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OBJECTIVES: Aortic valve neocuspidization has shown satisfactory clinical outcomes; however, autologous pericardium durability is a concern for young patients. This study applied an autologous collagenous membrane (Biosheet®), produced by in-body tissue architecture, to aortic valve neocuspidization and investigated its long-term outcome in a goat model. METHODS: Moulds were embedded subcutaneously in 6 goats. After 2 months, Biosheets formed in the moulds. We performed aortic valve neocuspidization using a portion of the sheets with a thickness of 0.20-0.35 mm, measured by optical coherence tomography. Animals were subjected to echocardiography and histological evaluation at 6 months (n = 3) and 12 months (n = 3). As a control, the glutaraldehyde-treated autologous pericardium was used in 4 goats that were similarly evaluated at 12 months. RESULTS: All animals survived the scheduled period. At 6 months, Biosheets maintained valve function and showed a regeneration response: fusion to the annulus, cell infiltration to the leaflets and appearance of elastic fibres at the ventricular side. After 12 months, the regenerative structure had changed little without regression, and there was negligible calcification in the 1/9 leaflets. However, all cases had one leaflet tear, resulting in moderate-to-severe aortic regurgitation. In the pericardium group, three-fourths of the animals experienced moderate-to-severe aortic regurgitation with a high rate of calcification (9/12 leaflets). CONCLUSIONS: Biosheets may have regeneration potential and anti-calcification properties in contrast to autologous pericardium. However, in order to obtain reliable outcome, further improvements are required to strictly control and optimize its thickness, density and homogeneity.

DOI： 10.1093/icvts/ivab015

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© 2019 The reconstruction of the aortic valve using glutaraldehyde-treated autologous pericardium is known as “aortic valve neo-cuspidization” (AVNeo). In-body tissue architecture (iBTA), a cell-free, in vivo tissue-engineering technology that can form autologous implantable tissues of the desired shape by subcutaneous embedding specially designed molds, was used to prepare sheet-like collagenous tissues called “Biosheets”. Cylindrical molds with several line slits arranged in an alternating (n = 30) or parallel (n = 36) pattern were subcutaneously embedded in goats (n = 12) for 2 or 3 months. The tubular tissues formed in the molds were dried and then cut in the longitudinal direction, thus obtaining Biosheets (5 × 7 cm). The success rate was 97.6% when using the alternating-pattern molds and 97.2% for the parallel molds. Thickness mapping of the Biosheets showed that their entire surface, except for the line-projection portions, was smooth without any defects. The average wall thickness could be controlled over a range of ca. 0.2–0.5 mm by changing the size of the gap (0.75–1.5 mm) in the molds. The alternating slit-patterned Biosheets were found to be almost isotropic in their mechanical properties (ultimate tensile strength, fracture strain, and Young's modulus). Although the composition of the Biosheet wall was heterogeneous in terms of its density (which varied with the thickness), the breaking strength of all the alternating-patterned Biosheets increased almost linearly with the thickness within the range of the thickness of clinically used glutaraldehyde-treated pericardium as a control, and was larger than that of human aortic valve leaflets. Therefore, the alternating-patterned Biosheets have potential for use in an alternative aortic leaflet material in AVNeo.

DOI： 10.1016/j.jbiomech.2019.109528

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© The Author(s) 2019. This study presents the initial 3-year results of the first in-human study of internal shunt restoration using completely autologous vascular grafts, “Biotubes,” based on in-body tissue architecture. Biotubes (diameter, 6 mm; length, 7 cm) were prepared as autologous collagenous tubular tissues with approximately 0.5 mm wall thickness by embedding molds (two per patient), assembled with a silicone rod and a stainless steel pipe with many slits, into the patients’ abdominal subcutaneous tissue for 2 months. Two female patients with end-stage renal disease were undergoing hemodialysis with a high probability of failure due to repeated stenosis every few months at the venous outflow regions over 1.5 years. Biotubes formed in both patients and were bypassed over the venous stenosis region of the arteriovenous shunt. After bypass with Biotubes without living cells, palpable thrill and typical turbulent flow pattern were observed by pulsed-wave Doppler. Follow-up angiography showed no signs of dilation or stenosis after implantation, and puncture could be performed easily without graft damage. In both cases, stenosis of Biotubes occurred after 3–4 months. In the first case, percutaneous transluminal angioplasty was not required for over 2 years after implantation even after the development of Biotube stenosis. In the second case, stenosis at the proximal anastomotic site of the Biotube became prominent, and percutaneous transluminal angioplasty was needed 7 months after implantation and then repeated at up to 2 years. This was the first human study successfully supporting the concept of internal shunt restoration for hemodialysis using an autologous Biotube.

