The micro‐robotic laboratory: Optical trapping and scissing for the biologist

Jérôme Conia; Bruce S Edwards; Steve Voelkel

doi:10.1002/(SICI)1098-2825(1997)11:1<28::AID-JCLA6>3.0.CO;2-G

. 1998 Dec 7;11(1):28–38. doi: 10.1002/(SICI)1098-2825(1997)11:1<28::AID-JCLA6>3.0.CO;2-G

The micro‐robotic laboratory: Optical trapping and scissing for the biologist

Jérôme Conia ^1,^✉, Bruce S Edwards ², Steve Voelkel ³

PMCID: PMC6760721 PMID: 9021522

Abstract

With the addition of tightly focused laser beams, microscopes have been turned into elaborate preparative tools that permit not only allow detailed observation of a specimen but also the capture, displacement, and microdissection of biological samples in vitro with astonishing ease and accuracy. Laser‐Tweezers are used to capture and manipulate cells and organelles. LaserScissors are used to perform microdissections at the submicrometer level. After a short technical description of the instrumentation and its principles of operation, several examples of applications are given relevant to the field of clinical research that could only be achieved using such modern technology. For instance, LaserTweezers and LaserScissors offer a unprecedented means to study the immune response to cancer, to control the growth of nerve cells, or expand the significance of assisted reproductive technologies. It is suggested that newly developing procedures and assays using laser‐assisted technologies will prove beneficial for future clinical laboratory testing. J. Clin. Lab. Anal. 11:28–38. © 1997 Wiley‐Liss, Inc.

Keywords: optical trapping, laser ablation, single‐cell assay

References

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23. Greulich KO, Weber G: The light microscope on its way from an analytical to a preparative tool. J Microsc 167: 127–151, 1992. [Google Scholar]
24. Kuo SC: Optical tweezers: A practical guide. JMSA 1: 65–74, 1995. [Google Scholar]
25. Kuby J: The immune system in AIDS In Immunology. 2nd ed. Kuby J, ed. WH Freeman, New York, 1994, p 523–558. [Google Scholar]
26. Kuhn T, Harvey J, Kater SB: The use of Laser Tweezers for the study of neuronal pathfinding. J NIH Res 5: 77–79, 1993. [Google Scholar]
27. Tadir Y, Wright WH, Vafa O, Ord T, Asch RH, Berns MW: Force generated by human sperm correlated to velocity and determined using a laser generated optical trap. Fertil Steril 53, 944–947, 1990. [DOI] [PubMed] [Google Scholar]
28. Feichtinger W, Strohmer H, Fuhrberg P, Radivojevic K, Antinori S, Pepe G, Versaci C: Photoablation of oocyte zona pellucida by erbium‐yag laser for in‐vitro fertilization in severe male infertility. Lancet 339, 811, 1992. [DOI] [PubMed] [Google Scholar]
29. Neev J, Tadir Y, Ho P, Berns MW, Asch RH, Ord T: Microscope‐delivered ultraviolet laser zona dissection: principles and practices. J Assist Reprod Genet 9: 513–523, 1992. [DOI] [PubMed] [Google Scholar]
30. Conia J, Voelkel S: Optical manipulations of human gametes. Bio Techniques 17: 1162–1165, 1994. [PubMed] [Google Scholar]
31. Schütze K, Clement‐Sengewald A, Ashkin A: Zona drilling and sperm insertion with combined laser microbeam and optical tweezers. Fertil Steril 61, 783–786, 1994. [PubMed] [Google Scholar]
32. Obruca A, Strohmer H, Sakkas D, Menezo Y, Kogosowski A, Barak Y, Feichtinger W: Use of lasers in assisted fertilization and hatching. Hum Reprod 9, 1723–1726, 1994. [DOI] [PubMed] [Google Scholar]
33. Palermo G, Joris H, Devroy P, Van Steirtegham C: Pregnancies after intracytoplasmic sperm injection of single spermatozoon into an oocyte. Lancet 340, 17, 1992. [DOI] [PubMed] [Google Scholar]
34. Tadir Y, Neez J, Ho P, Berns MW: Lasers for gamete micromanipulation: basic concepts. J Assist Reprod Genet 10: 121–125, 1993. [DOI] [PubMed] [Google Scholar]
35. Verlinsky Y, Cieslak J: Embryological and technical aspects of preimplantation genetic diagnosis In Preimplantation Diagnosis of Genetic Diseases. A New Technique in Assisted Reproduction. Verlinsky Y, Kuliev AM, eds. Wiley‐Liss, New York, 1993, p 49–67. [Google Scholar]
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37. Simpson JL, Elias S: Isolating fetal cells in the maternal circulation. Hum Reprod (in press), 1995. [DOI] [PubMed]

