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Journal Abstract Search

167 related items for PubMed ID: 31278406

  • 1. Vapour Pressure above the Glassy Trehalose Solution and Glass Relaxation.
    Zhang S, Niu X, Huang G, Chen G, Xu X.
    Cryo Letters; 2019; 40(4):247-256. PubMed ID: 31278406
    [Abstract] [Full Text] [Related]

  • 2. Comparative investigation by two analytical approaches of enthalpy relaxation for glassy glucose, sucrose, maltose, and trehalose.
    Kawai K, Hagiwara T, Takai R, Suzuki T.
    Pharm Res; 2005 Mar; 22(3):490-5. PubMed ID: 15835755
    [Abstract] [Full Text] [Related]

  • 3. Vapor pressures above the vitrified sucrose solution at low temperatures.
    Zhang S, Peng Y, Wang B, Chen G.
    Cryo Letters; 2015 Mar; 36(1):60-7. PubMed ID: 26017174
    [Abstract] [Full Text] [Related]

  • 4. Effects of vitrification cryopreservation on follicular morphology and stress relaxation behaviors of human ovarian tissues: sucrose versus trehalose as the non-permeable protective agent.
    Tian T, Zhao G, Han D, Zhu K, Chen D, Zhang Z, Wei Z, Cao Y, Zhou P.
    Hum Reprod; 2015 Apr; 30(4):877-83. PubMed ID: 25662812
    [Abstract] [Full Text] [Related]

  • 5. Desiccation kinetics and biothermodynamics of glass forming trehalose solutions in thin films.
    He X, Fowler A, Menze M, Hand S, Toner M.
    Ann Biomed Eng; 2008 Aug; 36(8):1428-39. PubMed ID: 18500553
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  • 8. Glass transition and enthalpy relaxation of polyphosphate compounds.
    Kawai K, Suzuki TS, Takai R.
    Cryo Letters; 2002 Aug; 23(2):79-88. PubMed ID: 12050775
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  • 9. Prediction of the glass transition temperature of water solutions: comparison of different models.
    Katkov II, Levine F.
    Cryobiology; 2004 Aug; 49(1):62-82. PubMed ID: 15265717
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  • 10. Evaluation of glassy-state dynamics from the width of the glass transition: results from theoretical simulation of differential scanning calorimetry and comparisons with experiment.
    Pikal MJ, Chang LL, Tang XC.
    J Pharm Sci; 2004 Apr; 93(4):981-94. PubMed ID: 14999734
    [Abstract] [Full Text] [Related]

  • 11. Protection by Glycerol, Sucrose and Trehalose for Acellular Human Dermis Against Gamma Irradiation Damage at -78.5°C.
    Sun WQ.
    Cryo Letters; 2019 Apr; 40(4):200-208. PubMed ID: 31278400
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  • 13. Evaluation of the relevance of the glassy state as stability criterion for freeze-dried bacteria by application of the Arrhenius and WLF model.
    Aschenbrenner M, Kulozik U, Foerst P.
    Cryobiology; 2012 Dec; 65(3):308-18. PubMed ID: 22964396
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  • 14. Collapse temperature of solutions important for lyopreservation of living cells at ambient temperature.
    Yang G, Gilstrap K, Zhang A, Xu LX, He X.
    Biotechnol Bioeng; 2010 Jun 01; 106(2):247-59. PubMed ID: 20148402
    [Abstract] [Full Text] [Related]

  • 15. Time-dependence of molecular mobility during structural relaxation and its impact on organic amorphous solids: an investigation based on a calorimetric approach.
    Mao C, Chamarthy SP, Pinal R.
    Pharm Res; 2006 Aug 01; 23(8):1906-17. PubMed ID: 16858653
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  • 17. Molecular mobility as an effective predictor of the physical stability of amorphous trehalose.
    Bhardwaj SP, Suryanarayanan R.
    Mol Pharm; 2012 Nov 05; 9(11):3209-17. PubMed ID: 23003337
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  • 18. The glass transition temperature of mixtures of trehalose and hydroxyethyl starch.
    Chen T, Bhowmick S, Sputtek A, Fowler A, Toner M.
    Cryobiology; 2002 Jun 05; 44(3):301-6. PubMed ID: 12237095
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  • 19. Glass fragility and the stability of pharmaceutical preparations--excipient selection.
    Hatley RH.
    Pharm Dev Technol; 1997 Aug 05; 2(3):257-64. PubMed ID: 9552453
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  • 20. Stabilization of proteins embedded in sugars and water as studied by dielectric spectroscopy.
    Olsson C, Zangana R, Swenson J.
    Phys Chem Chem Phys; 2020 Sep 30; 22(37):21197-21207. PubMed ID: 32930314
    [Abstract] [Full Text] [Related]

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