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侾乯X慄嶣塭偵娭偡傞尋媶
俀乯曻幩慄夋憸忣曬偵娭偡傞尋媶
俁乯曻幩慄夋憸偺揹嶼婡傪棙梡偟偨張棟丒曐娗丒揱憲偵娭偡傞尋媶
係乯CRT夋憸偺昡壙偵娭偡傞尋媶
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俇乯曻幩慄帯椕媄弍偵娭偡傞尋媶
俈乯曻幩慄寁應偵娭偡傞尋媶
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| 摽淎丂巙曐丄搒抸丂榓岹丄柧娫丂椝丂懠 夁巁壔悈慺嬊拲偵傛傞儅僂僗庮釃慻怐偺巁慺暘埑忋徃偲庬乆偺巟帩懱揧壛偵傛傞巁慺暘埑曐帩岠壥偺専摙 椪彴曻幩慄 53(13)丆1858-1861丆2008 |
| 柧娫丂椝丄搒抸丂榓岹丄摽淎丂巙曐丂懠 夁巁壔悈慺庮釃嬊拲偵傛傞曻幩慄憹姶岠壥偺儅僂僗堏怉庮釃傪梡偄偨幚尡揑専摙乕僸傾儖儘儞巁揧壛偺桳梡惈偵偮偄偰乕 椪彴曻幩慄 54(12)丆1683-1688丆2009 |
| 搒抸丂柧丄彫愳丂嫳峅丄媣曐揷丂宧丂懠 崅楊幰擕娻偵懳偡傞憹姶曻幩慄椕朄KORTUCII偵傛傞儅儞儌僌儔僼傿強尒偺曄壔 椪彴曻幩慄 55(7)丆886-894丆2010 |
| 敧昐愳丂怱丄彫愳丂嫳峅丄搒抸丂柧丂懠 擕娻偵懳偡傞憹姶曻幩慄椕朄KORTUC嘦傪梡偄偨旕庤弍擕朳壏懚椕朄偺帯椕岠壥偺MRI偵傛傞昡壙 椪彴曻幩慄 55(7)丆895-900丆2010 |
| Tokuhiro S, Ogawa Y, Tsuzuki K, et al Development of a new enzyme-targeting radiosensitizer (KORTUC) containing hydrogen peroxide for intratumoral injection for patients with low linear energy transfer (LET) radioresistant neoplasms Oncol Lett 1(6), 1025-1028, 2010 |
| Tsuzuki A丆Ogawa Y丆Kubota K丆et al Evaluation of changes in tumor shadows and microcalcifications on mammography following KORTUC嘦丆a new radiosensitization treatment without any surgical procedure for elderly patients with stage I and II breast cancer Cancers 3(3)丆3496-3505丆2011 |
| Yaogawa S, Ogawa Y丆Morita S丆et al Serial Assessment of Therapeutic Response to a New Radiosensitization Treatment, Kochi Oxydol-Radiation Therapy for Unresectable Carcinomas, Type II (KORTUC II), in Patients with Stage I/II Breast Cancer Using Breast Contrast-Enhanced Magnetic Resonance Imaging Cancers 8(1)丆1, 2016 |