DOI： 10.1177/1129729819852550

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Authorship：Lead author   Language：Japanese   Publisher：Japanese Society for Engineering Education  

Education in mechanism theory is essential for helping university students deeply understand machine. However, for students to imagine a mechanical movement through plane and stationary information is difficult. In addition, simulating and checking how mechanical movement changes along with changing the length of links and the number of pairs is also difficult. In this paper, MATLAB^®/Simulink^®/Simscape^TM Multibody^TM is applied for mechanism education and some mechanism practice. The introduced program’ s effect is verified with questionnaires and students’ GPAs. According to analysis of the questionnaires, the proposal method shows the possibility of improving students’ understanding and motivation. The practice introduced here is effective for students with rather high GPAs, seeming to improve their motivation for study. However, considering the specification like a university specializing in manufacturing, joining this educational program to 3D CAD education may also be useful for students with relatively low GPAs.

File： 68_6_83.pdf

DOI： 10.4307/jsee.68.6_83

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© 2019, Springer Nature Singapore Pte Ltd. Purpose: Although various artificial tracheas have been developed, none have proven satisfactory for clinical use. In-body tissue architecture (IBTA) has enabled us to produce collagenous tissues with a wide range of shapes and sizes to meet the needs of individual recipients. In the present study, we investigated the long-term outcomes of patch tracheoplasty using an IBTA-induced collagenous tissue membrane (“biosheet”) in a beagle model. Methods: Nine adult female beagles were used. Biosheets were prepared by embedding cylindrical molds assembled with a silicone rod and a slitting pipe into dorsal subcutaneous pouches for 2 months. The sheets were then implanted by patch tracheoplasty. An endoscopic evaluation was performed after 1, 3, or 12 months. The implanted biosheets were harvested for a histological evaluation at the same time points. Results: All animals survived the study. At 1 month after tracheoplasty, the anastomotic parts and internal surface of the biosheets were smooth with ciliated columnar epithelium, which regenerated into the internal surface of the biosheet. The chronological spread of chondrocytes into the biosheet was observed at 3 and 12 months. Conclusions: Biosheets showed excellent performance as a scaffold for trachea regeneration with complete luminal epithelium and partial chondrocytes in a 1-year beagle implantation model of patch tracheoplasty.

DOI： 10.1007/s00595-019-01818-5

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© 2018, Springer-Verlag France SAS, part of Springer Nature. Purpose: We evaluated the usefulness of biosheet, an in-body tissue-engineered collagenous membrane, as a novel repair material for abdominal wall defects in a beagle model. Methods: Biosheets were prepared by embedding molds into subcutaneous pouches in two beagle dogs for 2 months, with subsequent storage in 70% ethanol. The obtained biosheets (thickness 0.5 mm, size 25 cm 2 ) were implanted to replace same-size defects in the abdominal wall of two beagles in an allogenic manner. Results: The biosheets were not stressed during suturing and did not split; moreover, patch implantation into the defective wound was easy. No complications such as anastomotic leaks or infections occurred during implantation. One year post-implantation, the thickness of the biosheet implantation section increased to approximately 2.5 mm, corresponding to approximately 70% of the native abdominal wall. A section of the abdominal wall muscle elongated from the periphery of the newly formed collagen layer, and the peritoneum was entirely formed on the peritoneal cavity surface, resulting in partial regeneration of the three-layered abdominal wall. The mechanical strength of the newly formed wall was approximately fivefold higher than the native wall. The elasticity of the biosheet in the low-strain region decreased to approximately 10% post-implantation, similar to the native wall. Conclusions: This pilot study demonstrated that biosheet maintained the abdominal wall without any complications for 1 year post-implantation, and partial regeneration was observed. Although this experiment was limited to two cases, the results indicated that biosheet may serve as a reliable abdominal wall restorative material.

