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Delalande A.♦, Bouakaz A.♦, Renault G.♦, Tabareau F.♦, Kotopoulis S.♦, Midoux P.♦, Arbeille B.♦, Uzbekov R.♦, Chakravarti S.♦, Postema M.♦, Pichon C.♦, Ultrasound and microbubble-assisted gene delivery in Achilles tendons: long lasting gene expression and restoration of fibromodulin KO phenotype,
Journal of Controlled Release, ISSN: 0168-3659, DOI: 10.1016/j.jconrel.2011.08.020, Vol.156, pp.223-230, 2011Streszczenie: The aim of this study is to deliver genes in Achilles tendons using ultrasound and microbubbles. The rationale is to combine ultrasound-assisted delivery and the stimulation of protein expression induced by US. We found that mice tendons injected with 10 μg of plasmid encoding luciferase gene in the presence of 5 × 10^5 BR14 microbubbles, exposed to US at 1 MHz, 200 kPa, 40% duty cycle for 10 min were efficiently transfected without toxicity. The rate of luciferase expression was 100-fold higher than that obtained when plasmid alone was injected. Remarkably, the luciferase transgene was stably expressed for up to 108 days. DNA extracted from these sonoporated tendons was efficient in transforming competent E. coli bacteria, indicating that persistent intact pDNA was responsible for this long lasting gene expression. We used this approach to restore expression of the fibromodulin gene in fibromodulin KO mice. A significant fibromodulin expression was detected by quantitative PCR one week post-injection. Interestingly, ultrastructural analysis of these tendons revealed that collagen fibrils diameter distribution and circularity were similar to that of wild type mice. Our results suggest that this gene delivery method is promising for clinical applications aimed at modulating healing or restoring a degenerative tendon while offering great promise for gene therapy due its safety compared to viral methods. Słowa kluczowe: Gene delivery, Sonoporation, Tendon Afiliacje autorów:
Delalande A. | - | CNRS (FR) | Bouakaz A. | - | Université François Rabelais (FR) | Renault G. | - | CNRS (FR) | Tabareau F. | - | CHR, Service d'anatomie et cytologie pathologiques (FR) | Kotopoulis S. | - | Haukeland University Hospital (NO) | Midoux P. | - | CNRS (FR) | Arbeille B. | - | Université François Rabelais (FR) | Uzbekov R. | - | Université François Rabelais (FR) | Chakravarti S. | - | Johns Hopkins School of Medicine (US) | Postema M. | - | inna afiliacja | Pichon C. | - | CNRS (FR) |
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Postema M.♦, Bouakaz A.♦, ten Cate F.J.♦, Schmitz G.♦, de Jong N.♦, van Wamel A.♦, Nitric oxide delivery by ultrasonic cracking: Some limitations,
Ultrasonics, ISSN: 0041-624X, DOI: 10.1016/j.ultras.2006.06.003, Vol.44, pp.e109-e113, 2006Streszczenie: Nitric oxide (NO) has been implicated in smooth muscle relaxation. Its use has been widespread in cardiology. Due to the effective scavenging of NO by hemoglobin, however, the drug has to be applied locally or in large quantities, to have the effect desired. We propose the use of encapsulated microbubbles that act as a vehicle to carry the gas to a region of interest. By applying a burst of high-amplitude ultrasound, the shell encapsulating the gas can be cracked. Consequently, the gas is released upon which its dissolution and diffusion begins. This process is generally referred to as (ultra)sonic cracking.
To test if the quantities of released gas are high enough to allow for NO-delivery in small vessels (ø < 200 lm), we analyzed high-speed optical recordings of insonified stiff-shelled microbubbles. These microbubbles were subjected to ultrasonic cracking using 0.5 or 1.7 MHz ultrasound with mechanical index MI > 0.6. The mean quantity released from a single microbubble is 1.7 fmol. This is already more than the NO production of a 1 mm long vessel with a 50 lm diameter during 100 ms. However, we simulated that the dissolution time of typical released NO microbubbles is equal to the half-life time of NO in whole blood due to scavenging by hemoglobin (1.8 ms), but much smaller than the extravascular half-life time of NO (>90 ms).
We conclude that ultrasonic cracking can only be a successful means for nitric oxide delivery, if the gas is released in or near the red blood cell-free plasma next to the endothelium. A complicating factor in the in vivo situation is the variation in blood pressure. Although our simulations and acoustic measurements demonstrate that the dissolution speed of free gas increases with the hydrostatic pressure, the in vitro acoustic amplitudes suggest that the number of released microbubbles decreases at higher hydrostatic pressures. This indicates that ultrasonic cracking mostly occurs during the expansion phase. Słowa kluczowe: Nitric oxide, Sonic cracking Afiliacje autorów:
Postema M. | - | inna afiliacja | Bouakaz A. | - | Université François Rabelais (FR) | ten Cate F.J. | - | inna afiliacja | Schmitz G. | - | inna afiliacja | de Jong N. | - | inna afiliacja | van Wamel A. | - | inna afiliacja |
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Postema M.♦, Bouakaz A.♦, Versluis M.♦, de Jong N.♦, Ultrasound-Induced Gas Release from Contrast Agent Microbubbles,
IEEE TRANSACTIONS ON ULTRASONICS FERROELECTRICS AND FREQUENCY CONTROL, ISSN: 0885-3010, DOI: 10.1109/TUFFC.2005.1504026, Vol.52, No.6, pp.1035-1041, 2005Streszczenie: We investigated gas release from two hard- shelled ultrasound contrast agents by subjecting them to high-mechanical index (MI) ultrasound and simultaneously capturing high-speed photographs. At an insonifying frequency of 1.7 MHz, a larger percentage of contrast bubbles is seen to crack than at 0.5 MHz. Most of the released gas bubbles have equilibrium diameters between 1.25 and 1.75 m. Their disappearance was observed optically. