Medical Engineering & Physics
Volume 30, Issue 8 , Pages 984-988 , October 2008

In vivo detection of cryosurgery using multiphoton and harmonic generation microscopy

Received 11 July 2007 ,Revised 27 December 2007 ,Accepted 28 January 2008.

References 

  1. Andrews MD. Cryosurgery for common skin conditions. Am Fam Physician. 2004;69(May (15)):2365–2372
  2. Abramovits W, Losornio M, Marais G, Perlmutter A. Cutaneous cryosurgery. Dermatol Nurs. 2006;18:456–459
  3. Hoffmann NE, Bischof JC. The cryobiology of cryosurgical injury. Urology. 2002;60:40–49
  4. Gage AA, Baust J. Mechanisms of tissue injury in cryosurgery. Cryobiology. 1998;37:171–186
  5. Suzuki Y. Cryosurgical treatment of advanced breast cancer and cryoimmunological response. Skin Cancer. 1995;10:19–26
  6. Hoffmann NE, Coad JE, Huot CS, Swanlund DJ, Bischof JC. Investigation of the mechanism and the effect of cryoimmunology in the Copenhagen rat. Cryobiology. 2001;42:59–68
  7. Johnson JP. Immunologic aspects of cryosurgery: potential modulation of immune recognition and effector cell maturation. Clin Dermatol. 1990;8:39–47
  8. Sabel MS, Arora A, Su G, Chang AE. Adoptive immunotherapy of breast cancer with lymph node cells primed by cryoablation of the primary tumor. Cryobiology. 2006;53:360–366
  9. Langer S, Sinitsina I, Biberthaler P, Krombach F, Messmer K. Revascularization of transplanted adipose tissue: a study in the dorsal skinfold chamber of hamsters. Ann Plast Surg. 2002;48:53–59
  10. Schacht V, Berens von Rautenfeld D, Abels C. The lymphatic system in the dorsal skinfold chamber of the Syrian golden hamster in vivo. Arch Dermatol Res. 2004;295:542–548
  11. Laschke MW, Haufel JM, Thorlacius H, Menger MD. New experimental approach to study host tissue response to surgical mesh materials in vivo. J Biomed Mater Res A. 2005;74(September (15)):696–704
  12. Masters BR, So PT, Gratton E. Multiphoton excitation fluorescence microscopy and spectroscopy of in vivo human skin. Biophys J. 1997;72:2405–2412
  13. So PT, Dong CY, Masters BR, Berland KM. Two-photon excitation fluorescence microscopy. Annu Rev Biomed Eng. 2000;2:399–429
  14. Teng SW, Tan HY, Peng JL, Lin HH, Kim KH, Lo W, et al. Multiphoton autofluorescence and second-harmonic generation imaging of the ex vivo porcine eye. Invest Ophthalmol Vis Sci. 2006;47:1216–1224
  15. Theodossiou TA, Thrasivoulou C, Ekwobi C, Becker DL. Second harmonic generation confocal microscopy of collagen type I from rat tendon cryosections. Biophys J. 2006;91(December (15)):4665–4677
  16. Campagnola PJ, Loew LM. Second-harmonic imaging microscopy for visualizing biomolecular arrays in cells, tissues and organisms. Nat Biotechnol. 2003;21:1356–1360
  17. Stoller P, Kim BM, Rubenchik AM, Reiser KM, Da Silva LB. Polarization-dependent optical second-harmonic imaging of a rat-tail tendon. J Biomed Opt. 2002;7:205–214
  18. Kim BM, Eichler J, Reiser KM, Rubenchik AM, Da Silva LB. Collagen structure and nonlinear susceptibility: effects of heat, glycation, and enzymatic cleavage on second harmonic signal intensity. Lasers Surg Med. 2000;27:329–335
  19. Zipfel WR, Williams RM, Webb WW. Nonlinear magic: multiphoton microscopy in the biosciences. Nat Biotechnol. 2003;21:1369–1377
  20. Yeh AT, Choi B, Nelson JS, Tromberg BJ. Reversible dissociation of collagen in tissues. J Invest Dermatol. 2003;121:1332–1335
  21. Morishige N, Petroll WM, Nishida T, Kenney MC, Jester JV. Noninvasive corneal stromal collagen imaging using two-photon-generated second-harmonic signals. J Cataract Refract Surg. 2006;32:1784–1791
  22. Konig K, Schenke-Layland K, Riemann I, Stock UA. Multiphoton autofluorescence imaging of intratissue elastic fibers. Biomaterials. 2005;26:495–500
  23. Chance B, Thorell B. Localization and kinetics of reduced pyridine nucleotide in living cells by microfluorometry. J Biol Chem. 1959;234:3044–3050

PII: S1350-4533(08)00025-8

doi: 10.1016/j.medengphy.2008.01.009

Medical Engineering & Physics
Volume 30, Issue 8 , Pages 984-988 , October 2008

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