Your search keyword '"Hontani, Kazutoshi"' showing total 4 results

1. Noncanonical Pyroptosis Triggered by Macrophage‐Derived Extracellular Vesicles in Chondrocytes Leading to Cartilage Catabolism in Osteoarthritis.

Author

Ebata, Taku, Terkawi, Mohamad Alaa, Kitahara, Keita, Yokota, Shunichi, Shiota, Junki, Nishida, Yoshio, Matsumae, Gen, Alhasan, Hend, Hamasaki, Masanari, Hontani, Kazutoshi, Shimizu, Tomohiro, Takahashi, Daisuke, Endo, Tsutomu, Onodera, Tomohiro, Kadoya, Ken, and Iwasaki, Norimasa

Subjects

CARTILAGE cells, CARTILAGE, IN vitro studies, KRUSKAL-Wallis Test, LIPOPOLYSACCHARIDES, SEQUENCE analysis, ANIMAL experimentation, ONE-way analysis of variance, MACROPHAGES, APOPTOSIS, RNA, CELLULAR signal transduction, OSTEOARTHRITIS, TUMOR necrosis factors, DATA analysis software, EXTRACELLULAR vesicles, MICE, CASPASES

Abstract

Objective: The severity of osteoarthritis (OA) and cartilage degeneration is highly correlated with the development of synovitis, which is mediated by the activity of inflammatory macrophages. A better understanding of intercellular communication between inflammatory macrophages and chondrocytes should aid in the discovery of novel therapeutic targets. We undertook this study to explore the pathologic role of inflammatory macrophage extracellular vesicles (EVs) in cartilage degeneration. Methods: Macrophages were stimulated by treatment with bacterial lipopolysaccharides to mimic the state of inflammatory macrophages, and the resulting EVs were harvested for chondrocyte stimulation in vitro and for intraarticular injection in a mouse model. The stimulated chondrocytes were further subjected to RNA‐sequencing analysis and other functional assays. The action of caspase 11 was disrupted in vitro using a specific small interfering RNA or wedelolactone, and in experimental murine OA models by intraarticular injection of wedelolactone. Results: Stimulated chondrocytes exhibited a significant elevation in the expression of chondrocyte catabolic factors. Consistent with these results, RNA‐sequencing analyses of stimulated chondrocytes indicated that up‐regulated genes were mainly categorized into apoptotic process and tumor necrosis factor signaling pathways, which suggests the induction of apoptotic process. Moreover, these chondrocytes exhibited a significant elevation in the expression of pyroptosis‐related molecules that were correlated with the expression of chondrocyte catabolic factors. The disruption of caspase 11 significantly alleviated pyroptotic and catabolic processes in stimulated chondrocytes and pathologic changes in collagenase‐induced and joint instability–induced OA models. Conclusion: Our results provide new insight into the pathologic mechanisms of OA and suggest that noncanonical pyroptosis in chondrocytes represents an attractive therapeutic target for treatment. [ABSTRACT FROM AUTHOR]

Published

2023

2. Effects of Ultra-Purified Alginate Gel Implantation on Meniscal Defects in Rabbits.

Author

Kim, WooYoung, Onodera, Tomohiro, Kondo, Eiji, Kawaguchi, Yasuyuki, Terkawi, Mohamad Alaa, Baba, Rikiya, Hontani, Kazutoshi, Joutoku, Zenta, Matsubara, Shinji, Homan, Kentaro, Hishimura, Ryosuke, and Iwasaki, Norimasa

Subjects

ALGINATES, ANIMAL experimentation, ARTICULAR cartilage, BIOMECHANICS, CARTILAGE cells, ENDOTOXINS, PHARMACEUTICAL gels, MENISCUS injuries, RABBITS, REGENERATION (Biology), TISSUE engineering, DATA analysis software

Abstract

Background: Many tissue-engineered methods for meniscal repair have been studied, but their utility remains unclear. Hypothesis: Implantation of low-endotoxin, ultra-purified alginate (UPAL) gel without cells could induce fibrocartilage regeneration on meniscal defects in rabbits. Study Design: Controlled laboratory study. Methods: Forty-two mature Japanese White rabbits were divided into 2 groups of 21 animals each. In each animal, a cylindrical defect measuring 2 mm in diameter was created with a biopsy punch on the anterior horn of the medial meniscus. In the control group, no treatment was applied on the left medial meniscal defect. In the UPAL gel group, the right medial meniscal defect was injected with the UPAL gel and gelated by a CaCl2 solution. Samples were evaluated at 3, 6, and 12 weeks postoperatively. For biomechanical evaluation, 6 additional samples from intact animals were used for comparison. Results: The macroscopic score was significantly greater in the UPAL gel group than in the control group at 3 weeks (mean ± SE: 5.6 ± 0.82 vs 3.4 ± 0.83, P = .010), 6 weeks (5.9 ± 0.72 vs 2.5 ± 0.75, P = .026), and 12 weeks (5.2 ± 1.21 vs 1.0 ± 0.63, P = .020). The histological score was significantly greater in the UPAL group than in the control group at 3 weeks (2.1 ± 0.31 vs 1.2 ± 0.25, P = .029) and 12 weeks (2.2 ± 0.55 vs 0.3 ± 0.21, P = .016). The mean stiffness of the reparative tissue in the UPAL gel group was significantly greater than that in the control group at 6 weeks (24.325 ± 3.920 N/mm vs 8.723 ± 1.190 N/mm, P = .006) and at 12 weeks (27.804 ± 6.169 N/mm vs not applicable [because of rupture]). Conclusion: The UPAL gel enhanced the spontaneous repair of fibrocartilage tissues in a cylindrical meniscal defect in rabbits. Clinical Relevance: These results imply that the acellular UPAL gel may improve the repair of traumatic meniscal injuries. [ABSTRACT FROM AUTHOR]

Published

2019

3. Osteochondral Autograft Transplantation Technique Augmented by an Ultrapurified Alginate Gel Enhances Osteochondral Repair in a Rabbit Model.

