A self-healable, moldable and bioactive biomaterial gum for personalised and wearable drug delivery

Mohammad Ali Shahbazi; Neha Shrestha; Malgorzata Karolina Pierchala; Firoz Babu Kadumudi; Mehdi Mehrali; Masoud Hasany; Véronique Préat; Sander Leeuwenburgh; Alireza Dolatshahi-Pirouz

doi:10.1039/c9tb02156f

A self-healable, moldable and bioactive biomaterial gum for personalised and wearable drug delivery

Mohammad Ali Shahbazi, Neha Shrestha, Malgorzata Karolina Pierchala, Firoz Babu Kadumudi, Mehdi Mehrali, Masoud Hasany, Véronique Préat, Sander Leeuwenburgh, Alireza Dolatshahi-Pirouz^*

^*Corresponding author for this work

Research output: Contribution to journal › Journal article › Research › peer-review

73 Downloads (Pure)

Abstract

One of the long-standing challenges in materials science involves synthesizing biomaterials that recapitulate important features of native biological tissues. Even though, the number of available biomaterials at the moment are virtually limitless, few of them has unlocked all the secrets of the human body by mimicking the combinatorial-like material properties of our tissues and organs. Inspired by the human body, we have developed a polymeric gum, which combines stretchability, toughness, strength, flexibility, and self-healing. It also exhibits a high bioactivity that can target and eliminate bacterial infections fast and reliably. Notably, this material is moldable into almost any complex shape, and therefore suitable as a building block for wearables designed to conform directly with the curved and personalized anatomy of patients. It also exhibits excellent drug retention and release capacity, which altogether makes it suitable for applications in personalized wearable drug-delivery devices.

Original language	English
Journal	Journal of Materials Chemistry B
Volume	8
Issue number	19
Pages (from-to)	4340-4356
ISSN	2050-750X
DOIs	https://doi.org/10.1039/c9tb02156f
Publication status	Published - 2020

Access to Document

10.1039/c9tb02156f

FulltextFinal published version, 6.39 MB

OpenUrl availability

Full text

Cite this

@article{967e33242a464d40851d17677bc8acdb,

title = "A self-healable, moldable and bioactive biomaterial gum for personalised and wearable drug delivery",

abstract = "One of the long-standing challenges in materials science involves synthesizing biomaterials that recapitulate important features of native biological tissues. Even though, the number of available biomaterials at the moment are virtually limitless, few of them has unlocked all the secrets of the human body by mimicking the combinatorial-like material properties of our tissues and organs. Inspired by the human body, we have developed a polymeric gum, which combines stretchability, toughness, strength, flexibility, and self-healing. It also exhibits a high bioactivity that can target and eliminate bacterial infections fast and reliably. Notably, this material is moldable into almost any complex shape, and therefore suitable as a building block for wearables designed to conform directly with the curved and personalized anatomy of patients. It also exhibits excellent drug retention and release capacity, which altogether makes it suitable for applications in personalized wearable drug-delivery devices.",

author = "Shahbazi, {Mohammad Ali} and Neha Shrestha and Pierchala, {Malgorzata Karolina} and Kadumudi, {Firoz Babu} and Mehdi Mehrali and Masoud Hasany and V{\'e}ronique Pr{\'e}at and Sander Leeuwenburgh and Alireza Dolatshahi-Pirouz",

year = "2020",

doi = "10.1039/c9tb02156f",

language = "English",

volume = "8",

pages = "4340--4356",

journal = "Journal of Materials Chemistry B",

issn = "2050-7518",

publisher = "R S C Publications",

number = "19",

}

TY - JOUR

T1 - A self-healable, moldable and bioactive biomaterial gum for personalised and wearable drug delivery

AU - Shahbazi, Mohammad Ali

AU - Shrestha, Neha

AU - Pierchala, Malgorzata Karolina

AU - Kadumudi, Firoz Babu

AU - Mehrali, Mehdi

AU - Hasany, Masoud

AU - Préat, Véronique

AU - Leeuwenburgh, Sander

AU - Dolatshahi-Pirouz, Alireza

PY - 2020

Y1 - 2020

N2 - One of the long-standing challenges in materials science involves synthesizing biomaterials that recapitulate important features of native biological tissues. Even though, the number of available biomaterials at the moment are virtually limitless, few of them has unlocked all the secrets of the human body by mimicking the combinatorial-like material properties of our tissues and organs. Inspired by the human body, we have developed a polymeric gum, which combines stretchability, toughness, strength, flexibility, and self-healing. It also exhibits a high bioactivity that can target and eliminate bacterial infections fast and reliably. Notably, this material is moldable into almost any complex shape, and therefore suitable as a building block for wearables designed to conform directly with the curved and personalized anatomy of patients. It also exhibits excellent drug retention and release capacity, which altogether makes it suitable for applications in personalized wearable drug-delivery devices.

AB - One of the long-standing challenges in materials science involves synthesizing biomaterials that recapitulate important features of native biological tissues. Even though, the number of available biomaterials at the moment are virtually limitless, few of them has unlocked all the secrets of the human body by mimicking the combinatorial-like material properties of our tissues and organs. Inspired by the human body, we have developed a polymeric gum, which combines stretchability, toughness, strength, flexibility, and self-healing. It also exhibits a high bioactivity that can target and eliminate bacterial infections fast and reliably. Notably, this material is moldable into almost any complex shape, and therefore suitable as a building block for wearables designed to conform directly with the curved and personalized anatomy of patients. It also exhibits excellent drug retention and release capacity, which altogether makes it suitable for applications in personalized wearable drug-delivery devices.

U2 - 10.1039/c9tb02156f

DO - 10.1039/c9tb02156f

M3 - Journal article

C2 - 32363370

AN - SCOPUS:85084965314

VL - 8

SP - 4340

EP - 4356

JO - Journal of Materials Chemistry B

JF - Journal of Materials Chemistry B

SN - 2050-7518

IS - 19

ER -

A self-healable, moldable and bioactive biomaterial gum for personalised and wearable drug delivery

Abstract

Access to Document

OpenUrl availability

Fingerprint

Cite this