| Morita S, Ogawa Y丆Yokota N丆et al Development of a Novel Enzyme-Targeting Radiosensitizer (New KORTUC) Using a Gelatin-Based Hydrogel Instead of a Sodium Hyaluronate Cancers 8(1)丆10, 2016 |
| Hayashi N丆Ogawa Y丆Kubota K丆et al Computed Tomography Demonstration of the Production and Distribution of Oxygen Gas Following Intratumoral Injection of a New Radiosensitizer (KORTUC) for Patients with Breast Cancer?Is Intratumoral Injection Not an Ideal Approach to Solve the Major Problem of Tumor Hypoxia in Radiotherapy? Cancers 8(4)丆2016 |
| 椦丂捈栱丄愒栘丂捈庽丄郪揷丂徆岶丂懠 僪僷儈儞僩儔儞僗億乕僞専嵏偵偍偗傞廂廤帪娫偺嵟揔壔 擔杮曻幩慄媄弍妛夛嶨帍 73(3)丆202-209丆2017 |
| Ryotaro T, Hiromitsu D, Yukinori O, et al Effect of position and volume of space occupying liver lesions on liver function index in 99mTc scintigraphy Nuclear Medicine Rewiew 24(1)丆1-10丆2021 |
| 椦丂捈栱丄強扟丂椇懢楴丄尒揷丂廏師丂懠 崪SPECT摢寊晹椞堟偵偍偗傞夋憸嵞峔惉忦審偺嵟揔壔 -phantom study- 擔杮曻幩慄媄弍妛夛嶨帍 77(7)丆700-709丆2021 |
| 2007擭 |
| 戞27夞擔杮妀堛妛媄弍妛夛憤夛 屇媧摨婜憰抲偺桳梡惈偵偮偄偰丂愒栘丂捈庽 |
| 2008擭 |
| 戞64夞擔杮曻幩慄媄弍妛夛憤夛妛弍戝夛 3TMRI憰抲偵傛傞FSE朄嶣塭帪偺怣崋嫮搙偺曄壔偵偮偄偰丂埨暲丂梞峎 CR嶣塭偱偺旐幨懱岤曄壔偵偍偗傞帄揔慄検偺婎慴揑専摙丂搒抸丂柧 |
| 戞47夞擔杮堛妛曻幩慄妛夛惗暔晹夛妛弍戝夛 夁巁壔悈慺嬊拲偵傛傞儅僂僗庮釃慻怐偺巁慺暘埑忋徃偲庬乆偺巟帩懱揧壛偵傛傞巁慺暘埑曐帩岠壥偺専摙丂摽淎丂巙曐 |
| 2009擭 |
| 戞65夞擔杮曻幩慄媄弍妛夛憤夛妛弍戝夛 3TMRI憰抲偺FSE偱偺戞堦僄僐乕偺怣崋掅壓偲夋憸偵媦傏偡塭嬁偵偮偄偰 埨暲丂梞峎 CR憰抲偺姶搙應掕丂搒抸丂柧 |
| 2010擭 |
| 戞30夞擔杮妀堛妛媄弍妛夛憤夛 3D-PET偺寁悢岠棪偐傜尒偨夋幙儗儀儖丂嶳宍丂寷惗 |
| 2011擭 |
| 戞39夞擔杮曻幩慄媄弍妛夛廐婫妛弍戝夛 廂廤帪娫偺堘偄偵偮偄偰(NECRw丄NECdensity丄Truedensity偺堘偄)丂嶳宍丂寷惗 旐幨懱偺戝偒偝偲廂廤帪娫(旐幨懱偺敿宎偲廂廤帪娫)丂尨丂棽巎 |
