P
Peter Arner
Researcher at Karolinska Institutet
Publications - 565
Citations - 56932
Peter Arner is an academic researcher from Karolinska Institutet. The author has contributed to research in topics: Adipose tissue & Lipolysis. The author has an hindex of 114, co-authored 553 publications receiving 52710 citations. Previous affiliations of Peter Arner include Karolinska University Hospital & Bristol-Myers Squibb.
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Expression of beta 1- and beta 2-receptor genes and correlation to lipolysis in human adipose tissue during childhood.
TL;DR: Data indicate subtype-specific developmental changes in bar expression, with higher bar2 mRNA levels accompanied by increased bar2-induced lipolysis during infancy, with lower levels of bar1 mRNA levels observed during infancy.
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MicroRNAs-361-5p and miR-574-5p associate with human adipose morphology and regulate EBF1 expression in white adipose tissue.
TL;DR: The results suggest that miR-365-5p and mi-574-5P may be linked to WAT hypertrophy via effects on EBF1 expression via effects of over expression/inhibition of either miRNAs.
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Long-term changes in adipose tissue gene expression following bariatric surgery.
TL;DR: Patients undergoing bariatric surgery present long‐term metabolic improvements and reduced type 2 diabetes risk, despite long-term weight regain, and this hypothesized that part of these protective effects could be linked to altered gene expression in white adipose tissue.
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Introduction: The inflammation orchestra in adipose tissue
TL;DR: Findings from two independent studies demonstrated that, in obesity, the adipose tissue is subjected to a low-grade inflammation status with infiltration of macrophages, and that the circulating level of many inflammatory proteins is increased in obesity.
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Ketorolac but not morphine exerts inflammatory and metabolic effects in synovial membrane after knee arthroscopy: a double-blind randomized prospective study using the microdialysis technique.
TL;DR: The first study on the local metabolic and inflammatory effect of intra-articular administered morphine or ketorolac is conducted, and for the first time, glutamate was studied in synovial tissue, and the results suggest that local release of glutamate may be important for nociception and inflammation.