Laser‐induced bubbles in living cells

Laser‐activated micro‐ and nano‐bubbles (LAB) in cells may be used as universal and sensitive non‐toxic probes for measuring functional properties of individual cells.

[1]  Dmitry Lapotko,et al.  Human cell viability to laser pulse and ion transport processes , 2000, Photonics West - Biomedical Optics.

[2]  J. Parrish Effects of Lasers on Biologic Tissue: Options for Specificity , 1985 .

[3]  A. Rosencwaig Thermal wave microscopy with photoacoustics , 1980 .

[4]  C. Brennen Cavitation and Bubble Dynamics , 1995 .

[5]  Alexander A. Oraevsky,et al.  Enhancement of optoacoustic tissue contrast with absorbing nanoparticles , 2001, European Conference on Biomedical Optics.

[6]  Christopher E. Brennen,et al.  Observations of the dynamics and acoustics of travelling bubble cavitation , 1991, Journal of Fluid Mechanics.

[7]  R Birngruber,et al.  Mechanisms of intraocular photodisruption with picosecond and nanosecond laser pulses , 1994, Lasers in surgery and medicine.

[8]  V. Zharov,et al.  Spectral evaluation of laser‐induced cell damage with photothermal microscopy , 2005, Lasers in surgery and medicine.

[9]  D. Lapotko,et al.  Photothermal Monitoring of Redox State of Respiratory Chain in Single Live Cells ¶ , 2002, Photochemistry and photobiology.

[10]  Ekaterina Lukianova,et al.  Photothermal responses of individual cells. , 2005, Journal of biomedical optics.

[11]  V. K. Pustovalov Thermal processes under the action of laser radiation pulse on absorbing granules in heterogeneous biotissues , 1993 .

[12]  S. Braslavsky,et al.  PHOTO ACOUSTIC AND PHOTOTHERMAL METHODS APPLIED TO THE STUDY OF RADIATIONLESS DEACTIVATION PROCESSES IN BIOLOGICAL SYSTEMS AND IN SUBSTANCES OF BIOLOGICAL INTEREST , 1986, Photochemistry and photobiology.

[13]  Sharon Thomsen,et al.  Rate Process Analysis of Thermal Damage , 1995 .

[14]  Bernard S. Gerstman Theoretical modeling of laser-induced explosive pressure generation and vaporization in pigmented cells , 2000, Laser Damage.

[15]  V. Zharov,et al.  Photothermal time‐resolved imaging of living cells , 2002, Lasers in surgery and medicine.

[16]  Ralf Brinkmann,et al.  RPE damage thresholds and mechanisms for laser exposure in the microsecond-to-millisecond time regimen. , 2005, Investigative ophthalmology & visual science.

[17]  Ralf Brinkmann,et al.  Noninvasive optoacoustic temperature determination at the fundus of the eye during laser irradiation. , 2004, Journal of biomedical optics.

[18]  T. R. Dulski Steel and Related Materials , 1991 .

[19]  S. Thomsen PATHOLOGIC ANALYSIS OF PHOTOTHERMAL AND PHOTOMECHANICAL EFFECTS OF LASER–TISSUE INTERACTIONS , 1991, Photochemistry and photobiology.

[20]  D. Lapotko Monitoring of apoptosis in intact single cells with photothermal microscope , 2004, Cytometry. Part A : the journal of the International Society for Analytical Cytology.

[21]  Dmitri O. Lapotko,et al.  Photothermal monitoring of interaction of carcinoma cells with cytostatic drugs in vitro , 2003, SPIE BiOS.

[22]  Dmitry Lapotko,et al.  Pharmaceutical applications of photothermal cytometry , 2000, Photonics West - Biomedical Optics.

[23]  Takehiko Kitamori,et al.  Application of coaxial beam photothermal microscopy to the analysis of a single biological cell in water , 1995 .

[24]  A. Prosperetti,et al.  Bubble Dynamics and Cavitation , 1977 .

[25]  T. Juhász,et al.  Dynamics of shock waves and cavitation bubbles generated by picosecond laser pulses in corneal tissue and water , 1994, Lasers in surgery and medicine.

[26]  Alexander A. Oraevsky,et al.  Laser activated nanothermolysis of leukemia cells monitored by photothermal microscopy , 2005, SPIE BiOS.

[27]  J. Buitink,et al.  Metabolic dysfunction and unabated respiration precede the loss of membrane integrity during dehydration of germinating radicles. , 2000, Plant physiology.

[28]  D. Lapotko,et al.  Influence of physiological conditions on laser damage thresholds for blood, heart, and liver cells , 2005, Lasers in surgery and medicine.

[29]  A. Welch,et al.  Clinical use of laser-tissue interactions , 1989, IEEE Engineering in Medicine and Biology Magazine.

[30]  Dmitri O. Lapotko,et al.  Laser-induced micro-bubbles in cells , 2005 .

[31]  Reginald Birngruber,et al.  On the possibility of high-precision photothermal microeffects and the measurement of fast thermal denaturation of proteins , 1999 .

[32]  D. Lapotko,et al.  Photothermal detection of laser‐induced damage in single intact cells , 2003, Lasers in surgery and medicine.

[33]  Frank K. Tittel,et al.  Pulsed laser ablation of soft tissues, gels, and aqueous solutions at temperatures below 100°C , 1996 .

[34]  Dmitry Lapotko,et al.  Laser viability method for red blood cell-state monitoring , 1996, Other Conferences.

[35]  S. Anisimov,et al.  Rarefaction wave and gravitational equilibrium in a two-phase liquid-vapor medium , 1999 .

[36]  Olgert Lindau,et al.  Bubble dynamics, shock waves and sonoluminescence , 1999, Philosophical Transactions of the Royal Society of London. Series A: Mathematical, Physical and Engineering Sciences.

[37]  Massoud Motamedi,et al.  Optoacoustic imaging of gold nanoparticles targeted to breast cancer cells , 2004, SPIE BiOS.

[38]  Vasan Venugopalan,et al.  Role of laser-induced plasma formation in pulsed cellular microsurgery and micromanipulation. , 2002, Physical review letters.

[39]  T. Ramakrishna,et al.  Depth profiling of mammalian cells by photoacoustic spectroscopy: localization of ligands. , 1997, Biophysical journal.