[bib1] 1. Ashkin A, Dziedzic JM, Bjorkholm JE, Chu S: Observation of a singlebeam gradient force optical trap for dielectric particles. Optics Lett 11: 288–290, 1986. [DOI] [PubMed] [Google Scholar]

[bib2] 2. Welch AJ, Motamedi M, Rastegar S, LeCarpentier GL, Jansen D: Laser thermal ablation. Photochem Photobiol 53: 815–823, 1991. [DOI] [PubMed] [Google Scholar]

[bib3] 3. Ashkin A, Dziedzic JM: Optical trapping and manipulation of viruses and bacteria. Science 235: 1517–1520, 1987. [DOI] [PubMed] [Google Scholar]

[bib4] 4. Ashkin A, Dziedzic JM, Yamane TM: Optical trapping and manipulation of single cells using infrared lasers beams. Nature 330: 769–771, 1987. [DOI] [PubMed] [Google Scholar]

[bib5] 5. Berns MW, Aist JR, Wright WH, Liang H: Optical trapping in animal and fungal cells using a tunable, near‐infrared titanium‐sapphire laser. Exp Cell Res 198: 375–378, 1992. [DOI] [PubMed] [Google Scholar]

[bib6] 6. Vorobjev IA, Liang H, Wright WH, Berns MW: Optical trapping for chromosome manipulation: a wavelength dependence of induced chromosome bridges. Biophys J 64: 533–538, 1993. [DOI] [PMC free article] [PubMed] [Google Scholar]

[bib7] 7. Colon JM, Sarosi P, McGovern PG, Askin A, Dziedzic JM, Skurnick J, Weiss G, Bonder EM: Controlled manipulation of human sperm in three dimensions with an infrared laser optical trap: effect on sperm velocity. Fertil Steril 57: 695–698, 1992. [DOI] [PubMed] [Google Scholar]

[bib8] 8. Rink K, Delacrétaz G, Salathé RP, Senn A, Nocera D, Germond M, Fakan S: 1.48 μm diode laser microdissection of the zona pellucida of mouse zygotes. SPIE Laser—Tissue Interaction V 2134A: 412–422, 1994. [Google Scholar]

[bib9] 9. Srinivasan R: Ablation of polymers and biological tissue by ultraviolet lasers. Science 234: 559–565, 1986. [DOI] [PubMed] [Google Scholar]

[bib10] 10. Berns MW, Aist J, Edwards J, Strahs K, Girton J, McNeill P, Rattner JB, Kitzes M, Hammer‐Wilson M, Liaw L‐H, Siemens A, Koonce M, Peterson S, Brenner S, Burt J, Walter R, Bryant PJ, van Dyk D, Coulombe J, Cahill T, Berns GS: Laser microsurgery in cell and developmental biology. Science 213: 505–513, 1981. [DOI] [PubMed] [Google Scholar]

[bib11] 11. Liang H, Wright WH, Cheng S, He W, Berns MW: Micromanipulation of chromosomes in PTK2 cells using laser microsurgery (optical scalpel) in combination with laser‐induced optical force (optical tweezers). Exp Cell Res 204: 110–120, 1993. [DOI] [PubMed] [Google Scholar]

[bib12] 12. Misawa H, Kitamura N, Masuhara H: Laser manipulation and ablation of a single microparticle in water. J Am Chem Soc 113: 7859–7863, 1991. [Google Scholar]

[bib13] 13. Misawa H, Koshioka M, Sasaki K, Kitamura N, Masuhara H: Three‐dimensional optical trapping and laser ablation of a single polymer latex particle in water. J Appl Phys 70: 3829–3836, 1991. [Google Scholar]

[bib14] 14. Berns MW, Wright WH, Weigand Steubing R: Laser microbeam as a tool in cell biology. Int Rev Cytol 129: 1–44, 1991. [DOI] [PubMed] [Google Scholar]

[bib15] 15. Weber G, Greulich KO: Manipulation of cells, organelles, and genomes by laser microbeam and optical trap. Int Rev Cytol 133: 1–41, 1992. [DOI] [PubMed] [Google Scholar]

[bib16] 16. Edwards BS, Nolla HA, Hoffman RR: Relationship between target cell recognition and temporal fluctuations in intracellular Ca²⁺ of human NK cells. J Immunol 143: 1058–1065, 1989. [PubMed] [Google Scholar]

[bib17] 17. Edwards BS, Hoffman RR, Curry MS: Calcium mobilization‐associated and ‐independent cytosolic acidification elicited in tandem with Na⁺/H⁺ exchanger activation in target cell‐adherent human NK cells. J Immunol 150: 4766–4776, 1993. [PubMed] [Google Scholar]

[bib18] 18. Sonderegger P, Lemkin PF, Lipkin LE, Nelson PG: Differential modulation of the expression of axonal proteins by non‐neuronal cells of the peripheral and the central nervous system. EMBO J 4: 1395–1401, 1985. [DOI] [PMC free article] [PubMed] [Google Scholar]

