CellGPS: Whole-body tracking of single cells by positron emission tomography published as: https://t.co/RZZB65zb71 #Nature_Biomedical_Engineering #biorxiv
¿Se podrá en el futuro "ver" las Células Tumorales Circulantes en el interior del cuerpo durante su migración metastásica? https://t.co/0WdGeNBSPv
Relevant papers: https://t.co/PWfGfgLgZp https://t.co/sK8a04MRqv Hope you’ll tune in/subscribe/let us know what you think 🙂 #medtwitter 2/2
RT @natBME: Positron emission tomography enables the tracking, in a mouse, of an intravenously injected cell radiolabelled with mesoporous…
RT @natBME: The travelling kinetics of single cells loaded with mesoporous silica nanoparticles concentrating the 68Ga radioisotope can be…
RT @natBME: The travelling kinetics of single cells loaded with mesoporous silica nanoparticles concentrating the 68Ga radioisotope can be…
RT @natBME: The travelling kinetics of single cells loaded with mesoporous silica nanoparticles concentrating the 68Ga radioisotope can be…
RT @DavidYLewis: Here is the paper I was talking about single cell imaging of circulating tumours cells. cool stuff by @GPratx @ZanivanLab…
Here is the paper I was talking about single cell imaging of circulating tumours cells. cool stuff by @GPratx @ZanivanLab @LMachesky @CRUK_BI @HingLeung4 https://t.co/vr3URDERF6
RT @natBME: The travelling kinetics of single cells loaded with mesoporous silica nanoparticles concentrating the 68Ga radioisotope can be…
RT @natBME: Whole-body tracking of single cells via positron emission tomography https://t.co/UoWnlefeaG https://t.co/RiksWIbhZ3
RT @natBME: Positron emission tomography, widely used to image tumours, is sensitive enough to image and track single cells. #InTranslatio…
RT @natBME: The travelling kinetics of single cells loaded with mesoporous silica nanoparticles concentrating the 68Ga radioisotope can be…
RT @natBME: Positron emission tomography, widely used to image tumours, is sensitive enough to image and track single cells. #InTranslatio…
RT @natBME: Whole-body tracking of single cells via positron emission tomography https://t.co/UoWnlefeaG https://t.co/RiksWIbhZ3
Positron emission tomography enables the tracking, in a mouse, of an intravenously injected cell radiolabelled with mesoporous silica nanoparticles containing 68Ga. https://t.co/JrBXGfJPAf [N&V] https://t.co/EQce3vdYNb [Paper] https://t.co/5Ojb8DGQJQ
RT @natBME: The travelling kinetics of single cells loaded with mesoporous silica nanoparticles concentrating the 68Ga radioisotope can be…
RT @natBME: The travelling kinetics of single cells loaded with mesoporous silica nanoparticles concentrating the 68Ga radioisotope can be…
RT @natBME: The travelling kinetics of single cells loaded with mesoporous silica nanoparticles concentrating the 68Ga radioisotope can be…
RT @natBME: The travelling kinetics of single cells loaded with mesoporous silica nanoparticles concentrating the 68Ga radioisotope can be…
RT @natBME: The travelling kinetics of single cells loaded with mesoporous silica nanoparticles concentrating the 68Ga radioisotope can be…
RT @natBME: The travelling kinetics of single cells loaded with mesoporous silica nanoparticles concentrating the 68Ga radioisotope can be…
RT @natBME: The travelling kinetics of single cells loaded with mesoporous silica nanoparticles concentrating the 68Ga radioisotope can be…
The travelling kinetics of single cells loaded with mesoporous silica nanoparticles concentrating the 68Ga radioisotope can be tracked in real time in vivo from the patterns of coincident gamma rays detected by positron emission tomography. https://t.co/F
RT @JCRnEDITORS: Whole-body tracking of single cells via positron emission tomography. | Nature Biomedical Engineering | https://t.co/4F85I…
RT @JCRnEDITORS: Whole-body tracking of single cells via positron emission tomography. | Nature Biomedical Engineering | https://t.co/4F85I…
Whole-body tracking of single cells via positron emission tomography. | Nature Biomedical Engineering | https://t.co/4F85Itv44b https://t.co/PI6NfYe0bZ
@TimWitney I was pretty excited when we captured this data of a cancer single cell metastasizing to the lungs From: https://t.co/o8XoHK6mOr https://t.co/fuwo0wQZhE
RT @natBME: The travelling kinetics of single cells loaded with mesoporous silica nanoparticles concentrating the 68Ga radioisotope can be…
RT @natBME: The travelling kinetics of single cells loaded with mesoporous silica nanoparticles concentrating the 68Ga radioisotope can be…
The travelling kinetics of single cells loaded with mesoporous silica nanoparticles concentrating the 68Ga radioisotope can be tracked in real time in vivo from the patterns of coincident gamma rays detected by positron emission tomography. https://t.co/F
RT @natBME: The travelling kinetics of single cells loaded with mesoporous silica nanoparticles concentrating the 68Ga radioisotope can be…
