Skip to main navigation
Skip to search
Skip to main content
Illinois Experts Home
LOGIN & Help
Link opens in a new tab
Search content at Illinois Experts
Home
Profiles
Research units
Research & Scholarship
Datasets
Honors
Press/Media
Activities
Geobiology reveals how human kidney stones dissolve in vivo
Mayandi Sivaguru
, Jessica J. Saw
, James C. Williams
, John C. Lieske
, Amy E. Krambeck
, Michael F. Romero
, Nicholas Chia
, Andrew L. Schwaderer
, Reinaldo E. Alcalde
, William J. Bruce
, Derek E. Wildman
,
Glenn A. Fried
, Charles J. Werth
, Richard J. Reeder
, Peter M. Yau
,
Robert A. Sanford
,
Bruce W. Fouke
Biotechnology Center
Carl R. Woese Institute for Genomic Biology
Cell and Developmental Biology
Earth Science and Environmental Change
European Union Center
Center for Latin American and Caribbean Studies
Russian, East European and Eurasian Center
Center for Global Studies
Research output
:
Contribution to journal
›
Article
›
peer-review
Overview
Fingerprint
Fingerprint
Dive into the research topics of 'Geobiology reveals how human kidney stones dissolve in vivo'. Together they form a unique fingerprint.
Sort by
Weight
Alphabetically
Keyphrases
Kidney
100%
Geobiology
100%
Kidney Stones
100%
Human Kidney Stone
100%
Nanometer Scale
50%
Optical Techniques
50%
Organic Matter
50%
Surgical Procedures
50%
Biomineralization
50%
Hypertension
50%
Super-resolution
50%
Brightfield
50%
Diabetes
50%
Health Problems
50%
Obesity
50%
Treatment Options
50%
Field Polarization
50%
Thin Section
50%
Human Population
50%
Multiple Events
50%
Clinical Approach
50%
Organic Minerals
50%
Calcium Oxalate
50%
Stone Expulsion
50%
Calcium Oxalate Stones
50%
Autofluorescence Microscopy
50%
Medicine and Dentistry
Urolithiasis
100%
Medical Decision Making
50%
Fluorescence Microscopy
50%
Surgical Technique
50%
DNA Template
50%
Diabetes
50%
Organic Matter
50%
Autofluorescence
50%
Kidney Stone
50%
Calcium Oxalate
50%
Biomineralization
50%
Calcium Oxalate Stone
50%
Stone Dissolution
50%
Diseases
50%