Jeffrey J Chalmers
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Explore the profile of Jeffrey J Chalmers including associated specialties, affiliations and a list of published articles.
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88
Citations
1421
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Recent Articles
1.
Strayer J, Choe H, Wu X, Weigand M, Gomez-Pastora J, Zborowski M, et al.
Electrophoresis
. 2023 Dec;
45(7-8):743-751.
PMID: 38041407
Precisely and accurately determining the magnetic force and its spatial distribution in microfluidic devices is challenging. Typically, magnetic microfluidic devices are designed in a way to both maximize the force...
2.
Lu S, Allyn M, Weigand M, Chalmers J, Palmer A
Vox Sang
. 2022 Mar;
117(6):803-811.
PMID: 35262216
Background And Objectives: Red blood cell (RBC) units in hypothermic storage degrade over time, commonly known as the RBC storage lesion. These older RBC units can cause adverse clinical effects...
3.
Gomez-Pastora J, Weigand M, Kim J, Palmer A, Yazer M, Desai P, et al.
Sci Rep
. 2022 Feb;
12(1):1692.
PMID: 35105914
Anemia and iron deficiency continue to be the most prevalent nutritional disorders in the world, affecting billions of people in both developed and developing countries. The initial diagnosis of anemia...
4.
Gonzalez-Fernandez C, Gomez-Pastora J, Bringas E, Zborowski M, Chalmers J, Ortiz I
Ind Eng Chem Res
. 2021 Dec;
60(46):16780-16790.
PMID: 34866775
The design of microdevices in which components with magnetic character must be separated and recovered from reactive media benefits from the advantages of microfluidics and meets the criteria for process...
5.
Weigand M, Gomez-Pastora J, Kim J, Kurek M, Hickey R, Irwin D, et al.
PLoS One
. 2021 Sep;
16(9):e0257061.
PMID: 34478473
A new method for hemoglobin (Hb) deoxygenation, in suspension or within red blood cells (RBCs) is described using the commercial enzyme product, EC-Oxyrase®. The enzymatic deoxygenation method has several advantages...
6.
Gomez-Pastora J, Kim J, Multanen V, Weigand M, Walters N, Reategui E, et al.
Exp Hematol
. 2021 May;
99:21-31.e5.
PMID: 34015390
The presence of iron in circulating monocytes is well known as they play an essential role in iron recycling. It has been demonstrated that the iron content of blood cells...
7.
Amiri Roodan V, Gomez-Pastora J, Karampelas I, Gonzalez-Fernandez C, Bringas E, Ortiz I, et al.
Soft Matter
. 2020 Sep;
16(41):9506-9518.
PMID: 32966533
We present a numerical model that describes the microfluidic generation and manipulation of ferrofluid droplets under an external magnetic field. We developed a numerical Computational Fluid Dynamics (CFD) analysis for...
8.
Xue W, Moore L, Nakano N, Chalmers J, Zborowski M
J Magn Magn Mater
. 2020 Sep;
474:152-160.
PMID: 32863537
Paramagnetic constituents of a cell have strong effect on cell's volume magnetic susceptibility even at low volume fraction because of their high susceptibility relative to that of the diamagnetic cell...
9.
Gomez-Pastora J, Wu X, Sundar N, Alawi J, Nabar G, Winter J, et al.
Sep Purif Technol
. 2020 Jul;
248.
PMID: 32655283
Superparamagnetic iron oxide nanoparticles (SPIONs) are employed in multiple applications, especially within medical and chemical engineering fields. However, their magnetic separation is very challenging as the magnetophoretic motion is hindered...
10.
Gomez-Pastora J, Weigand M, Kim J, Wu X, Strayer J, Palmer A, et al.
Clin Chim Acta
. 2020 Jun;
509:249-251.
PMID: 32579952
No abstract available.