DOI： 10.1007/s10029-018-1866-1

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© Georg Thieme Verlag KG Stuttgart. Introduction Tracheal reconstruction for long-segment stenosis remains challenging. We investigate the usefulness of BIOTUBE, an in-body tissue-engineered collagenous tube with a biodegradable stent, as a novel tracheal scaffold in a beagle model. Materials and Methods We prepared BIOTUBEs by embedding specially designed molds, including biodegradable stents, into subcutaneous pouches in beagles. After 2 months, the molds were filled with ingrown connective tissues and were harvested to obtain the BIOTUBEs. The BIOTUBEs, cut to 10- or 20-mm lengths, were implanted to replace the same-length defects in the cervical trachea of five beagles. Endoscopic and fluoroscopic evaluations were performed every week until the lumen became stable. The trachea, including the BIOTUBE, was harvested and subjected to histological evaluation between 3 and 7 months after implantation. Results One beagle died 28 days after 20-mm BIOTUBE implantation because of insufficient expansion and retention force of the stent. The remaining four beagles were implanted with a BIOTUBE reinforced by a strong stent, and all survived the observation period. Endoscopy revealed narrowing of the BIOTUBEs in all four beagles, due to an inflammatory reaction, but patency was maintained by steroid application at the implantation site and balloon dilatation against the stenosis. After 2 months, the lumen gradually became wider. Histological analyses showed that the internal surface of the BIOTUBEs was completely covered with tracheal epithelial cells. Conclusion This study demonstrated the usefulness of the BIOTUBE with a biodegradable stent as a novel scaffold for tracheal regeneration.

DOI： 10.1055/s-0038-1673709

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© 2018 In-body tissue architecture (iBTA), a cell-free, in vivo tissue engineering technology that can produce autologous implantable tissues of the desired shape by subcutaneously embedding specially designed molds, was used to develop long tubular collagenous tissues called Biotubes. Spiral molds for long Biotubes were assembled with an outer pipe-shaped spiral shell and an inner spiral mandrel, and embedded into subcutaneous pouches of beagle dogs or goats for 1 or 2 months. Tubular collagenous tissues were formed at the space between the shell and the mandrel of the mold. Depending on the spiral turn number in the mold, Biotubes of 25 cm or 50 cm (internal diameter 4 mm or 5 mm) were prepared with nearly homogeneous mechanical and histological properties over their entire length. Biotubes stored in 70% ethanol were allogenically implanted into beagle dogs or goats to evaluate their in vivo performance. The 25-cm Biotubes functioned as arterial grafts with no need for luminal modification or mechanical support, and demonstrated vascular reconstruction within 3 months after implantation into dogs. The 50-cm Biotubes functioned as arteriovenous shunt grafts in the neck region of goats without thrombus formation and vascular deformation for 1 month. Thus, the world's longest tissue-engineered vascular grafts with small diameter could be developed using iBTA.

DOI： 10.1016/j.biomaterials.2018.09.032

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© 2018, Japanese Society of Biorheology. All rights reserved. Collagenous tubular tissues “Biotubes,” formed by in-body tissue engineering, is implanted already as clinical vascular grafts in hemodialysis surgery. In almost all previous study, Biotubes were stored in 70% alcohol before implantation, but the influence of alcohol concentration on the mechanical properties of Biotubes has not been investigated in depth. In this study, the mechanical properties of Biotubes stored at room temperature in two different concentrations of ethanol (10% or 70%) were compared through fatigue and tensile tests. Biotubes with an internal diameter of 6 mm and wall thickness of ca. 2 mm was prepared by subcutaneous embedding of molds into goat for two months, and stored in 10% or 70% alcohol solution for 20 d. In the fatigue test, performed by repeatable loading of tension corresponding to arterial pressure (700,000 cycles at 10 Hz), Biotubes stored in 10% solution elongated by approximately 80%, but in 70% solution, the elongation was <20%. Storing Biotubes in high concentration ethanol solution improved practical compliance and prevented stretching. The preservation of ECM with 70% ethanol is a cost effective, safe and easy method.

