scholarly article | Q13442814 |
P356 | DOI | 10.1126/SCITRANSLMED.AAH4586 |
P8608 | Fatcat ID | release_han7aj4xvzcqvk3ezj5odhahvi |
P932 | PMC publication ID | 5470364 |
P698 | PubMed publication ID | 28251904 |
P50 | author | Christy Haynes | Q42810368 |
Qi Shao | Q57103351 | ||
Navid Manuchehrabadi | Q57427941 | ||
Yoed Rabin | Q89137585 | ||
Zhe Gao | Q89392902 | ||
Hattie L Ring | Q89392903 | ||
Feng Liu | Q89392906 | ||
John C Bischof | Q89392908 | ||
P2093 | author name string | Jinjin Zhang | |
Michael McDermott | |||
Michael Garwood | |||
Kelvin G M Brockbank | |||
Alex Fok | |||
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Survivals of mouse oocytes approach 100% after vitrification in 3-fold diluted media and ultra-rapid warming by an IR laser pulse | Q33760951 | ||
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Predictable Heating and Positive MRI Contrast from a Mesoporous Silica-Coated Iron Oxide Nanoparticle. | Q51435309 | ||
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P4510 | describes a project that uses | ImageJ | Q1659584 |
P433 | issue | 379 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | nanoparticle | Q61231 |
cryopreservation | Q1144664 | ||
magnetite nanoparticle | Q3870166 | ||
magnetic nanoparticle | Q117817683 | ||
P577 | publication date | 2017-03-01 | |
P1433 | published in | Science Translational Medicine | Q1573955 |
P1476 | title | Improved tissue cryopreservation using inductive heating of magnetic nanoparticles | |
P478 | volume | 9 |
Q90255022 | Bulk Droplet Vitrification: An Approach to Improve Large-Scale Hepatocyte Cryopreservation Outcome |
Q88964029 | Buying time for transplants |
Q89997200 | Chemical Enhancement of Irreversible Electroporation: A Review and Future Suggestions |
Q47256326 | Core Concept: Cryopreservation aims to engineer novel ways to freeze, store, and thaw organs |
Q47155019 | Creative technology advances tissue preservation |
Q64891980 | Cryopreservation of Human Ovarian Tissue: A Review. |
Q61135759 | Cryopreservation of infectious Cryptosporidium parvum oocysts |
Q52567140 | Dual Suppression Effect of Magnetic Induction Heating and Microencapsulation on Ice Crystallization Enables Low-Cryoprotectant Vitrification of Stem Cell-Alginate hydrogel Constructs. |
Q91726229 | Ectopic mineralization in heart valves: new insights from in vivo and in vitro procalcific models and promising perspectives on noncalcifiable bioengineered valves |
Q48627780 | Establishing the overlap of IONP quantification with echo and echoless MR relaxation mapping |
Q88981438 | From Nanowarming to Thermoregulation: New Multiscale Applications of Bioheat Transfer |
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Q98394701 | Magnetic heating of nanoparticles as a scalable cryopreservation technology for human induced pluripotent stem cells |
Q91739914 | Nanowarming using Au-tipped Co35Fe65 ferromagnetic nanowires |
Q93061166 | New Approaches to Cryopreservation of Cells, Tissues, and Organs |
Q47596281 | Physical and Chemical Enhancement of and Adaptive Resistance to Irreversible Electroporation of Pancreatic Cancer |
Q89885299 | Preparation of Scalable Silica-Coated Iron Oxide Nanoparticles for Nanowarming |
Q41596650 | Preservation and stability of cell therapy products: recommendations from an expert workshop. |
Q88241450 | Scalable Production and Cryostorage of Organoids Using Core-Shell Decoupled Hydrogel Capsules |
Q90003497 | Supercooling extends preservation time of human livers |
Q59110189 | The Unusual Properties of Polytetrafluoroethylene Enable Massive-Volume Vitrification of Stem Cells with Low-Concentration Cryoprotectants |
Q46112070 | The bridge between transplantation and regenerative medicine: Beginning a new Banff classification of tissue engineering pathology |
Q99584514 | The effect of PEGylated iron oxide nanoparticles on sheep ovarian tissue: An ex-vivo nanosafety study |
Q38673700 | The promise of organ and tissue preservation to transform medicine |
Q57092056 | Ultrarapid Inductive Rewarming of Vitrified Biomaterials with Thin Metal Forms |
Q47634814 | Ultrasound induced strain in ultrasmall CoFe2O4@polyvinyl alcohol nanocomposites |
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