| 2012擭 |
| 戞32夞擔杮妀堛妛媄弍妛夛憤夛 彫帣FDG/PET専嵏偵偍偗傞廂廤忦審偵偮偄偰丂郪揷丂徆岶 彍帀朾懱廳(LBW)傪棙梡偟偨PET廂廤帪娫偺専摙丂尨揷丂垷婓巕 |
| 2013擭 |
| 戞33夞擔杮妀堛妛媄弍妛夛憤夛 3DPET-CT偱偺Noise equivalent counts(NEC)density偲Count density傪棙梡偟偨廂廤帪娫偺斾妑丂嶳宍丂寷惗 僨儕僶儕乕惢嵻巊梡帪偵偍偗傞PET廂廤帪娫偺専摙丂尨揷丂垷婓巕 |
| 2014擭 |
| 戞70夞擔杮曻幩慄媄弍妛夛憤夛妛弍戝夛 3D-PET廂廤専嵏偺Overlap(OL)偲堎側傞廂廤帪娫偱偺堘偄偵偮偄偰丂旜棫丂棽巎 Study a prediction method of the radiation dose of helper by using body mass index of patients at chest radiography examination丂柧娫丂椝 |
| 戞42夞擔杮曻幩慄媄弍妛夛廐婫妛弍戝夛 僪僷儈儞専嵏丂SPECT廂廤偵偍偗傞媄弍揑専摙 丂椦丂捈栱 3D-PET廂廤専嵏偺bed娫偱偺廂廤帪娫偺堘偄丂旜棫丂棽巎 |
| 2015擭 |
| 戞71夞擔杮曻幩慄媄弍妛夛憤夛妛弍戝夛 夞恌梡FPD偵偍偗傞忦審愝掕惛搙媦傃婡婍惛搙娗棟傊偺DI抣宱帪揑曄壔娤嶡偺墳梡専摙 柧娫丂椝 |
| 2016擭 |
| 戞72夞擔杮曻幩慄媄弍妛夛憤夛妛弍戝夛 FPD帺摦儅僗僋張棟傪尨場偲偟偨夋憸寚懝偵娭偡傞2婡庬偺FPD傪梡偄偨幚尡揑専摙 柧娫丂椝 |
| 戞44夞擔杮曻幩慄媄弍妛夛廐婫妛弍戝夛 僪僷儈儞僩儔儞僗億乕僞専嵏偵偍偄偰擼幚幙曻幩擻擹搙偑Specific Binding Ratio偵梌偊傞塭嬁丂椦丂捈栱 |
| 戞36夞擔杮妀堛妛媄弍妛夛憤夛妛弍戝夛 僪僷儈儞僩儔儞僗億乕僞乕専嵏偵偍偗傞廂廤帪娫偺嵟揔壔丂椦丂捈栱 |
| 2017擭 |
| 戞73夞擔杮曻幩慄媄弍妛夛憤夛妛弍戝夛 僪僷儈儞僩儔儞僗億乕僞乕専嵏偵偍偗傞擼幚幙曻幩擻擹搙偺塭嬁丂椦丂捈栱 |
| 戞37夞擔杮妀堛妛媄弍妛夛憤夛妛弍戝夛 僪僷儈儞僩儔儞僗億乕僞専嵏偵偍偗傞擼愐悜塼儅僗僋曗惓揔惓抣丂椦丂捈栱 |
| 2018擭 |
| 戞46夞擔杮曻幩慄媄弍妛夛廐婫妛弍戝夛 峛忬態婡擻槾恑徢姵幰偵偍偗傞I-131愛庢棪偍傛傃峛忬態廳検應掕朄偺専摙丂椦丂捈栱 |
| 戞38夞擔杮妀堛妛媄弍妛夛憤夛妛弍戝夛 123I-MIBG僔儞僠偵偍偗傞Washout Rate應掕朄偺専摙丂椦丂捈栱 |
| 2019擭 |
| 戞35夞擔杮恌椕曻幩慄媄巘妛弍戝夛 恄宱撪暘斿庮釃専嵏偵偍偗傞standardized uptake value傪梡偄偨昡壙傊岦偗偨 庢傝慻傒丂椦丂捈栱 |
| 戞47夞擔杮帴婥嫟柭堛妛夛戝夛 MRI Dixon朄傪梡偄偨寬忢庒擭惉恖偺戝戁晹崪奿嬝撪帀朾娷桳棪應掕丂嵅摗丂宐 |
| 2020擭 |
| 戞40夞擔杮妀堛妛媄弍妛夛憤夛妛弍戝夛 摢栩晹椞堟偵偍偗傞崪SPECT専嵏偺夋憸嵞峔惉忦審偺寛掕丂椦丂捈栱 |
| 2021擭 |
| 戞77夞擔杮曻幩慄媄弍妛夛憤夛妛弍戝夛 僨僶僀僗儗僗屇媧摨婜婡擻搵嵹PET-CT憰抲偵偍偗傞R抣偵塭嬁傪媦傏偡場巕 椦丂捈栱 |
| 戞41夞擔杮妀堛妛媄弍妛夛憤夛妛弍戝夛 僨僶僀僗儗僗屇媧摨婜婡擻搵嵹PET-CT憰抲偵偍偗傞R抣偲SUV夵慞岠壥偺娭學惈-phantom study-丂椦丂捈栱 |
