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2004

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July

  

From the current literature


Mechanisms and models of the dehydration self-organization in biological fluids


Astrakhan State University, Tatishcheva str. 20a, Astrakhan, 414056, Russian Federation

The dehydration self-organization phenomenon in biological fluids attracted the attention of researchers slightly more than a decade ago. While seemingly simple (the structure formation is possible to observe even in domestic conditions), the effect turned out to be extremely complicated and to involve a number of interrelated processes of a different physical nature. The dehydration self-organization effect in biological fluids underlies a medical diagnostic technique patented in 40 countries of the world, while the mechanisms that underlie the technique still remain largely obscure. This review is an attempt to draw an integrated picture of the current state of the problem: to emphasize reliably established facts and the problems that remain to be solved, to put an end to speculation, and to characterize the available theories and models. An analysis of the literature sources allows us to draw the conclusion that the effects observed in the dehydration of biological fluids are typical for colloidal solutions in general and can be described in the framework of conventional physical approaches.

Fulltext pdf (513 KB)
Fulltext is also available at DOI: 10.1070/PU2004v047n07ABEH001758
PACS: 68.03.Fg, 82.70.−y, 87.19.Tt (all)
DOI: 10.1070/PU2004v047n07ABEH001758
URL: https://ufn.ru/en/articles/2004/7/e/
000225027900005
2004PhyU...47..717T
Citation: Tarasevich Yu Yu "Mechanisms and models of the dehydration self-organization in biological fluids" Phys. Usp. 47 717–728 (2004)
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Оригинал: Тарасевич Ю Ю «Механизмы и модели дегидратационной самоорганизации биологических жидкостей» УФН 174 779–790 (2004); DOI: 10.3367/UFNr.0174.200407f.0779

References (40) Cited by (66) ↓ Similar articles (3)

