| # | Title | Journal | Year | Citations |
|---|
| 1 | Mechanisms of Tissue Injury in Cryosurgery | Cryobiology | 1998 | 1,000 |
| 2 | Vitrification as an approach to cryopreservation | Cryobiology | 1984 | 994 |
| 3 | The role of intracellular freezing in the death of cells cooled at supraoptimal rates | Cryobiology | 1977 | 686 |
| 4 | Protectants used in the cryopreservation of microorganisms | Cryobiology | 2003 | 604 |
| 5 | The mechanism of cryoprotection of proteins by solutes | Cryobiology | 1988 | 536 |
| 6 | Factors affecting the survival of mouse embryos cryopreserved by vitrification | Cryobiology | 1987 | 469 |
| 7 | Are freezing and dehydration similar stress vectors? A comparison of modes of interaction of stabilizing solutes with biomolecules | Cryobiology | 1990 | 428 |
| 8 | The relevance of cryoprotectant “toxicity” to cryobiology | Cryobiology | 1986 | 418 |
| 9 | Modes of interaction of cryoprotectants with membrane phospholipids during freezing | Cryobiology | 1987 | 413 |
| 10 | Lipid composition and thermotropic phase behavior of boar, bull, stallion, and rooster sperm membranes | Cryobiology | 1992 | 404 |
| 11 | Membrane stabilization during freezing: The role of two natural cryoprotectants, trehalose and proline | Cryobiology | 1985 | 386 |
| 12 | The Trehalose Myth Revisited: Introduction to a Symposium on Stabilization of Cells in the Dry State | Cryobiology | 2001 | 381 |
| 13 | Freezing, Drying, and/or Vitrification of Membrane– Solute–Water Systems | Cryobiology | 1999 | 356 |
| 14 | A lipid-phase separation model of low-temperature damage to biological membranes | Cryobiology | 1985 | 339 |
| 15 | Cryoprotectants: A review of the actions and applications of cryoprotective solutes that modulate cell recovery from ultra-low temperatures | Cryobiology | 2017 | 339 |
| 16 | Ice Nucleation and Antinucleation in Nature | Cryobiology | 2000 | 330 |
| 17 | Glass formation in plant anhydrobiotes: survival in the dry state | Cryobiology | 2004 | 319 |
| 18 | Thermal Hysteresis Protein Activity in Bacteria, Fungi, and Phylogenetically Diverse Plants | Cryobiology | 1993 | 313 |
| 19 | Human Platelets Loaded with Trehalose Survive Freeze-Drying | Cryobiology | 2001 | 301 |
| 20 | Viral Contamination of Embryos Cryopreserved in Liquid Nitrogen | Cryobiology | 2000 | 278 |
| 21 | Mesenchymal stromal cells derived from various tissues: Biological, clinical and cryopreservation aspects | Cryobiology | 2015 | 278 |
| 22 | Cryoprotective agents | Cryobiology | 1971 | 276 |
| 23 | Improved vitrification solutions based on the predictability of vitrification solution toxicity | Cryobiology | 2004 | 274 |
| 24 | Microbial contamination of embryos and semen during long term banking in liquid nitrogen | Cryobiology | 2003 | 270 |
| 25 | Cryopreservation of organs by vitrification: perspectives and recent advances | Cryobiology | 2004 | 264 |
| 26 | Solute effects on ice recrystallization: An assessment technique | Cryobiology | 1988 | 261 |
| 27 | Cryo-immunology: A review of the literature and proposed mechanisms for stimulatory versus suppressive immune responses | Cryobiology | 2009 | 258 |
| 28 | Experimental cryosurgery investigations in vivo | Cryobiology | 2009 | 246 |
| 29 | The basis for toxicity of certain cryoprotectants: A hypothesis | Cryobiology | 1990 | 244 |
| 30 | Fundamental cryobiology of reproductive cells and tissues | Cryobiology | 2004 | 241 |
| 31 | Freezing injury from “solution effects” and its prevention by natural or artificial cryoprotection | Cryobiology | 1977 | 240 |
| 32 | Effects of preezing on marrow stem cell suspensions: Interactions of cooling and warming rates in the presence of pvp, sucrose, or glycerol | Cryobiology | 1970 | 237 |
| 33 | Membrane Permeability Modeling: Kedem–Katchalsky vs a Two-Parameter Formalism | Cryobiology | 1998 | 237 |
| 34 | Development of a cold storage solution for pancreas preservation | Cryobiology | 1986 | 234 |
| 35 | Pharmacology of DMSO | Cryobiology | 1986 | 229 |
| 36 | Influence of the cholesterol content of mammalian spermatozoa on susceptibility to cold-shock | Cryobiology | 1977 | 226 |
| 37 | The basis for hyperactivity of antifreeze proteins | Cryobiology | 2006 | 225 |
| 38 | Cryoprotectant toxicity and cryoprotectant toxicity reduction: In search of molecular mechanisms | Cryobiology | 1990 | 220 |
| 39 | Inhibition of recrystallization of ice by insect thermal hysteresis proteins: A possible cryoprotective role | Cryobiology | 1986 | 219 |
| 40 | Some emerging principles underlying the physical properties, biological actions, and utility of vitrification solutions | Cryobiology | 1987 | 219 |
| 41 | Nonequilibrium Antifreeze Peptides and the Recrystallization of Ice | Cryobiology | 1995 | 212 |
| 42 | Osmotic stress as a mechanism of freezing injury | Cryobiology | 1971 | 211 |
| 43 | Controlled ice nucleation in cryopreservation – A review | Cryobiology | 2013 | 210 |
| 44 | Microscopic observation of intracellular ice formation in unfertilized mouse ova as a function of cooling rate | Cryobiology | 1978 | 209 |
| 45 | Interactions of cooling velocity, temperature, and warming velocity on the survival of frozen and thawed yeast | Cryobiology | 1968 | 206 |
| 46 | Is Vitrification Sufficient to Preserve Liposomes during Freeze-Drying? | Cryobiology | 1994 | 205 |
| 47 | Liquid nitrogen preservation of red blood cells for transfusion | Cryobiology | 1968 | 204 |
| 48 | Longevity of cryogenically stored seeds | Cryobiology | 2004 | 204 |
| 49 | Literature Review: Supplemented Phase Diagram of the Trehalose–Water Binary Mixture | Cryobiology | 2000 | 203 |
| 50 | Use of subambient thermal analysis to optimize protein lyophilization | Cryobiology | 1992 | 201 |
