ProfessorsProfessors of University of California, Los AngelesLinda L. Demer

Linda L. Demer

University of California, Los Angeles

H-index: 81

North America-United States

About Linda L. Demer

Linda L. Demer, With an exceptional h-index of 81 and a recent h-index of 37 (since 2020), a distinguished researcher at University of California, Los Angeles, specializes in the field of Vascular calcification.

His recent articles reflect a diverse array of research interests and contributions to the field:

Effects of LP533401 on vascular and bone calcification in hyperlipidemic mice

Effects of Empagliflozin on vascular and skeletal mineralization in Hyperlipidemic mice

Effects of Exercise Frequency on Aortic Calcification in Hyperlipidemic Mice

A potential new link between inflammation and vascular calcification

Effects of activity levels on aortic calcification in hyperlipidemic mice as measured by microPETmicroCT

Potential mechanisms linking high-volume exercise with coronary artery calcification

Regulation of cardiovascular calcification by lipids and lipoproteins

Microarchitectural changes of Cardiovascular calcification in response to in vivo interventions using deep-learning segmentation and computed Tomography Radiomics

Linda L. Demer Information

University	University of California, Los Angeles
Position	___
Citations(all)	31164
Citations(since 2020)	6645
Cited By	26568
hIndex(all)	81
hIndex(since 2020)	37
i10Index(all)	158
i10Index(since 2020)	102
Email	Access Email
University Profile Page	University of California, Los Angeles
Google Scholar	View Google Scholar Profile

Linda L. Demer Skills & Research Interests

Vascular calcification

Top articles of Linda L. Demer

Title	Journal	Author(s)	Publication Date
Effects of LP533401 on vascular and bone calcification in hyperlipidemic mice	Biochemical and Biophysical Research Communications	Stuti Pradhan Andy Hon Yuxuan Xia Sophia Kalanski Nora Safvati ...	2024/5/28
Effects of Empagliflozin on vascular and skeletal mineralization in Hyperlipidemic mice	Vascular Pharmacology	Sophia Kalanski Stuti Pradhan Andy Hon Yuxuan Xia Nora Safvati ...	2024/4/30
Effects of Exercise Frequency on Aortic Calcification in Hyperlipidemic Mice	bioRxiv	Nora Safvati Sophia Kalanski Andy Hon Stuti Pradhan Oria Lu ...	2024
A potential new link between inflammation and vascular calcification		Xinjiang Cai Yin Tintut Linda L Demer	2023/1/3
Effects of activity levels on aortic calcification in hyperlipidemic mice as measured by microPETmicroCT	Atherosclerosis	Andy Hon Jeffrey J Hsu Angelica Zambrano Yuxuan Xia Mimi Lu ...	2023/8/2
Potential mechanisms linking high-volume exercise with coronary artery calcification		Angelica Zambrano Yin Tintut Linda L Demer Jeffrey J Hsu	2023/1/26
Regulation of cardiovascular calcification by lipids and lipoproteins		Jeffrey J Hsu Yin Tintut Linda L Demer	2022/10/1
Microarchitectural changes of Cardiovascular calcification in response to in vivo interventions using deep-learning segmentation and computed Tomography Radiomics	Arteriosclerosis, thrombosis, and vascular biology	Nikhil Rajesh Patel Kulveer Setya Stuti Pradhan Mimi Lu Linda L Demer ...	2022/8
Dynamic Changes In Endothelial Cell Mechanotype During Inflammatory Endothelial-to-Mesenchymal Transition	Arteriosclerosis, Thrombosis, and Vascular Biology	Jeffrey J Hsu Sriharsha Talapaneni Chau Ly Leela Wong Amy Rowat ...	2022/5
Lipids and cardiovascular calcification: contributions to plaque vulnerability		Jeffrey J Hsu Yin Tintut Linda L Demer	2021/7/27
Statin effects on vascular calcification: microarchitectural changes in aortic calcium deposits in aged hyperlipidemic mice	Arteriosclerosis, thrombosis, and vascular biology	Joshua Zhaojun Xian Mimi Lu Felicia Fong Rong Qiao Nikhil Rajesh Patel ...	2021/4
Changes in microarchitecture of atherosclerotic calcification assessed by 18F-NaF PET and CT after a progressive exercise regimen in hyperlipidemic mice	Journal of Nuclear Cardiology	Jeffrey J Hsu Felicia Fong Radha Patel Rong Qiao Karen Lo ...	2020/1/2
Serotonin receptor type 2B activation augments TNF‐α‐induced matrix mineralization in murine valvular interstitial cells	Journal of cellular biochemistry	Felicia Fong Joshua Xian Linda L Demer Yin Tintut	2021/2
Potential impact of the steroid hormone, vitamin D, on the vasculature		Yin Tintut Linda L Demer	2021/9/1
A biomarker for vascular calcification: shedding light on an unfinished story?		Jeffrey J Hsu Yin Tintut Linda L Demer	2021/7/1
Hearts of stone: calcific aortic stenosis and antiresorptive agents for osteoporosis		Linda L Demer Yin Tintut	2021/6/22
Biomolecules orchestrating cardiovascular calcification		Yin Tintut Henry M Honda Linda L Demer	2021/10/7
Low-density lipoproteins cause atherosclerotic cardiovascular disease: pathophysiological, genetic, and therapeutic insights: a consensus statement from the European …		Jan Boren M John Chapman Ronald M Krauss Chris J Packard Jacob F Bentzon ...	2020/6/21
The Paradoxical Relationship Between Skeletal and Cardiovascular Mineralization		Sidney Iriana Yin Tintut Linda L Demer	2020