  1. Obreque-Slier E, Maldonado E et al Journal Of Molecular Liquids 402 124720 (2024)
  2. Voronin A S, Fadeev Y V et al Surfaces And Interfaces 38 102793 (2023)
  3. Adamovich E, Buryanskaya E et al Recent Prog Mater 05 1 (2023)
  4. Martusevich A K, Kovaleva L K et al 20 140 (2023)
  5. Pal A, Gope A, Sengupta A Advances In Colloid And Interface Science 314 102870 (2023)
  6. Martusevich A K, Karuzin K A et al 16 175 (2022)
  7. Harindran A, Hashmi S, Madhurima V Journal Of Dispersion Science And Technology 43 1838 (2022)
  8. Carreón Y J P, Gómez-López M L et al Sensors 22 1156 (2022)
  9. Sefiane K, Duursma G, Arif A Advances In Colloid And Interface Science 298 102546 (2021)
  10. Zheng Ch, Zheng X et al Organic Electronics 93 106168 (2021)
  11. Kolegov K S, Barash L Yu Advances In Colloid And Interface Science 285 102271 (2020)
  12. Myslitskaya N A, Borkunov R Yu et al Tech. Phys. 65 1272 (2020)
  13. Gafarova V A, Bazrova J V, Teltsova L Z MSF 992 336 (2020)
  14. Pal A, Gope A et al Sci Rep 10 (1) (2020)
  15. Xu Ya-Q, Li K et al Environ Sci Eur 32 (1) (2020)
  16. Fedoseev V B, Fedoseeva E N J Eng Phys Thermophy 92 1191 (2019)
  17. Zang D, Tarafdar S et al Physics Reports 804 1 (2019)
  18. Myslitskaya N A, Borkunov R Yu et al Russ. J. Phys. Chem. 93 1559 (2019)
  19. Le Floch-Fouéré C, Lanotte L et al Soft Matter 15 6190 (2019)
  20. Dubinov A E, Kozhayeva Ju P et al Advances In Colloid And Interface Science 271 101986 (2019)
  21. Pavlov I N, Raskovskaya I L, Yurkevichyus S P Meas Tech 61 604 (2018)
  22. Golovanova O A, Chikanova E S, Fedoseev V B Crystallogr. Rep. 63 493 (2018)
  23. Carreón Y J P, González-Gutiérrez J et al Colloids And Surfaces B: Biointerfaces 161 103 (2018)
  24. Tarafdar S, Tarasevich Yu Yu et al Advances In Condensed Matter Physics 2018 1 (2018)
  25. Arakelian S M, Osipov A V et al Bull. Russ. Acad. Sci. Phys. 81 1416 (2017)
  26. Martusevich A K, Martusevich A A, Kovaleva L K BIOPHYSICS 62 616 (2017)
  27. Steblenko L P, Nigelska A I et al J. Synch. Investig. 11 280 (2017)
  28. Chen R, Zhang L et al Advances In Colloid And Interface Science 231 1 (2016)
  29. (Asia-Pacific Conference on Fundamental Problems of Opto- and Microelectronics) Vol. Asia-Pacific Conference on Fundamental Problems of Opto- and Microelectronics Protein solution photomodification analysis by means of craquelure structures Yuri N.KulchinRoman V.RomashkoAlexander V.SyuyAlexander N.MalovAnna V.NeupokoevaAlexey N.MorozovElena A.Timoshenko10176 (2016) p. 101760C
  30. Rajabi M T, Sharifzadeh M 95 e3137 (2016)
  31. Korenchenko A E, Vorontsov A G, Gel’chinskii B R High Temp 54 229 (2016)
  32. (Asia-Pacific Conference on Fundamental Problems of Opto- and Microelectronics) Vol. Asia-Pacific Conference on Fundamental Problems of Opto- and Microelectronics Crystallography method for protein solutions photomodification study Yuri N.KulchinRoman V.RomashkoAlexander V.SyuyAlexander N.MalovAnna V.NeupokoevaAlexandra Sh.KhamitovaNatalia O.Kiseleva10176 (2016) p. 101760B
  33. Korenchenko A E, Malkova J P 27 (10) (2015)
  34. Glibitskiy G, Glibitskiy D et al Nanoscale Res Lett 10 (1) (2015)
  35. Perepelytsya S M Visn. Nac. Akad. Nauk Ukr (01) 89 (2014)
  36. Ivanitskii G R, Deev A A, Khizhnyak E P Uspekhi Fizicheskikh Nauk 184 43 (2014) [Ivanitskii G R, Deev A A, Khizhnyak E P Phys.-Usp. 57 37 (2014)]
  37. Thiele U Advances In Colloid And Interface Science 206 399 (2014)
  38. Gebhardt R, Petkeviciute I Food Structure 1 155 (2014)
  39. Glibits’kii G M, Dzhelalі V V i dr Ukr. J. Phys. 57 695 (2012)
  40. Myslitskaya N A, Khitrin A V et al Russ Phys J 54 1280 (2012)
  41. Buzoverya M E, Shcherbak Yu P, Shishpor I V Tech. Phys. 57 1270 (2012)
  42. Tutov E A Tech. Phys. 57 765 (2012)
  43. Fraštia Ľubor, Archer A J, Thiele U Soft Matter 8 11363 (2012)
  44. Lebedev-Stepanov P V, Kadushnikov R M et al Nanotechnol Russia 6 79 (2011)
  45. VODOLAZSKAYA I V, TARASEVICH YU YU Mod. Phys. Lett. B 25 1303 (2011)
  46. Chashechkin Yu D, Bardakov R N, Shabalin V V Dokl. Phys. 56 62 (2011)
  47. Tarasevich Yu Yu, Vodolazskaya I V, Isakova O P Colloid Polym Sci 289 1015 (2011)
  48. Lebedev-Stepanov P V, Gromov S P et al Nanotechnol Russia 6 569 (2011)
  49. Vysotskii V V, Uryupina O Ya et al Inorg. Mater. Appl. Res. 2 47 (2011)
  50. Rudenko O V, Korobov A I et al Nanotechnol Russia 5 469 (2010)
  51. Sefiane Kh J Bionic Eng 7 S82 (2010)
  52. Kistovich A V, Chashechkin Yu D, Shabalin V V Tech. Phys. 55 473 (2010)
  53. Rudenko O V, Lebedev-Stepanov P V et al Acoust. Phys. 56 935 (2010)
  54. Eroshenko L V, Lebedev-Stepanov P V et al Nanotechnol Russia 5 771 (2010)
  55. Bardakov R N, Chashechkin Yu D, Shabalin V V Fluid Dyn 45 803 (2010)
  56. Chashechkin Yu D, Bardakov R N Dokl. Phys. 55 68 (2010)
  57. Ilyukhina M A, Makov Yu N Acoust. Phys. 55 722 (2009)
  58. Yakhno T A, Yakhno V G Tech. Phys. 54 1219 (2009)
  59. Lychagov V V, Kal’yanov A L, Ryabukho V P Opt. Spectrosc. 107 859 (2009)
  60. Andreeva L V, Novoselova A S et al Tech. Phys. 52 164 (2007)
  61. Morin FabriceOlivier, Rose F et al Nanoscale Res Lett 2 (3) (2007)
  62. Andreeva L V, Koshkin A V et al Colloids And Surfaces A: Physicochemical And Engineering Aspects 300 300 (2007)
  63. Tarasevich Yu Yu, Pravoslavnova D M Eur. Phys. J. E 22 311 (2007)
  64. Tarasevich Yu Yu, Pravoslavnova D M Tech. Phys. 52 159 (2007)
  65. Maksimov S A Bûll. Sib. Med. 6 80 (2007)
  66. Andreeva L V, Ivanov D A et al Instrum Exp Tech 49 860 (2006)

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