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David R Nisbet

Explore the profile of David R Nisbet including associated specialties, affiliations and a list of published articles. Areas
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Articles 76
Citations 905
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Recent Articles
1.
Mahmoudi N, Sharifi S, Leshchiner D, Horibata S, Lin Z, Ghazali N, et al.
Br J Dermatol . 2024 Nov; 192(3):390-401. PMID: 39565404
Chronic wounds, defined by their prolonged healing process, significantly impair patients' quality of life and impose a hefty financial burden on healthcare systems worldwide. Sex- and gender-specific mechanisms regulate inflammation...
2.
Vidler C, Halwes M, Kolesnik K, Segeritz P, Mail M, Barlow A, et al.
Nature . 2024 Oct; 634(8036):1096-1102. PMID: 39478212
Additive manufacturing is an expanding multidisciplinary field encompassing applications including medical devices, aerospace components, microfabrication strategies and artificial organs. Among additive manufacturing approaches, light-based printing technologies, including two-photon polymerization, projection...
3.
Jiang Y, Harberts J, Assadi A, Chen Y, Spatz J, Duan W, et al.
Adv Mater . 2024 Oct; 36(48):e2410908. PMID: 39401098
Customizable manufacturing of ex vivo cell engineering is driven by the need for innovations in the biomedical field and holds substantial potential for addressing current therapeutic challenges; but it is...
4.
Eivazi Zadeh Z, Nour S, Kianersi S, Jonidi Shariatzadeh F, Williams R, Nisbet D, et al.
iScience . 2024 Aug; 27(8):110307. PMID: 39156636
Neural diseases are challenging to treat and are regarded as one of the major causes of disability and morbidity in the world. Stem cells can provide a solution, by offering...
5.
Olov N, Nour S, Harris A, Li D, Cook M, Williams R, et al.
ACS Nano . 2024 Aug; 18(34):22709-22733. PMID: 39136685
Natural ion channels are proteins embedded in the cell membrane that control many aspects of cell and human physiology by acting as gatekeepers, regulating the flow of ions in and...
6.
Mendes A, Caballero Aguilar L, do Nascimento A, Duchi S, Charnley M, Nisbet D, et al.
ACS Appl Bio Mater . 2024 Jun; 7(6):4175-4192. PMID: 38830774
Nerve growth factor (NGF) plays a crucial role in cellular growth and neurodifferentiation. To achieve significant neuronal regeneration and repair using in vitro NGF delivery, spatiotemporal control that follows the...
7.
Zoneff E, Wang Y, Jackson C, Smith O, Duchi S, Onofrillo C, et al.
Nat Commun . 2024 May; 15(1):4361. PMID: 38778053
Oxygen plays a crucial role in human embryogenesis, homeostasis, and tissue regeneration. Emerging engineered regenerative solutions call for novel oxygen delivery systems. To become a reality, these systems must consider...
8.
do Nascimento A, Mendes A, Duchi S, Duc D, Aguilar L, Quigley A, et al.
ACS Biomater Sci Eng . 2024 May; 10(6):3775-3791. PMID: 38722625
This study investigates the electrochemical behavior of GelMA-based hydrogels and their interactions with PC12 neural cells under electrical stimulation in the presence of conducting substrates. Focusing on indium tin oxide...
9.
Mahmoudi N, Wang Y, Moriarty N, Ahmed N, Dehorter N, Lisowski L, et al.
ACS Nano . 2024 Jan; 18(4):3597-3613. PMID: 38221746
The central nervous system's limited capacity for regeneration often leads to permanent neuronal loss following injury. Reprogramming resident reactive astrocytes into induced neurons at the site of injury is a...
10.
Leong M, Parker C, Shaw Z, Huang L, Nisbet D, Daeneke T, et al.
ACS Appl Mater Interfaces . 2023 Dec; 16(1):332-341. PMID: 38111109
The rise of antibiotic resistance in pathogenic bacteria requires new therapeutics to be developed. Several metallic nanoparticles such as those made from silver, copper, and zinc have shown significant antibacterial...