Hydroxyapatite microspheres induce durable pleurodesis and are rapidly cleared by pleural osteoclasts
Yusuke Tanaka, … , Kathryn A. Wikenheiser-Brokamp, Francis X. McCormack
Yusuke Tanaka, … , Kathryn A. Wikenheiser-Brokamp, Francis X. McCormack
Published August 26, 2025
Citation Information: JCI Insight. 2025;10(19):e192981. https://doi.org/10.1172/jci.insight.192981.
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Research Article Bone biology Pulmonology

Hydroxyapatite microspheres induce durable pleurodesis and are rapidly cleared by pleural osteoclasts

Abstract

Talc pleurodesis is highly effective for preventing recurrence of pneumothorax and pleural effusion, but it can be complicated by dissemination, acute lung injury, lead exposure, and foreign body–induced chronic inflammation and pain. Our objective is to develop a safe, biodegradable, contaminant-free particle for pleurodesis. We used mouse models of pneumothorax and malignant pleural effusion to compare the efficacy and safety of pleurodesis with talc and hydroxyapatite microspheres (HAM). Intrapleural instillation of microspheres induced pleural adhesions, fibrosis, and symphysis as effectively as talc and resulted in more durable protection from experimental pneumothorax. HAM and talc both induced an osteoclastogenic, inflammatory, and fibrotic response in pleural lavage cells. Intrapleural HAM was resorbed by osteoclast action over 3 months, whereas talc was not cleared. Deletion of the osteoclast effector, CTSK, diminished pleural adhesion formation and fibrosis by HAM, and inhibition of osteoclastogenesis with anti-RANKL antibody delayed HAM clearance. We found no difference in activity level, feeding behavior, or lung compliance between particles, but talc induced more persistent pleural inflammation. We conclude that HAM resulted in an osteoclastogenic and fibrogenic pleural response that induced pleurodesis that was more durable than talc with a superior safety profile due in part to osteoclast-mediated particle clearance.

Authors

Yusuke Tanaka, Yuki Takahashi, Yuma Shindo, Lori B. Pitstick, Steven L. Teitelbaum, Wei Zou, Xiangning Wang, Jason C. Woods, Kathryn A. Wikenheiser-Brokamp, Francis X. McCormack

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Figure 9

Adhesion formation, dissemination, and clearance of HAM particles.

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Adhesion formation, dissemination, and clearance of HAM particles. (A) P...
(A) Pleural adhesion formation was assessed on day 7 after intrapleural instillation of 80 mg of 5 μm HAM, 10 μm HAM, or 24 μm HAM particles or 40 mg laboratory grade or clinical grade particles as outlined in Methods. (B) Intrapleural delivery of 80 mg of 10 μm (pink) or 24 μm (green) HAM particles to mice at time zero was followed by determination of pleural adhesion scores at 7, 28, and 84 days. (CE). The effects of particle size (C), particle dose (D), and time (E) on dissemination and clearance are depicted in dot plots that summarize the data shown in Supplemental Figures 9–11. The size of dots relates to the number of animals of the 3–4 mice surveyed per point that had any particles found, and the intensity of color relates to the maximal profusion of particles found in any of the positive animals in the group (on a scale of 1–4+). Data are shown as mean ± SD. **P < 0.01, ***P < 0.001, and ****P < 0.0001.