| 2007擭 |
| 戞3夞拞巐崙曻幩慄堛椕媄弍僼僅乕儔儉 Perfusion専嵏帪偺夋憸壛嶼岠壥偺専摙丂壂栰丂榓峅 |
| 2008擭 |
| 擔杮曻幩慄媄弍妛夛丂戞20夞拞崙丒巐崙抧曽夛 PET専嵏偵偍偗傞寣摐抣偲FDG廤愊(SUV)偺娭學丂尨揷丂垷婓巕 |
| 戞4夞拞巐崙曻幩慄堛椕媄弍僼僅乕儔儉 VUE Point偲VUE Point Plus偺夋幙偺専摙丂尨丂棽巎 PET-CT摢晹専嵏僾儘僩僐乕儖偺2D廂廤偐傜3D廂廤傊偺曄峏偺壜擻惈丂嶳宍丂寷惗 CR憰抲偺姶搙應掕丂搒抸丂柧 |
| 2009擭 |
| 戞5夞拞巐崙曻幩慄堛椕媄弍僼僅乕儔儉 摢晹3D-CTA偵偍偗傞惗怘屻墴偟偺桳梡惈丂搚嫃丂徍宧 摢晹CTA偵偍偗傞夞揮婳摴摨婜朄偺栤戣揰丂徏壓丂傔偖傒 3D-PET夋憸偺嵟揔壔(懱廳偲搳梌検偐傜偺廂廤帪娫偺愝掕)丂嶳宍丂寷惗 Planar夋憸偵懳偡傞Planar Processing張棟偵傛傞夋幙夵慞偺岠壥丂尨丂棽巎 SPECT嵞峔惉偵偍偗傞FBP丄OSEM丄3D-OSEM偺婎慴揑専摙丂惸摗丂恞庽 |
| 2010擭 |
| 戞67夞崅抦導妀堛妛徢椺専摙夛 3D-PET/CT偺寁悢岠棪偐傜傒偨嵟揔廂廤帪娫丂嶳宍丂寷惗 |
| 擔杮妀堛妛媄弍妛夛丂戞22夞拞崙丒巐崙抧曽夛 偑傫FDG-PET/CT嶣憸僈僀僪儔僀儞偺椪彴夋憸偺暔棟揑昡壙傛傝専摙偟偨廂廤帪娫偺嵟揔壔丂嶳宍丂寷惗 |
| 2011擭 |
| 擔杮妀堛妛媄弍妛夛丂戞23夞拞崙丒巐崙抧曽夛 擕朳嶣塭偵偍偗傞PET偲MRI偺梈崌夋憸偺専摙丂郪揷丂徆岶 専弌岠棪偐傜傒偨PET偺夋幙儗儀儖丂嶳宍丂寷惗 懱廳嶨壒摍壙寁悢棪偵偮偄偰丂尨丂棽巎 |
| 戞7夞拞巐崙曻幩慄堛椕媄弍僼僅乕儔儉 IGRT僔僗僥儉偵偍偗傞僀儊乕僕儞僌僾儗乕僩偵傛傞擖幩昞柺慄検丂搒抸丂柧 掅娗揹埑傪巊梡偟偨暊晹憿塭専嵏偺婎慴揑専摙丂惣愳丂朷 娞憿塭CT偵偍偗傞帄揔儓乕僪搳梌検偺専摙(懱廳朄偲懱昞柺愊朄偺斾妑) 徏壓丂傔偖傒 僀儞僾儔儞僩儅乕僇乕偵傛傞慜棫態IMRT埵抲妋擣偺専摙丂嵅乆栘丂弐堦 廂廤帪娫偲夋幙僲僀僘丂尨丂棽巎 Phantom偵傛傞廂廤帪娫偺専摙丂嶳宍丂寷惗 栩晹怢揥埵偲屻孅埵偱偺殝壓偵敽偆懱摦偺曄壔丂埨暲丂梞峎 偑傫FDG-PET/CT僈僀僪儔僀儞偺暔棟揑昡壙傪棙梡偟偨廂廤帪娫偺揔惓壔偺専摙 郪揷丂徆岶 |
| 2012擭 |
| 擔杮妀堛妛媄弍妛夛丂戞24夞拞崙丒巐崙抧曽夛 彍帀朾懱廳(LBH)傪棙梡偟偨PET廂廤帪娫偺専摙丂尨丂棽巎 |
| 戞8夞拞巐崙曻幩慄堛椕媄弍僼僅乕儔儉 旂晢昞柺幖晍栻嵻巊梡帪偺旂晢怺晹偵偍偗傞慄検昡壙媦傃峫嶡丂柧娫丂椝 PET専嵏偱偺幵僀僗棙梡姵幰偺夘彆偵偍偗傞旐偽偔掅尭丂尨丂棽巎 彫帣FDG/PET専嵏偵偍偗傞廂廤忦審偵偮偄偰丂郪揷丂徆岶 |
| 2013擭 |
| 拞崙丒巐崙曻幩慄帯椕崸榖夛 崅楊幰擕娻偵懳偡傞憹姶曻幩慄帯椕KORTUCII偵偍偗傞儅儞儌僌儔僼傿乕強尒偺曄壔 搒抸丂柧 |
| 戞9夞拞巐崙曻幩慄堛椕媄弍僼僅乕儔儉 Imaging Plate(IP)傪棙梡偟偨嶶棎慄應掕丂杒栰丂夒巕 Imaging Plate(IP)傪棙梡偟偨嶶棎慄應掕偺幚嵺丂惣愳丂朷 擜楬偺FDG/PET専嵏偵偮偄偰丂郪揷丂徆岶 3D-PET/CT専嵏偵偍偗傞奺bed埵抲偺Noise Equivalent Count Ratio(NECRw)偵偮偄偰丂尨丂棽巎 栩捙丒栩悜MRI偺Flow Artifact偺専摙丂怷揷丂堦榊 |
| 2014擭 |
| 戞2夞KORTUC尋媶夛 KORTUC偺幚尡揑専摙乕Hydrogel傪梡偄偨KORTUC偺奐敪丂摽淎丂巙曐 擕娻偵懳偡傞峺慺昗揑丒憹姶曻幩慄椕朄KORTUC嘦乕憹姶嵻偺庮釃撪嬊拲屻偵偍偗傞峺慺暘晍忬懺丂椦丂捈栱 崅楊幰擕娻姵幰偵懳偡傞憹姶曻幩慄椕朄KORTUC嘦偵傛傞庮釒丒旝彫愇奃壔偺儅儞儌僌儔僼傿乕忋偱偺徚幐帪婜丂搒抸丂柧 崅楊幰擕娻姵幰(stageI/II)偵懳偡傞憹姶曻幩慄椕朄KORTUC嘦偺MRI夋憸偵傛傞宱帪揑昡壙丂敧昐愳丂怱 |
| 戞20夞娻帯椕憹姶尋媶夛 KORTUC偺幚尡揑専摙乕Hydrogel傪梡偄偨KORTUC偺奐敪丂摽淎丂巙曐 KORTUC嘦偵偍偗傞憹姶嵻嬊拲屻偺巁慺偺暘晍忬懺偺専摙丂椦丂捈栱 崅楊幰擕娻姵幰(stageI/II)偵懳偡傞憹姶曻幩慄椕朄KORTUC嘦屻偺庮釒塭/旝彫愇奃壔偺儅儞儌僌儔僼傿乕忋偱偺徚幐帪婜丂搒抸丂柧 憗婜擕娻姵幰偵懳偡傞憹姶曻幩慄椕朄KORTUC嘦偺MRI夋憸偵傛傞宱帪揑昡壙 敧昐愳丂怱 |
| 妀堛妛徢椺専摙夛 Dat Scan夋憸偺婎慴専摙丂椦丂捈栱 |
| 戞10夞拞巐崙曻幩慄堛椕媄弍僼僅乕儔儉 僀僆僼儖僷儞専嵏偵偍偗傞廂廤帪娫偺塭嬁丂旜棫丂棽巎 摉堾偵偍偗傞億乕僞僽儖梡FPD巊梡帪偺嫻晹嶣塭忦審寛掕媦傃DI抣傪梡偄偨忦審愝掕惂搙偺専摙丂柧娫丂椝 僀僆僼儖僷儞専嵏偵偍偗傞僐儕儊乕僞偺塭嬁丂椦丂捈栱 MMG偵偍偗傞儅儞儌僩乕儉惗専帪偺怺偝忣曬偺悇掕丂嶳揷丂梲巕 摉堾偺廂廤FOV偺曄壔偵敽偆塭嬁丂崅搰丂梲堦榊 僌儕僢僪枹憰拝偵偍偗傞彫帣怱憻僇僥乕僥儖専嵏偺専摙丂怷埨丂桼孿 Wireless LAN傪梡偄偨億乕僞僽儖嶣塭僔僗僥儉偺塣梡曬崘丂惣愳丂朷 彫帣FDG/PET専嵏偵偍偗傞matrix size偲廂廤帪娫偵偮偄偰偺専摙丂郪揷丂徆岶 寣娗憿塭専嵏偵偍偗傞Live Zoom婡擻偺専摙丂搚嫃丂徍宧 |
| 2015擭 |
| 戞72夞崅抦導妀堛妛徢椺専摙夛 123俬僀僆僼儖僷儞偵偍偗傞廂廤帪娫偺専摙丂椦丂捈栱 |
| 戞11夞拞巐崙曻幩慄堛椕媄弍僼僅乕儔儉 摉堾偵偍偗傞億乕僞僽儖梡FPD巊梡帪偺嫻晹嶣塭忦審偺専摙丂栴晹丂巎壚 帇妎昡壙傪梡偄偨2婡庬偺FPD偺斾妑媦傃嫻晹嶣塭忦審偺懨摉惈偵娭偡傞専摙丂柀丂樞枦 僪僷儈儞僩儔儞僗億乕僞専嵏偵偍偗傞僶僢僋僌儔僂儞僪擹搙偺塭嬁丂椦丂捈栱 巕媨寊娻偺峯撪徠幩帯椕寁夋偵偍偄偰丄嵞峔惉偝傟傞傾僾儕働乕僞宍忬偑慄検昡壙偵梌偊傞塭嬁偵偮偄偰丂怷揷丂堦榊 Wireless LAN傪梡偄偨ICU丄OPE幒偺億乕僞僽儖嶣塭僔僗僥儉塣梡丂崅搰丂梲堦榊 FDG-PET専恌傪梡偄偨擼偺摐戙幱偵懳偡傞寬忢幰僨乕僞儀乕僗嶌惉丂淎揷丂垷婓巕 懱撪杽崬嬥懏摍偵傛傞FPD偺帺摦儅僗僋張棟傪尨場偲偟偨夋憸寚懝偵娭偡傞 幚尡揑専摙丂柧娫丂椝 |
| 2016擭 |
| 暯惉27擭搙崅抦導恌椕曻幩慄媄巘妛弍戝夛 専恌嫻晹倃慄僨僕僞儖夋憸偵偍偗傞暔棟揑昡壙巜昗偺専摙媦傃偦偺墳梡丂柧娫丂椝 |
| 戞73夞崅抦導妀堛妛徢椺専摙夛 DaT SCAN偵偍偗傞廂廤帪娫偺専摙丂椦丂捈栱 |
| 戞12夞拞巐崙曻幩慄堛椕媄弍僼僅乕儔儉 嫻晹惓柺嶣塭偵偍偗傞懱奿偵傛傞慄検曄壔偲Diagnostic Reference Level(DRL)偲偺斾妑専摙丂柧娫丂椝 僨僕僞儖儅儞儌僌儔僼傿憰抲偵偍偗傞digital抣傪棙梡偟偨擔忢娗棟偺専摙丂杒栰丂夒巕 宱旂揑儔僕僆攇從庈椕朄偵偍偗傞從庈斖埻偺悇掕丂搚嫃丂徍宧 僪僷儈儞僩儔儞僗億乕僞乕専嵏偵偍偗傞帄揔嵞峔惉忦審偺専摙丂椦丂捈栱 摉堾偵偍偗傞屢娭愡擃崪昡壙傪栚揑偲偟偨T2Mapping偺嵟揔嶣塭忦審偵娭偡傞婎慴揑専摙丂敧昐愳丂怱 |
| 2017擭 |
| 戞74夞崅抦導妀堛妛徢椺専摙夛 慄忦懱僀儊乕僕儞僌偵傛傞CSF儅僗僋曗惓揔惓抣偺専摙丂椦丂捈栱 |
| 戞13夞拞巐崙曻幩慄堛椕媄弍僼僅乕儔儉 X慄CT専嵏帪偵偍偗傞嶣塭夘彆幰偺旐偽偔丂旜棫丂棽巎 怱嬝岎姶僔儞僠偵偍偗傞SPECT憸傪梡偄偨掕検偺専摙丂椦丂捈栱 摦夋僱僢僩儚乕僋僔僗僥儉峏怴偵敽偆僱僢僩儚乕僋峔抸乣HIS峏怴偵岦偗偰乣 柀丂樞杹 弍拞MRI梡僿僢僪僐僀儖偺惈擻偵娭偡傞婎慴揑専摙丂敧昐愳丂怱 CTDI傪梡偄偨帟壢梡CBCT偲慡恎梡MDCT偺慄検斾妑丂栴晹丂巎壚 |
| 2018擭 |
| 暯惉29擭搙崅抦導恌椕曻幩慄媄巘妛弍戝夛 堦斒嶣塭憰抲偺昞帵NDD,EPD,幚應抣偺擖幩旂晢慄検偺斾妑丂彫妢尨丂戝夘 |
| 戞14夞拞巐崙曻幩慄堛椕媄弍僼僅乕儔儉 摉堾偺1僔儑僢僩挿広FPD嶣塭偺儚乕僋僼儘乕偲桳梡惈偵偮偄偰丂戝崟丂榓婸 HIS偲楢學偟偨栤恌僔僗僥儉偺奐敪偵偮偄偰丂晲撪丂桟杹 揹巕慄OCR偵偍偗傞儕僼傽儗儞僗慄検寁偺埵抲埶懚丂搒抸丂柧 CT僈僀僪壓宱旂揑搥寢椕朄偵偍偗傞搥寢斖埻偺悇掕丂搚嫃丂徍宧 |
| 2019擭 |
| 暯惉30擭搙崅抦導恌椕曻幩慄媄巘妛弍戝夛 RIS偲楢実偟偨旂晢昞柺慄検偺悇掕丂彫妢尨丂戝夘 C傾乕儉宆X慄TV憰抲偺嬻娫慄検暘晍偵偮偄偰丂戝崟丂榓婸 123I-MIBG怱嬝僔儞僠僌儔僼傿偵偍偄偰懱奿偑怱憻廲妘斾偵媦傏偡塭嬁丂椦丂捈栱 |
| 戞15夞拞巐崙曻幩慄堛椕媄弍僼僅乕儔儉 123I-IMP擼寣棳僔儞僠偵偍偗傞CIS ratio傪梡偄偨DLB偲AD偺娪暿擻 亅夋憸嵞峔惉朄偺堘偄偵傛傞塭嬁亅丂椦丂捈栱 |
| 2020擭 |
| 椷榓尦擭搙崅抦導恌椕曻幩慄媄巘妛弍戝夛 崪SPECT専嵏偵偍偄偰忋偺埵抲傗摦偒偑掕検抣偵梌偊傞塭嬁 -simulation study-丂椦丂捈栱 丂丂丂丂丂丂丂 |
| 2021擭 |
| 戞17夞拞巐崙曻幩慄堛椕媄弍僼僅乕儔儉 巕媨俁憌峔憿昤弌偺偨傔偺俿俀嫮挷夋憸偵偍偗傞嵟揔僷儔儊乕僞偺婎慴揑専摙 敧昐愳丂怱 丂丂丂丂丂丂丂 |
| 2009擭 |
| The International Conference on Translational Research 2009 Development of a new enzyme-targeting radiosensitizer containing hydrogen peroxide for intra-tumoral injection for patients with low LET (Linear energy transfer) -radioresistant neoplasms S.Tokuhiro |
| 2010擭 |
| American Society for Radiation Oncoligy 2010 Evaluation of changes of tumor shadows and micro-calcifications on mammography following a new radiosensitization treatment (KORTUC嘦) for aged patients with breast cancer of stages I and II A.Tsuduki |
| 2011擭 |
| The European Cancer Congress 2011 Evaluation of therapeutic response to a new radiosensitization treatment (KORTUC嘦) for aged and/or surgery-refusing patients with stage I/II breast cancer by dynamic MRI S.Yaogawa |
| 2012擭 |
| The European Radiation Research 2012 Dose assessment and consideration in the deep place of the shin at the time of liniment use R.Akima |
| 2013擭 |
| Radiological Society of North America 2013 Evaluation of changes in tumor shadows and microcalcifications on mammography following KORTUC嘦, a new radiosensitization treatment without any surgical procedure fou elderly patients with stage I and II breast cancer A.Tsuduki |
| 2013擭 |
| The European Cancer Congress 2013 Evaluation of changes of in tumor shadows and microcalcifications on mammography following KORTUC嘦, a new radiosensitization treatment without any surgical procedure for elderly patients with stage I and II breast cancer A.Tsuduki Dynamic MRI assessment of response to a new radiosensitization treatment (KORTUC嘦) in patients with stage I/II breast cancer with advanced age or who refuse surgery S.Yaogawa |
| 2014擭 |
| The European Association of Nuclear Medicine 2014 18F-FDG PET/CT in overweight patients : Application of Count Density to Decesion of Optimized Acquisition Time N.Hayashi |
| 2019擭 |
