Nature Communications (Jun 2023)

A magnetic hydrogel for the efficient retrieval of kidney stone fragments during ureteroscopy

  • T. Jessie Ge,
  • Daniel Massana Roquero,
  • Grace H. Holton,
  • Kathleen E. Mach,
  • Kris Prado,
  • Hubert Lau,
  • Kristin Jensen,
  • Timothy C. Chang,
  • Simon Conti,
  • Kunj Sheth,
  • Shan X. Wang,
  • Joseph C. Liao

DOI
https://doi.org/10.1038/s41467-023-38936-1
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 10

Abstract

Read online

Abstract Only 60-75% of conventional kidney stone surgeries achieve complete stone-free status. Up to 30% of patients with residual fragments <2 mm in size experience subsequent stone-related complications. Here we demonstrate a stone retrieval technology in which fragments are rendered magnetizable with a magnetic hydrogel so that they can be easily retrieved with a simple magnetic tool. The magnetic hydrogel facilitates robust in vitro capture of stone fragments of clinically relevant sizes and compositions. The hydrogel components exhibit no cytotoxicity in cell culture and only superficial effects on ex vivo human urothelium and in vivo mouse bladders. Furthermore, the hydrogel demonstrates antimicrobial activity against common uropathogens on par with that of common antibiotics. By enabling the efficient retrieval of kidney stone fragments, our method can lead to improved stone-free rates and patient outcomes.