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Development of a novel regenerative therapy for malignant bone tumors using an autograft containing tumor inactivated by high hydrostatic pressurization (HHP)

Authors :
Yuanjiaozi Li
Yasuhiro Katayama
Ie Nie
Takashi Nakano
Eiichi Sawaragi
Michiharu Sakamoto
Hiroki Yamanaka
Itaru Tsuge
Satoru Demura
Yohei Yamada
Hiroyuki Tsuchiya
Naoki Morimoto
Source :
Regenerative Therapy, Vol 22, Iss , Pp 224-231 (2023)
Publication Year :
2023
Publisher :
Elsevier, 2023.

Abstract

Surgical resection of malignant bone tumors leads to significant defects in the normal surrounding tissues that should be reconstructed to avoid amputation. Our research aimed to inactivate osteosarcoma (OS)-affected bone to obtain autologous bone grafts for bone defect reconstruction using a novel therapy called high hydrostatic pressurization (HHP) therapy. The key points are complete tumor death and preservation of the non-denatured native extracellular matrix (ECM) and bone tissue by HHP. Previously, we found that HHP at 200 MPa for 10 min can completely inactivate cells in normal skin and skin tumors, including malignant melanoma and squamous cell carcinoma while maintaining their original biochemical properties and biological components. Based on our previous research, this study used HHP at 200 MPa for 10 min to eradicate OS. We prepared an OS cell line (LM8), pressurized it at 200 MPa for 10 min, and confirmed its inactivation through morphological observation, WST-8 assay, and live/dead assay. We then injected OS cells with or without HHP into the bone marrow of the murine tibia, after which we implanted tumor tissues with or without HHP into the anterior surface of the tibia. After HHP, OS cells did not proliferate and were assessed using a live/dead assay. The pressurized cells and tumors did not grow after implantation. The pressurized bone was well prepared as tumor-free autologous bone tissues, resulting in the complete eradication of OS. This straightforward and short-pressing treatment was proven to process the tumor-affected bone to make a transplantable and tumor-free autologous bone substitute.

Details

Language :
English
ISSN :
23523204
Volume :
22
Issue :
224-231
Database :
Directory of Open Access Journals
Journal :
Regenerative Therapy
Publication Type :
Academic Journal
Accession number :
edsdoj.269394068c7d4e289310699aa82deec4
Document Type :
article
Full Text :
https://doi.org/10.1016/j.reth.2023.02.002