File： J_Biorheol_32_65-70_2018.pdf

DOI： 10.17106/jbr.32.65

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© 2018, The Japanese Society for Artificial Organs. A type-C mold based on in-body tissue architecture was previously developed for preparing small-diameter biotube vascular grafts with a 2-mm diameter and approximately 1-mm wall thickness. In this study, the type-C mold was modified for preparing large-diameter biotubes with controlled wall thicknesses. Four types of molds were assembled by inserting silicone center rods (outer diameters 11, 13, 15, 17 mm) into stainless steel cages (inner diameter 19 mm) and surgically embedded in the abdominal subcutaneous pouches of Holstein cows. After 8–12 weeks, connective tissues occupied the rod–cage gap in the molds to form biotubes. The wall thickness of the biotubes obtained after removing the molds was approximately 1–3 mm, which corresponded to approximately 80% of each gap distance. The breaking strength almost linearly increased with the wall thickness of the biotubes. The strength of the biotubes with wall thickness over 1.5 mm was higher than that of beagle blood vessels. The thickest biotubes were as strong as bovine pericardium and can be used as an alternative trachea graft because of their adequate lumen-holding force.

DOI： 10.1007/s10047-018-1035-4

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AIM: Although many approaches to esophageal replacement have been investigated, these efforts have thus far only met limited success. In-body-tissue-engineered connective tissue tubes have been reported to be effective as vascular replacement grafts. The aim of this study was to investigate the usefulness of an In-body-tissue-engineered collagenous connective tissue membrane, "Biosheet", as a novel esophageal scaffold in a beagle model. METHODS: We prepared Biosheets by embedding specially designed molds into subcutaneous pouches in beagles. After 1-2months, the molds, which were filled with ingrown connective tissues, were harvested. Rectangular-shaped Biosheets (10×20mm) were then implanted to replace defects of the same size that had been created in the cervical esophagus of the beagle. An endoscopic evaluation was performed at 4 and 12weeks after implantation. The esophagus was harvested and subjected to a histological evaluation at 4 (n=2) and 12weeks (n=2) after implantation. The animal study protocols were approved by the National Cerebral and Cardiovascular Centre Research Institute Committee (No. 16048). RESULTS: The Biosheets showed sufficient strength and flexibility to replace the esophagus defect. All animals survived with full oral feeding during the study period. No anastomotic leakage was observed. An endoscopic study at 4 and 12weeks after implantation revealed that the anastomotic sites and the internal surface of the Biosheets were smooth, without stenosis. A histological analysis at 4weeks after implantation demonstrated that stratified squamous epithelium was regenerated on the internal surface of the Biosheets. A histological analysis at 12weeks after implantation showed the regeneration of muscle tissue in the implanted Biosheets. CONCLUSION: The long-term results of patch esophagoplasty using Biosheets showed regeneration of stratified squamous epithelium and muscular tissues in the implanted sheets. These results suggest that Biosheets may be useful as a novel esophageal scaffold.

