoscale encapsulation devices must tackle various obstacles. First, overcoming foreign body responses is a major focus of research. Strategies such as immunomodulatory materials and physical immunoshielding are investigated to reduce the immune response and improve the longevity of the encapsulated cells. Furthermore, oxygenating strategies, such as the use of oxygen-releasing biomaterials, are developed to improve oxygen diffusion and promote cell survival. Finally, yet importantly, promoting vascularization through the use of angiogenic growth factors and the incorporation of pre-vascularized materials are also explored to enhance nutrient and oxygen supply to the encapsulated cells. This review seeks to specifically highlight the emerging research strategies developed to overcome these challenges using micro and nanoscale biomaterial encapsulation devices. Continuously improving and refining these strategies make an advance toward realizing the improved therapeutic potential of the encapsulated beta cells.

AB - Diabetes is a prevalent chronic disease affecting millions of people globally. To address this health challenge, advanced beta cell therapy using biomaterials-based macroscale, microscale, and nanoscale encapsulation devices must tackle various obstacles. First, overcoming foreign body responses is a major focus of research. Strategies such as immunomodulatory materials and physical immunoshielding are investigated to reduce the immune response and improve the longevity of the encapsulated cells. Furthermore, oxygenating strategies, such as the use of oxygen-releasing biomaterials, are developed to improve oxygen diffusion and promote cell survival. Finally, yet importantly, promoting vascularization through the use of angiogenic growth factors and the incorporation of pre-vascularized materials are also explored to enhance nutrient and oxygen supply to the encapsulated cells. This review seeks to specifically highlight the emerging research strategies developed to overcome these challenges using micro and nanoscale biomaterial encapsulation devices. Continuously improving and refining these strategies make an advance toward realizing the improved therapeutic potential of the encapsulated beta cells.

KW - biomaterials

KW - diabetes

KW - immunomodulation

KW - oxygenation

KW - vascularization

UR - https://www.scopus.com/pages/publications/85190533821

U2 - 10.1002/adhm.202400185

DO - 10.1002/adhm.202400185

M3 - Review

C2 - 38452393

AN - SCOPUS:85190533821

SN - 2192-2640

VL - 13

JO - Advanced Healthcare Materials

JF - Advanced Healthcare Materials

IS - 19

M1 - 2400185

ER -