A fluorescent orange liquid in a glass vial is held in front of a blue glowing...
University of Texas at Dallas researchers are studying how the movement and elimination of nanoparticles through the kidney are affected by kidney damage. The recently found that X-rays of the kidneys using gold nanoparticles as a contrast agent might be more accurate in detecting kidney disease than standard laboratory blood tests.

Image source: University of Texas at Dallas

News • Transport of minuscule gold particles

Nanoparticles could detect kidney disease better than blood tests

Researchers from the University of Texas at Dallas discovered that X-rays of the kidneys using gold nanoparticles as a contrast agent might be more accurate in detecting kidney disease than standard laboratory blood tests.

Based on their study in mice, they also found that caution may be warranted in employing renal-clearable nanomedicines to patients with compromised kidneys. Their insights are published in Advanced Materials

Before administering renal-clearable drugs, doctors routinely check a patient’s kidney function by testing their blood urea nitrogen (BUN) and creatinine (Cr) levels. With the increasing use of engineered nanoparticles to deliver payloads of drugs or imaging agents to the body, an important question is how the nanoparticles’ movement and elimination through the kidney is affected by kidney damage. Can traditional biomarkers like BUN and Cr accurately predict how well — or how poorly — such nanoparticles will move through the kidneys?

Dr. Mengxiao Yu, Dr. Jie Zheng, Yingyu Huang and Xuhui Ning standing next to...
From left: UT Dallas chemists Dr. Mengxiao Yu, research associate professor; Dr. Jie Zheng, professor and Distinguished Chair in Natural Sciences and Mathematics; and research scientists Yingyu Huang PhD’20 and Xuhui Ning BS’14, PhD’19 have made seminal discoveries about kidney physiology.

Image source: University of Texas at Dallas

The UT Dallas researchers found that in mice with severely injured kidneys caused by the drug cisplatin, in which BUN and Cr levels were 10 times normal, nanoparticle transport through the kidneys was slowed down significantly, a situation that caused the nanoparticles to stay in the kidneys longer. In mildly injured kidneys, however, in which BUN and Cr levels were only four to five times higher than normal, the transport and retention of gold nanoparticles couldn’t be predicted by those tests. 

On the other hand, the amount of gold nanoparticle accumulation seen on X-rays did correlate strongly with the degree of kidney damage. “While our findings emphasize the need for caution when using these advanced treatments in patients with compromised kidneys, they also highlight the potential of gold nanoparticles as a noninvasive way to assess kidney injuries using X-ray imaging or other techniques that correlate with gold accumulation in the kidneys,” said Dr. Mengxiao Yu, a corresponding author of the study and a research associate professor of chemistry and biochemistry in the School of Natural Sciences and Mathematics. 

Chemistry and biochemistry research scientist Xuhui Ning BS’14, PhD’19 is lead author of the study, and Dr. Jie Zheng, professor of chemistry and biochemistry and a Distinguished Chair in Natural Sciences and Mathematics, is a corresponding author. Other contributors are affiliated with UT Southwestern Medical Center and Vanderbilt University Medical Center. 

The research was funded by the National Institute of Diabetes and Digestive and Kidney Diseases, part of the National Institutes of Health (R01DK124881, R01DK115986, R01DK103363) and the Cancer Prevention and Research Institute of Texas (RP200233). 


Source: University of Texas at Dallas

24.09.2024

Related articles

Photo

News • Macrocyclic hybrid probe

New dual PET/MRI contrast agent to enhance kidney diagnostics

A new type of contrast agent for use in both MRI and PET imaging has the potential to significantly enhance diagnosis and subsequent treatment, particularly for kidney diseases and tumors.

Photo

Article • Infection control

From alcohol to cancer detection

Clinical trials are under way at two NHS hospitals in England to assess breathalyser technology to detect lung cancer. Phase I clinical trials of a diagnostic breathalyser developed by…

Photo

News • Microfluidics and electrochemical transduction

Paper-based device for rapid diagnosis of lung diseases

A new device that combines microfluidics on paper, electrochemical transduction and immunoassays on magnetic nanoparticles is useful for easy and rapid diagnosis of lung diseases.

Related products

Subscribe to Newsletter