| The European Association of Nuclear Medicine 2019 Evaluation of the cingulate island sign ratios for the differentiation of dementia with Lewy bodies versus Alzheimer乫s disease using 123I-IMP SPECT N.Hayashi |
| 2008擭 |
| 戞4夞拞巐崙曻幩慄堛椕媄弍僼僅乕儔儉 擕偑傫恌椕偵懳偡傞儅儞儌僌儔僼傿偱偺懳墳椡丂嶳揷丂梲巕 |
| 2010擭 |
| 崅徏曻幩慄媄巘夛島墘 崅抦戝妛堛妛晹晬懏昦堾PET僙儞僞乕偺偁備傒 崅抦戝妛堛妛晹晬懏昦堾PET僙儞僞乕偺奣梫丂愒栘丂捈庽 |
| 曻幩慄帯椕尋媶夛丂拞巐崙壞婫妛弍戝夛 崅抦戝妛丂峺慺昗揑丒憹姶曻幩慄椕朄偺徯夘丂墶揷丂揟榓 |
| 崅抦導曻幩慄帯椕媄弍尋媶夛 崅抦戝妛偺尰忬曬崘丂墶揷丂揟榓 |
| 暯惉22擭搙擔杮曻幩慄媄弍妛夛拞崙巐崙晹夛壞婫妛弍戝夛(戞24夞妀堛妛柌岺朳) 奺庬彂椶偺嶌惉偲娗棟偺幚嵺丂敧昐愳丂怱 |
| 擔杮曻幩慄帯椕愱栧曻幩慄媄巘擣掕婡峔摑堦島廗夛丂戞3夞曻幩慄帯椕僙儈僫乕婎慴僐乕僗(巐崙僽儘僢僋) 曻幩慄惗暔妛丂墶揷丂揟榓 |
| 2011擭 |
| 崅抦導曻幩慄帯椕媄弍尋媶夛 崅惛搙曻幩慄帯椕丂攛掕埵徠幩偺幚巤宱尡丂墶揷丂揟榓 |
| 2012擭 |
| 暯惉23擭搙擔杮曻幩慄媄弍妛夛拞崙巐崙晹夛妀堛妛尋媶夛(戞27夞妀堛妛柌岺朳) 3D擼僼傽儞僩儉傪梡偄偨専摙丂尨揷丂垷婓巕 |
| 暯惉24擭搙擔杮曻幩慄媄弍妛夛拞崙巐崙晹夛妀堛妛尋媶夛(戞28夞妀堛妛柌岺朳) SPECT暘夝擻曗惓夋憸偵偮偄偰偺専摙乕懡巤愝嫟摨尋媶乕戞2曬丂尨揷丂垷婓巕 |
| 擔杮曻幩慄帯椕愱栧曻幩慄媄巘擣掕婡峔摑堦島廗夛丂戞5夞曻幩慄帯椕僙儈僫乕 婎慴僐乕僗(巐崙僽儘僢僋) 曻幩慄帯椕媄弍丂墶揷丂揟榓 |
| 暯惉24擭搙擔杮曻幩慄媄弍妛夛拞崙巐崙晹夛妀堛妛尋媶夛(戞29夞妀堛妛柌岺朳) 嫟摨幚尡偵岦偗偰偺婎慴専摙乕3D擼僼傽儞僩儉傪梡偄偨暘夝擻曗惓偵偮偄偰乕 尨揷丂垷婓巕 |
| 2013擭 |
| 崅抦導曻幩慄帯椕媄弍尋媶夛 LINAC揚嫀偵敽偆曻幩壔暔偺懳墳丂墶揷丂揟榓 |
| 拞崙丒巐崙峀堟偑傫僾儘僐儞僜乕僔傾儉丂堛妛暔棟僐乕僗FD僙儈僫乕 拞巐崙抧嬫偺曻幩慄帯椕媄弍偲抧堟楢実偵岦偗偰偺壽戣(崅抦導)丂墶揷丂揟榓 |
| 2014擭 |
| 擔杮曻幩慄帯椕愱栧曻幩慄媄巘擣掕婡峔摑堦島廗夛丂戞6夞曻幩慄帯椕僙儈僫乕 婎慴僐乕僗(巐崙僽儘僢僋) 曻幩慄帯椕媄弍丂嵅乆栘丂弐堦 |
| 2015擭 |
| 暯惉27擭搙擔杮曻幩慄媄弍妛夛拞崙巐崙晹夛壞婫妛弍戝夛 抦偭偰偍偒偨偄幘姵(鋁憻)偲嶣塭朄丂旜棫丂棽巎 |
| 2016擭 |
| 戞俀夞崅抦夋憸恌抐崸榖夛 摉堾偱偺嶻晈恖壢椞堟偵偍偗傞MRI専嵏丂敧昐愳丂怱 |
| 2019擭 |
| 戞14夞MICCS(medical imaging conference chugoku shikoku) 怱嬝MIBG僔儞僠偵偍偗傞SPECT昡壙丂椦丂捈栱 |
| 戞24夞僆乕僞儉僙儈僫乕 撿奀僩儔僼抧恔傪憐掕偟偨旛偊丂椦丂捈栱 |
| 2021擭 |
| 戞45夞妀堛妛柌岺朳 敿摫懱PET/CT憰抲偺幚嵺丂乽Discovery MI-AM edition偺巊梡宱尡乿丂椦丂捈栱 |
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