S W Cushman
Overview
Explore the profile of S W Cushman including associated specialties, affiliations and a list of published articles.
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Articles
126
Citations
3261
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Recent Articles
1.
McLaughlin T, Abbasi F, Lamendola C, Yee G, Carter S, Cushman S
Nutr Metab Cardiovasc Dis
. 2018 Dec;
29(1):62-68.
PMID: 30497926
Background And Aims: Overweight and obesity increase risk for diabetes and cardiovascular disease, largely through development of insulin resistance. Benefits of dietary weight loss are documented for obese individuals with...
2.
Atal S, Zamowski M, Cushman S, Sampugna J
Lipids
. 2016 Aug;
29(5):319-25.
PMID: 27520035
The effect of a diet containingtrans-fatty acids (tFA) on the fatty acid composition and fat accumulation in adipose tissue was investigated in mice. Male C57BI/6J mice were fed Control or...
3.
McLaughlin T, Lamendola C, Coghlan N, Liu T, Lerner K, Sherman A, et al.
Obesity (Silver Spring)
. 2013 May;
22(3):673-80.
PMID: 23666871
Objective: Metabolic heterogeneity among obese individuals may be attributable to differences in adipose cell size. We sought to clarify this by quantifying adipose cell size distribution, body fat, and insulin-mediated...
4.
McLaughlin T, Liu T, Yee G, Abbasi F, Lamendola C, Reaven G, et al.
Obesity (Silver Spring)
. 2009 Nov;
18(5):926-31.
PMID: 19910937
Rodent and in vitro studies suggest that thiazolidinediones promote adipogenesis but there are few studies in humans to corroborate these findings. The purpose of this study was to determine whether...
5.
McLaughlin T, Deng A, Yee G, Lamendola C, Reaven G, Tsao P, et al.
Diabetologia
. 2009 Oct;
53(2):369-77.
PMID: 19816674
Aims/hypothesis: Inflammation is associated with increased body mass and purportedly with increased size of adipose cells. We sought to determine whether increased size of adipose cells is associated with localised...
6.
McLaughlin T, Deng A, Gonzales O, Aillaud M, Yee G, Lamendola C, et al.
Diabetologia
. 2008 Oct;
51(12):2303-8.
PMID: 18825363
Aims/hypothesis: We have previously described differences in adipose cell size distribution and expression of genes related to adipocyte differentiation in subcutaneous abdominal fat obtained from insulin-sensitive (IS) and -resistant (IR)...
7.
McLaughlin T, Sherman A, Tsao P, Gonzalez O, Yee G, Lamendola C, et al.
Diabetologia
. 2007 Jun;
50(8):1707-15.
PMID: 17549449
Aims/hypothesis: The biological mechanism by which obesity predisposes to insulin resistance is unclear. One hypothesis is that larger adipose cells disturb metabolism via increased lipolysis. While studies have demonstrated that...
8.
Xiang C, Wu Y, Ma L, Ding L, Lisinski I, Brownstein M, et al.
Diabetologia
. 2007 Mar;
50(5):1070-9.
PMID: 17380319
Aims/hypothesis: We characterised insulin resistance, metabolic defects and endocrine dysfunction in cultured adipose cells and examined the autocrine or paracrine roles of cytokines/adipokines in the progression of insulin resistance. Materials...
9.
Dawson K, Cushman S, Malide D
Biochem Biophys Res Commun
. 2001 Sep;
287(2):445-54.
PMID: 11554749
In isolated rat adipose cells, physiologically relevant insulin target cells, glucose transporter 4 (GLUT4) subcellular trafficking can be assessed by transfection of exofacially HA-tagged GLUT4. To simultaneously visualize the transfected...
10.
Lisinski I, Schurmann A, Joost H, Cushman S, Al-Hasani H
Biochem J
. 2001 Aug;
358(Pt 2):517-22.
PMID: 11513753
The subcellular targeting of the two recently cloned novel mammalian glucose transporters, GLUT6 [previously referred to as GLUT9 [Doege, Bocianski, Joost and Schürmann (2000) Biochem. J. 350, 771-776] and GLUT8,...