RT @REPROCELLglobal: The ability to accurately track the movement of cancer cells as they metastasize to other locations in the body could…
RT @REPROCELLglobal: The ability to accurately track the movement of cancer cells as they metastasize to other locations in the body could…
RT @REPROCELLglobal: The ability to accurately track the movement of cancer cells as they metastasize to other locations in the body could…
The ability to accurately track the movement of cancer cells as they metastasize to other locations in the body could allow oncologists to better target therapies and start treatments earlier. More from Nature Research: https://t.co/161wicYgvQ
RT @SCIDirector: SCI member Guillem Pratx and colleagues used PET to watch the movement of a single cell in real time - with future potenti…
SCI member Guillem Pratx and colleagues used PET to watch the movement of a single cell in real time - with future potential use for tracking effectiveness or outcome of cellular #cancertherapies, such as #CARTcells, in solid tumors. https://t.co/l1ajlmvUZ
RT @JCRnEDITORS: Whole-body tracking of single cells via positron emission tomography. | Nature Biomedical Engineering | https://t.co/dm88…
RT @natBME: The travelling kinetics of single cells loaded with mesoporous silica nanoparticles concentrating the 68Ga radioisotope can be…
RT @DrDHodgson: Imagine: Localizing & imaging single cancer cells in patients. @GPratx et al demonstrate single human cancer cells can be b…
@Stanford_ChEMH I don't see the link to the article in the blog post: https://t.co/7QYXKeaCD2
Such a cool work from the @GPratx lab @Stanford : https://t.co/zphRGxGAhl
RT @DrDHodgson: Imagine: Localizing & imaging single cancer cells in patients. @GPratx et al demonstrate single human cancer cells can be b…
RT @DrDHodgson: Imagine: Localizing & imaging single cancer cells in patients. @GPratx et al demonstrate single human cancer cells can be b…
Imagine: Localizing & imaging single cancer cells in patients. @GPratx et al demonstrate single human cancer cells can be be tracked in mouse model w PET. Amazing impllications for #radonc https://t.co/WTPlTCDWU8 @StanfordRadOnc https://t.co/xYpSSQyLwj
RT @natBME: The travelling kinetics of single cells loaded with mesoporous silica nanoparticles concentrating the 68Ga radioisotope can be…
RT @natBME: The travelling kinetics of single cells loaded with mesoporous silica nanoparticles concentrating the 68Ga radioisotope can be…
RT @keitaroTANOI: なるほど!single cellで点を追えばよい、という割り切りができるからこそ20cpsぐらいの計数率でいけるのか。70Bqいれて20cpsって同時計数で30%ぐらいの計数効率は普通なのかしらん?(高いな!とおもた) https://t.c…
なるほど!single cellで点を追えばよい、という割り切りができるからこそ20cpsぐらいの計数率でいけるのか。70Bqいれて20cpsって同時計数で30%ぐらいの計数効率は普通なのかしらん?(高いな!とおもた) https://t.co/jY2wJsiyBO
RT @natBME: The travelling kinetics of single cells loaded with mesoporous silica nanoparticles concentrating the 68Ga radioisotope can be…
RT @natBME: The travelling kinetics of single cells loaded with mesoporous silica nanoparticles concentrating the 68Ga radioisotope can be…
The travelling kinetics of single cells loaded with mesoporous silica nanoparticles concentrating the 68Ga radioisotope can be tracked in real time in vivo from the patterns of coincident gamma rays detected by positron emission tomography. https://t.co/O
RT @AlainChedotal: Positron emission tomography at a single cell resolution @GPratx lab. Cell is loaded with nanoparticles concentrating a…
RT @JCRnEDITORS: Whole-body tracking of single cells via positron emission tomography. | Nature Biomedical Engineering | https://t.co/dm88…
RT @JCRnEDITORS: Whole-body tracking of single cells via positron emission tomography. | Nature Biomedical Engineering | https://t.co/dm88…
RT @GPratx: I am happy to introduce the latest article from my lab: CellGPS, or how to track down individual cells in vivo using PET! [THR…
Super cool! 😎
RT @GPratx: I am happy to introduce the latest article from my lab: CellGPS, or how to track down individual cells in vivo using PET! [THR…
RT @natBME: Positron emission tomography, widely used to image tumours, is sensitive enough to image and track single cells. #InTranslatio…
RT @LewisLabMSKCC: This is so cool! Major shout out and congratulations to @GPratx et al. https://t.co/ss1mSef4Cg
RT @GPratx: I am happy to introduce the latest article from my lab: CellGPS, or how to track down individual cells in vivo using PET! [THR…
RT @GPratx: I have been touched by the kind words on our recent @natBME paper, so thank you @grimmrad @LewisLabMSKCC @AlainChedotal @davey…
RT @GPratx: I am happy to introduce the latest article from my lab: CellGPS, or how to track down individual cells in vivo using PET! [THR…
RT @GPratx: I am happy to introduce the latest article from my lab: CellGPS, or how to track down individual cells in vivo using PET! [THR…
How cool in this!!!!
