Paul A De Bank
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Explore the profile of Paul A De Bank including associated specialties, affiliations and a list of published articles.
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Articles
23
Citations
247
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Recent Articles
1.
Chakkumpulakkal Puthan Veettil T, Kochan K, Williams G, Bourke K, Kostoulias X, Peleg A, et al.
Anal Chem
. 2024 Nov;
96(46):18392-18400.
PMID: 39496348
The rapid and accurate identification of pathogenic bacteria is crucial for combating the growing threat of antibiotic resistance, nosocomial infections, and food safety concerns. This study presents a novel and...
2.
Maaz A, Blagbrough I, De Bank P
Pharmaceutics
. 2024 May;
16(5).
PMID: 38794331
A general procedure to prepare gold nanourchins (GNUs) via a seed-mediated method was followed using dopamine hydrochloride as a reducing agent and silver nitrate salt (AgNO) as a shape-directing agent....
3.
Maaz A, Blagbrough I, De Bank P
Mol Pharm
. 2024 Feb;
21(3):1108-1124.
PMID: 38333983
The olfactory region of the nasal cavity directly links the brain to the external environment, presenting a potential direct route to the central nervous system (CNS). However, targeting drugs to...
4.
Cheng Y, De Bank P, Bolhuis A
J Appl Microbiol
. 2022 Aug;
133(5):2993-3006.
PMID: 35916629
Aims: This study aimed to develop a wound infection model that could be used to test antibiotic-loaded electrospun matrices for the topical treatment of infected skin and compare the effectiveness...
5.
Li R, Laurent F, Taverner A, MacKay J, De Bank P, Mrsny R
Pharmaceutics
. 2021 Aug;
13(8).
PMID: 34452131
The low permeability of nanoparticles (NPs) across the intestinal epithelium remains a major challenge for their application of delivering macromolecular therapeutic agents via the oral route. Previous studies have demonstrated...
6.
Maaz A, Blagbrough I, De Bank P
Pharmaceutics
. 2021 Aug;
13(7).
PMID: 34371770
The nasal cavity is an attractive route for both local and systemic drug delivery and holds great potential for access to the brain via the olfactory region, an area where...
7.
Allan S, Ellis M, De Bank P
J Biomed Mater Res A
. 2021 May;
109(12):2471-2482.
PMID: 34057281
Scaffold materials suitable for the scale-up and subsequent commercialization of tissue engineered products should ideally be cost effective and accessible. For the in vitro culture of certain adherent cells, synthetic...
8.
Luetchford K, Chaudhuri J, De Bank P
Mater Sci Eng C Mater Biol Appl
. 2019 Nov;
106:110116.
PMID: 31753329
Microcarrier cell scaffolds have potential as injectable cell delivery vehicles or as building blocks for tissue engineering. The use of small cell carriers allows for a 'bottom up' approach to...
9.
Rediguieri C, De Bank P, Zanin M, Leo P, Cerize N, de Oliveira A, et al.
J Biomater Sci Polym Ed
. 2017 Jul;
28(16):1918-1934.
PMID: 28737465
The growing area of tissue engineering has the potential to alleviate the shortage of tissues and organs for transplantation, and electrospun biomaterial scaffolds are extremely promising devices for translating engineered...
10.
Fortunato T, Beltrami C, Emanueli C, De Bank P, Pula G
Sci Rep
. 2016 May;
6:25326.
PMID: 27141997
Revascularisation is a key step for tissue regeneration and complete organ engineering. We describe the generation of human platelet lysate gel (hPLG), an extracellular matrix preparation from human platelets able...