[bib19] 19. Kater SB, Letourneau P. (eds.): The Biology of the Neuronal Growth Cone. Alan R. Liss, New York, 1985. [Google Scholar]

[bib20] 20. Kuhn T, Schmidt MF, Kater SB: Laminin and fibronectin guideposts signal sustained but opposite effects to passing growth cones. Neuron 14: 275–285, 1995. [DOI] [PubMed] [Google Scholar]

[bib21] 21. Letourneau P, Kater S, Macagno E. (eds.): The Nerve Growth Cone. Raven Press, New York, 1991. [Google Scholar]

[bib22] 22. Block SM: Optical tweezers: A new tool for biophysics In Noninvasive Techniques in Cell Biology. Foskett JK, Grinstein S, eds. Wiley‐Liss, New York, 1990, p 375–402. [Google Scholar]

[bib23] 23. Greulich KO, Weber G: The light microscope on its way from an analytical to a preparative tool. J Microsc 167: 127–151, 1992. [Google Scholar]

[bib24] 24. Kuo SC: Optical tweezers: A practical guide. JMSA 1: 65–74, 1995. [Google Scholar]

[bib25] 25. Kuby J: The immune system in AIDS In Immunology. 2nd ed. Kuby J, ed. WH Freeman, New York, 1994, p 523–558. [Google Scholar]

[bib26] 26. Kuhn T, Harvey J, Kater SB: The use of Laser Tweezers for the study of neuronal pathfinding. J NIH Res 5: 77–79, 1993. [Google Scholar]

[bib27] 27. Tadir Y, Wright WH, Vafa O, Ord T, Asch RH, Berns MW: Force generated by human sperm correlated to velocity and determined using a laser generated optical trap. Fertil Steril 53, 944–947, 1990. [DOI] [PubMed] [Google Scholar]

[bib28] 28. Feichtinger W, Strohmer H, Fuhrberg P, Radivojevic K, Antinori S, Pepe G, Versaci C: Photoablation of oocyte zona pellucida by erbium‐yag laser for in‐vitro fertilization in severe male infertility. Lancet 339, 811, 1992. [DOI] [PubMed] [Google Scholar]

[bib29] 29. Neev J, Tadir Y, Ho P, Berns MW, Asch RH, Ord T: Microscope‐delivered ultraviolet laser zona dissection: principles and practices. J Assist Reprod Genet 9: 513–523, 1992. [DOI] [PubMed] [Google Scholar]

[bib30] 30. Conia J, Voelkel S: Optical manipulations of human gametes. Bio Techniques 17: 1162–1165, 1994. [PubMed] [Google Scholar]

[bib31] 31. Schütze K, Clement‐Sengewald A, Ashkin A: Zona drilling and sperm insertion with combined laser microbeam and optical tweezers. Fertil Steril 61, 783–786, 1994. [PubMed] [Google Scholar]

[bib32] 32. Obruca A, Strohmer H, Sakkas D, Menezo Y, Kogosowski A, Barak Y, Feichtinger W: Use of lasers in assisted fertilization and hatching. Hum Reprod 9, 1723–1726, 1994. [DOI] [PubMed] [Google Scholar]

[bib33] 33. Palermo G, Joris H, Devroy P, Van Steirtegham C: Pregnancies after intracytoplasmic sperm injection of single spermatozoon into an oocyte. Lancet 340, 17, 1992. [DOI] [PubMed] [Google Scholar]

[bib34] 34. Tadir Y, Neez J, Ho P, Berns MW: Lasers for gamete micromanipulation: basic concepts. J Assist Reprod Genet 10: 121–125, 1993. [DOI] [PubMed] [Google Scholar]

[bib35] 35. Verlinsky Y, Cieslak J: Embryological and technical aspects of preimplantation genetic diagnosis In Preimplantation Diagnosis of Genetic Diseases. A New Technique in Assisted Reproduction. Verlinsky Y, Kuliev AM, eds. Wiley‐Liss, New York, 1993, p 49–67. [Google Scholar]

[bib36] 36. Simpson JL, Elias S: Isolating fetal cells in maternal circulation for prenatal diagnosis. Prenat Diagn 14: 1229–1242, 1994. [DOI] [PubMed] [Google Scholar]

[bib37] 37. Simpson JL, Elias S: Isolating fetal cells in the maternal circulation. Hum Reprod (in press), 1995. [DOI] [PubMed]

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The micro‐robotic laboratory: Optical trapping and scissing for the biologist

Jérôme Conia

Bruce S Edwards

Steve Voelkel

Abstract

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The micro‐robotic laboratory: Optical trapping and scissing for the biologist

Jérôme Conia

Bruce S Edwards

Steve Voelkel

Abstract

References

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