Biohybrid Design Gets Personal: New Materials for Patient‐Specific Therapy

Raman, Ritu; Langer, Robert

doi:10.1002/adma.201901969

Cited by 21 publications

(20 citation statements)

References 75 publications

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“…[26,70,73,74] To accomplish the goals of precision medicine requires precision biomaterials: biomaterials designed with the biology of the individual patient in mind for eliciting desired and predictable outcomes. [75][76][77][78][79][80][81][82][83][84] This includes considering a patient's sex, age, and ancestry in developing a precision biomaterial.…”

Section: In Pursuit Of Precision Medicinementioning

confidence: 99%

Let's Talk About Sex—Biological Sex Is Underreported in Biomaterial Studies

James

Guerin

Allen

2020

Adv Healthcare Materials

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Precision medicine aims to better individualize healthcare. It requires that biomaterials be designed for the physiological characteristics of a specific patient. To make this a reality, biomaterials research and development must address differences of biological sex. More specifically, biomaterials should be designed with properties optimized and appropriate for male and female patients. In analyzing research articles from seven prominent biomaterials journals, sex as a biological variable is missing from an overwhelming majority of in vitro biomaterial studies. From the survey, the reporting of the sex of primary cell cultures happened only 10.3% of the time. Contributing to this trend is that commercial vendors bias cell lines toward one sex or another by not disclosing information of cell line sex at the time of purchase; researchers do not communicate this pertinent information in published studies; and many journal policies have little to no requirements for reporting cell line characteristics. Omitting this valuable information leads to a gap in the understanding of sex‐specific cell‐biomaterial interactions and it creates a bias in research findings towards one sex or another. To curb this concerning trend and make precision biomaterials a reality will require the biomaterials field to “talk about sex” by reporting cell sex more broadly.

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Section: In Pursuit Of Precision Medicinementioning

confidence: 99%

Let's Talk About Sex—Biological Sex Is Underreported in Biomaterial Studies

James

Guerin

Allen

2020

Adv Healthcare Materials

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“…[578][579][580][581] Patient-specific materials (cells 582 or perhaps even biomolecules, such as is commonly performed with PRP) and their incorporation into therapeutic treatment strategies is another potential avenue for advancement in dental biomaterials. 583 Thus, processing, sourcing, and functional display of biomolecules (release profile, encapsulation, immobilization, etc. ), with or without cells, can exert strong control over the biological activity of biomolecules.…”

Section: Future Perspectives and Conclusionmentioning

confidence: 99%

Harnessing biomolecules for bioinspired dental biomaterials

et al. 2020

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“…Hydrogels are compelling building blocks for implantable devices, as their compliant, biocompatible, and absorbent properties closely match the characteristics of biological tissue (1)(2)(3). Recent advances in developing tough and stretchable hydrogels, from ionically or covalently cross-linked and interpenetrating polymer networks, have made it more feasible to deploy these materials in dynamic in vivo environments (4)(5)(6)(7).…”

Section: Introductionmentioning

confidence: 99%

Light-degradable hydrogels as dynamic triggers for gastrointestinal applications

et al. 2020

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Triggerable materials capable of being degraded by selective stimuli stand to transform our capacity to precisely control biomedical device activity and performance while reducing the need for invasive interventions. Here, we describe the development of a modular and tunable light-triggerable hydrogel system capable of interfacing with implantable devices. We apply these materials to two applications in the gastrointestinal (GI) tract: a bariatric balloon and an esophageal stent. We demonstrate biocompatibility and on-demand triggering of the material in vitro, ex vivo, and in vivo. Moreover, we characterize performance of the system in a porcine large animal model with an accompanying ingestible LED. Light-triggerable hydrogels have the potential to be applied broadly throughout the GI tract and other anatomic areas. By demonstrating the first use of light-degradable hydrogels in vivo, we provide biomedical engineers and clinicians with a previously unavailable, safe, dynamically deliverable, and precise tool to design dynamically actuated implantable devices.

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Biohybrid Design Gets Personal: New Materials for Patient‐Specific Therapy

Cited by 21 publications

References 75 publications

Let's Talk About Sex—Biological Sex Is Underreported in Biomaterial Studies

Let's Talk About Sex—Biological Sex Is Underreported in Biomaterial Studies

Harnessing biomolecules for bioinspired dental biomaterials

Light-degradable hydrogels as dynamic triggers for gastrointestinal applications

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