Author

Hishimura, Ryosuke, Onodera, Tomohiro, Hontani, Kazutoshi, Baba, Rikiya, Homan, Kentaro, Matsubara, Shinji, Joutoku, Zenta, Kim, WooYoung, Nonoyama, Takayuki, Kurokawa, Takayuki, Gong, Jian Ping, and Iwasaki, Norimasa

Subjects

BONE physiology, ARTICULAR cartilage, ALGINATES, ANIMAL experimentation, AUTOGRAFTS, BIOLOGICAL models, BIOMECHANICS, BIOMEDICAL materials, COLLAGEN, COMPUTED tomography, EXPERIMENTAL design, PHARMACEUTICAL gels, HISTOLOGICAL techniques, IMMUNOHISTOCHEMISTRY, RABBITS, TRANSPLANTATION of organs, tissues, etc., OSSEOINTEGRATION, DATA analysis software, DESCRIPTIVE statistics, MANN Whitney U Test, SURGERY

Abstract

Background: One of the most important limitations of osteochondral autograft transplantation (OAT) is the adverse effect on donor sites in the knee. To decrease the number and/or size of osteochondral defects, we devised a method with biomaterial implantation after OAT. Hypothesis: OAT augmented by ultrapurified alginate (UPAL) gel enhances cartilage repair capacity. Study Design: Controlled laboratory study. Methods: Seventy-five osteochondral defects in rabbits were divided into 3 groups: osteochondral defects with OAT alone, defects with OAT augmented by UPAL gel (combined group), and defects without intervention as controls. Macroscopic and histological evaluations of the reparative tissues were performed at 4 and 12 weeks postoperatively. Histological evaluation of graft cartilage degradation was also performed. To evaluate the effects of UPAL gel on graft healing, repaired bone volumes and osseointegration of the graft were evaluated. Collagen orientation and the mechanical properties of the reparative tissue and graft cartilage were also evaluated qualitatively. Results: The macroscopic and histological evaluations of the combined group were significantly superior to the other groups at 12 weeks postoperatively. Regarding degenerative change of the graft, the histological scores of the combined group were significantly higher than those of the OAT-alone group. The values of repaired subchondral bone volumes and osseointegration of the graft were almost identical in both groups. Collagen orientation and the mechanical properties of the reparative tissue and graft cartilage were significantly better in the combined group than in the other groups. Conclusion: Administration of UPAL gel in OAT enhanced cartilage repair and protected graft cartilage without inhibiting subchondral bone repair and graft survival. Clinical Relevance: OAT augmented by UPAL gel decreases the number and/or size of osteochondral grafts, minimizing the risk of donor site morbidity. This combination technique has the potential to improve clinical outcomes and expand the surgical indications for OAT. [ABSTRACT FROM AUTHOR]

Published

2019

4. Bone Marrow Stimulation Technique Augmented by an Ultrapurified Alginate Gel Enhances Cartilage Repair in a Canine Model.

Author

Baba, Rikiya, Onodera, Tomohiro, Matsuoka, Masatake, Hontani, Kazutoshi, Joutoku, Zenta, Matsubara, Shinji, Homan, Kentaro, and Iwasaki, Norimasa

Subjects

ALGINATES, ANIMAL experimentation, BIOMECHANICS, COMPUTED tomography, DOGS, PHARMACEUTICAL gels, HISTOLOGICAL techniques, PATELLA, PROBABILITY theory, RESEARCH funding, STAINS & staining (Microscopy), STATISTICS, ARTICULAR cartilage injuries, DATA analysis, TREATMENT effectiveness, DATA analysis software, DESCRIPTIVE statistics, ONE-way analysis of variance, IN vivo studies

Abstract

Background: The optimal treatment for a medium- or large-sized cartilage lesion is still controversial. Since an ultrapurified alginate (UPAL) gel enhances cartilage repair in animal models, this material is expected to improve the efficacy of the current treatment strategies for cartilage lesions. Hypothesis: The bone marrow stimulation technique (BMST) augmented by UPAL gel can induce hyaline-like cartilage repair. Study Design: Controlled laboratory study. Methods: Two cylindrical osteochondral defects were created in the patellar groove of 27 beagle dogs. A total of 108 defects were divided into 3 groups: defects without intervention (control group), defects with the BMST (microfracture group), and defects with the BMST augmented by implantation of UPAL gel (combined group). At 27 weeks postoperatively, macroscopic and histological evaluations, micro–computed tomography assessment, and mechanical testing were performed for each reparative tissue. Results: The defects in the combined group were almost fully covered with translucent reparative tissues, which consisted of hyaline-like cartilage with well-organized collagen structures. The macroscopic score was significantly better in the combined group than in the control group (P < .05). The histological scores in the combined group were significantly better than those in the control group (P < .01) and microfracture group (P < .05). Although the repaired subchondral bone volumes were not influenced by UPAL gel augmentation, the mechanical properties of the combined group were significantly better than those of the microfracture group (P < .05). Conclusion: The BMST augmented by UPAL gel elicited hyaline-like cartilage repair that had characteristics of rich glycosaminoglycan and matrix immunostained by type II collagen antibody in a canine osteochondral defect model. The present results suggest that the current technique has the potential to be one of the autologous matrix-induced chondrogenesis techniques of the future and to expand the operative indications for the BMST without loss of its technical simplicity. Clinical Relevance: The data support the clinical reality of 1-step minimally invasive cartilage-reparative medicine with UPAL gel without harvesting donor cells. [ABSTRACT FROM AUTHOR]

Published

2018