DOI： 10.1016/j.jpedsurg.2017.11.004

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DOI： 10.1080/24748706.2019.1589339

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バイオシート作製用鋳型を成ヤギの皮下に埋植し2〜3ヵ月後に摘出して得たバイオシートから宿主大動脈弁輪の大きさに合わせてリーフレット形状に切り出したものを用いて同ヤギに対し体外循環・心停止下で大動脈弁再建術を行い、グルタルアルデヒド処理をした自己心膜を用いた場合と比較した。バイオシートの厚さと大動脈弁口通過最高血流速度(Vmax)は相関を認め、術後のVmaxは経過とともに低下傾向を認めた。移植弁の可動性はバイオシート、自己心膜ともに術後から良好であり、弁逆流はnone〜mildで推移した。術後3ヵ月時点でバイオシートは組織学的に弁輪部での完全な癒合、バイオシート内への細胞侵入など自己心膜とは異なる反応を呈した。術後6ヵ月では肉眼的にバイオシートはnative弁と酷似した形態となり、組織学的にはαSMA陽性細胞が弁尖方向に増生し、左室流出路側を中心に弾性線維による層形成を認め、さらに自己弁化していた。

DOI： 10.4326/jjcvs.47.xxix

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Presentation type：Symposium, workshop panel (nominated)  

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Event date： 2018.2

Language：Japanese   Presentation type：Oral presentation (general)  

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Event date： 2018.2

Language：Japanese   Presentation type：Oral presentation (general)  

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Event date： 2017.10

Language：Japanese   Presentation type：Oral presentation (general)  

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Event date： 2017.9

Language：Japanese   Presentation type：Symposium, workshop panel (nominated)  

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Event date： 2017.9

Language：Japanese   Presentation type：Symposium, workshop panel (nominated)  

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Event date： 2017.9

Language：Japanese   Presentation type：Oral presentation (general)  

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Event date： 2017.9

Language：Japanese   Presentation type：Symposium, workshop panel (nominated)  

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Event date： 2017.9

Language：Japanese   Presentation type：Oral presentation (general)  

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Event date： 2017.3

Language：Japanese  

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Event date： 2017.3

Language：Japanese   Presentation type：Oral presentation (general)  

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Event date： 2017.3

Language：Japanese   Presentation type：Symposium, workshop panel (nominated)  

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Event date： 2017.3

Language：Japanese   Presentation type：Oral presentation (general)  

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Event date： 2017.3

Language：Japanese   Presentation type：Oral presentation (general)  

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Event date： 2017.3

Language：Japanese   Presentation type：Oral presentation (general)  

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Event date： 2016.11

Language：Japanese   Presentation type：Oral presentation (general)  

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Event date： 2016.11

Language：Japanese   Presentation type：Oral presentation (general)  

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Event date： 2016.11

Language：Japanese  

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Event date： 2006.12

Language：Japanese   Presentation type：Oral presentation (general)  

Driver steering is affected by various inputs, but driver's actions can be classified broadly into three types: trajectory planning, steering by means of feed-forward control, and steering by means of feedback control Current assist systems demonstrated by lane-keep control systems are mainly driver assistance by means of feedback control. Instead, we tried to construct a driving assistance system by means of feed-forward control. This system has advantages of being simpler than the other systems and enabling drives to override. Research was conducterd using a driving simulator and performed an evaluation of the system by measuring steering torque during driving several simulated courses.

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Language：Japanese   Presentation type：Oral presentation (general)  

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Language：Japanese   Presentation type：Oral presentation (general)  

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Language：Japanese   Presentation type：Oral presentation (general)  