RT @natBME: Whole-body tracking of single cells via positron emission tomography https://t.co/UoWnlefeaG https://t.co/RiksWIbhZ3
RT @GPratx: I have been touched by the kind words on our recent @natBME paper, so thank you @grimmrad @LewisLabMSKCC @AlainChedotal @davey…
RT @GPratx: I am happy to introduce the latest article from my lab: CellGPS, or how to track down individual cells in vivo using PET! [THR…
RT @GPratx: I am happy to introduce the latest article from my lab: CellGPS, or how to track down individual cells in vivo using PET! [THR…
RT @hiroko_bannai: Single cellを生きた個体内で!!👀 https://t.co/r16F66Kfn4
I have been touched by the kind words on our recent @natBME paper, so thank you @grimmrad @LewisLabMSKCC @AlainChedotal @daveyestinlewis @TimWitney @SteveJiangPhD @BenLarimer @JbManent @aislingchaney @TRUELabOU @Bala_Attili @jana_ivanidze ... https://t
RT @GPratx: I am happy to introduce the latest article from my lab: CellGPS, or how to track down individual cells in vivo using PET! [THR…
RT @GPratx: I am happy to introduce the latest article from my lab: CellGPS, or how to track down individual cells in vivo using PET! [THR…
RT @natBME: Whole-body tracking of single cells via positron emission tomography https://t.co/UoWnlefeaG https://t.co/RiksWIbhZ3
RT @GPratx: I am happy to introduce the latest article from my lab: CellGPS, or how to track down individual cells in vivo using PET! [THR…
RT @IvanKlyuzhin: Single cell (!) in-vivo tracking using PET. This will be a fantastic tool for cancer studies. https://t.co/kPqR2CZx29
Amazing!
RT @IvanKlyuzhin: Single cell (!) in-vivo tracking using PET. This will be a fantastic tool for cancer studies. https://t.co/kPqR2CZx29
Single cell (!) in-vivo tracking using PET. This will be a fantastic tool for cancer studies.
RT @natBME: Positron emission tomography, widely used to image tumours, is sensitive enough to image and track single cells. #InTranslatio…
RT @GPratx: I am happy to introduce the latest article from my lab: CellGPS, or how to track down individual cells in vivo using PET! [THR…
RT @ranjitbindra: Wow this is very cool...
RT @natBME: Whole-body tracking of single cells via positron emission tomography https://t.co/UoWnlefeaG https://t.co/RiksWIbhZ3
RT @GPratx: I am happy to introduce the latest article from my lab: CellGPS, or how to track down individual cells in vivo using PET! [THR…
RT @AlainChedotal: Positron emission tomography at a single cell resolution @GPratx lab. Cell is loaded with nanoparticles concentrating a…
RT @natBME: Whole-body tracking of single cells via positron emission tomography https://t.co/UoWnlefeaG https://t.co/RiksWIbhZ3
RT @GPratx: I am happy to introduce the latest article from my lab: CellGPS, or how to track down individual cells in vivo using PET! [THR…
RT @GPratx: I am happy to introduce the latest article from my lab: CellGPS, or how to track down individual cells in vivo using PET! [THR…
RT @GPratx: I am happy to introduce the latest article from my lab: CellGPS, or how to track down individual cells in vivo using PET! [THR…
RT @GPratx: I am happy to introduce the latest article from my lab: CellGPS, or how to track down individual cells in vivo using PET! [THR…
RT @hiroko_bannai: Single cellを生きた個体内で!!👀 https://t.co/r16F66Kfn4
RT @jana_ivanidze: Very exciting and important work from @GPratx lab - #CellGPS real-time in-vivo single-cell tracking using PET. [68Ga]nan…
RT @natBME: Whole-body tracking of single cells via positron emission tomography https://t.co/UoWnlefeaG https://t.co/RiksWIbhZ3
RT @GPratx: I am happy to introduce the latest article from my lab: CellGPS, or how to track down individual cells in vivo using PET! [THR…
RT @hiroko_bannai: Single cellを生きた個体内で!!👀
Whole-body tracking of single cells via positron emission tomography (relevance: 68%) https://t.co/hrI9hooDT1 #biophotonics #biomedicaloptics
RT @hiroko_bannai: Single cellを生きた個体内で!!👀
RT @hiroko_bannai: Single cellを生きた個体内で!!👀 https://t.co/r16F66Kfn4
RT @AlainChedotal: Positron emission tomography at a single cell resolution @GPratx lab. Cell is loaded with nanoparticles concentrating a…