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Applicant：株式会社SUBARU

Application no：特願2016-062073  Date applied：2016.3

Announcement no：特開2017-171224  Date announced：2017.9

Patent/Registration no：特許6663767  Date registered：2020.2 

Rights holder：株式会社SUBARU

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Applicant：株式会社SUBARU

Application no：特願2015-248867  Date applied：2015.12

Announcement no：特開2017-114168  Date announced：2017.6

Patent/Registration no：特許6661214  Date registered：2020.2 

Rights holder：株式会社SUBARU

J-GLOBAL

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Applicant：株式会社SUBARU

Application no：特願2015-244379  Date applied：2015.12

Announcement no：特開2017-109560  Date announced：2017.6

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Applicant：株式会社SUBARU

Application no：特願2015-238720  Date applied：2015.12

Announcement no：特開2017-105249  Date announced：2017.6

Patent/Registration no：特許6661213  Date registered：2020.2 

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Applicant：富士重工業株式会社

Application no：特願2015-220915  Date applied：2015.11

Announcement no：特開2017-087983  Date announced：2017.5

J-GLOBAL

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Applicant：富士重工業株式会社

Application no：特願2015-058147  Date applied：2015.3

Announcement no：特開2016-175570  Date announced：2016.10

Patent/Registration no：特許6535490  Date registered：2019.6 

Rights holder：株式会社ＳＵＢＡＲＵ

J-GLOBAL

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Applicant：富士重工業株式会社

Application no：特願2015-058148  Date applied：2015.3

Announcement no：特開2016-175571  Date announced：2016.10

Patent/Registration no：特許6541216  Date registered：2019.6 

Rights holder：株式会社ＳＵＢＡＲＵ

J-GLOBAL

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Applicant：富士重工業株式会社

Application no：特願2015-055149  Date applied：2015.3

Announcement no：特開2016-175446  Date announced：2016.10

Patent/Registration no：特許6497806  Date registered：2019.3 

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Applicant：富士重工業株式会社

Application no：特願2014-263141  Date applied：2014.12

Announcement no：特開2016-120882  Date announced：2016.7

Patent/Registration no：特許6478318  Date registered：2019.2 

Rights holder：株式会社ＳＵＢＡＲＵ

J-GLOBAL

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Applicant：富士重工業株式会社

Application no：特願2014-189288  Date applied：2014.9

Announcement no：特開2016-060349  Date announced：2016.4

Patent/Registration no：特許第5947849号  Date issued：2016.6

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Applicant：富士重工業株式会社

Application no：特願2014-073027  Date applied：2014.3

Announcement no：特開2015-194946  Date announced：2015.11

Patent/Registration no：特許第5936281号  Date issued：2016.5

J-GLOBAL

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Applicant：富士重工業株式会社

Application no：特願2014-069710  Date applied：2014.3

Patent/Registration no：特許第5798658号  Date issued：2015.8

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Applicant：株式会社SUBARU

Application no：特願2014-069708  Date applied：2014.3

Announcement no：特開2015-189410  Date announced：2015.11

Patent/Registration no：特許第6327701号  Date issued：2018.4

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Applicant：株式会社SUBARU

Application no：特願2014-069707  Date applied：2014.3

Announcement no：特開2015-189409  Date announced：2015.11

Patent/Registration no：特許第6317972号  Date issued：2018.4

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Applicant：株式会社SUBARU

Application no：特願2014-069709  Date applied：2014.3

Announcement no：特開2015-190920  Date announced：2015.11

Patent/Registration no：特許第6322023号  Date issued：2018.4

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Applicant：富士重工業株式会社

Application no：特願2014-066640  Date applied：2014.3

Announcement no：特開2015-191316  Date announced：2015.11

Patent/Registration no：特許6338417  Date registered：2018.5 

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Applicant：富士重工業株式会社

Application no：特願2013-080558  Date applied：2013.4

Announcement no：特開2014-201258  Date announced：2014.10

Patent/Registration no：特許第6106012号  Date issued：2017.3

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Applicant：富士重工業株式会社

Application no：特願2013-006963  Date applied：2013.1

Announcement no：特開2013-091494  Date announced：2013.5

Patent/Registration no：特許第5572231号  Date issued：2014.7

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Applicant：富士重工業株式会社

Application no：特願2013-006962  Date applied：2013.1

Announcement no：特開2013-139257  Date announced：2013.7

Patent/Registration no：特許第5451911号  Date issued：2014.1

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Applicant：富士重工業株式会社

Application no：特願2013-003268  Date applied：2013.1

Announcement no：特開2013-063778  Date announced：2013.4

Patent/Registration no：特許第5544435号  Date issued：2014.5

J-GLOBAL

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Applicant：富士重工業株式会社

Application no：特願2012-208612  Date applied：2012.9

Announcement no：特開2014-061815  Date announced：2014.4

Patent/Registration no：特許第5483770号  Date issued：2014.2

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Applicant：富士重工業株式会社

Application no：特願2012-166120  Date applied：2012.7

Announcement no：特開2014-024448  Date announced：2014.2

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Applicant：富士重工業株式会社

Application no：特願2010-159942  Date applied：2010.7

Announcement no：特開2012-020652  Date announced：2012.2

Patent/Registration no：特許第5525357号  Date issued：2014.4

J-GLOBAL

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Applicant：富士重工業株式会社

Application no：特願2009-207342  Date applied：2009.9

Announcement no：特開2011-057037  Date announced：2011.3

Patent/Registration no：特許第5379614号  Date issued：2013.10

J-GLOBAL

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Applicant：富士重工業株式会社

Application no：特願2009-200569  Date applied：2009.8

Announcement no：特開2011-051420  Date announced：2011.3

Patent/Registration no：特許第5314539号  Date issued：2013.7

J-GLOBAL

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Applicant：富士重工業株式会社

Application no：特願2008-271988  Date applied：2008.10

Announcement no：特開2010-102435  Date announced：2010.5

Patent/Registration no：特許第5342208号  Date issued：2013.8

J-GLOBAL

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Applicant：富士重工業株式会社

Application no：特願2008-271989  Date applied：2008.10

Announcement no：特開2010-102436  Date announced：2010.5

Patent/Registration no：特許第5255988号  Date issued：2013.4

J-GLOBAL

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Applicant：富士重工業株式会社

Application no：特願2008-271987  Date applied：2008.10

Announcement no：特開2010-100120  Date announced：2010.5

Patent/Registration no：特許第5398222号  Date issued：2013.11

J-GLOBAL

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Applicant：富士重工業株式会社

Application no：特願2008-245681  Date applied：2008.9

Announcement no：特開2010-076539  Date announced：2010.4

J-GLOBAL

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Applicant：富士重工業株式会社

Application no：特願2008-236273  Date applied：2008.9

Announcement no：特開2010-069907  Date announced：2010.4

Patent/Registration no：特許第5203865号  Date issued：2013.2

J-GLOBAL

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Applicant：富士重工業株式会社

Application no：特願2008-227062  Date applied：2008.9

Announcement no：特開2010-058690  Date announced：2010.3

Patent/Registration no：特許第5386132号  Date issued：2013.10

J-GLOBAL

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Applicant：富士重工業株式会社

Application no：特願2008-227068  Date applied：2008.9

Announcement no：特開2010-058691  Date announced：2010.3

Patent/Registration no：特許第5185743号  Date issued：2013.1

J-GLOBAL

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Applicant：富士重工業株式会社

Application no：特願2008-199516  Date applied：2008.8

Announcement no：特開2010-036645  Date announced：2010.2

Patent/Registration no：特許第5213576号  Date issued：2013.3

J-GLOBAL

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Applicant：富士重工業株式会社

Application no：特願2008-185839  Date applied：2008.7

Announcement no：特開2010-023605  Date announced：2010.2

Patent/Registration no：特許第5254688号  Date issued：2013.4

J-GLOBAL

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Applicant：富士重工業株式会社

Application no：特願2008-185840  Date applied：2008.7

Announcement no：特開2010-023606  Date announced：2010.2

Patent/Registration no：特許第5416372号  Date issued：2013.11

J-GLOBAL

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Applicant：富士重工業株式会社

Application no：特願2008-146366  Date applied：2008.6

Announcement no：特開2009-292233  Date announced：2009.12

Patent/Registration no：特許第5143633号  Date issued：2012.11

J-GLOBAL

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Applicant：富士重工業株式会社

Application no：特願2008-002235  Date applied：2008.1

Announcement no：特開2009-161100  Date announced：2009.7

Patent/Registration no：特許第5389360号  Date issued：2013.10

J-GLOBAL

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Applicant：富士重工業株式会社

Application no：特願2006-275471  Date applied：2006.10

Announcement no：特開2008-093520  Date announced：2008.4

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Type：Other

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Type：Other

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Type：Other

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Audience： Schoolchildren,　Junior students,　High school students

Type：Seminar, workshop

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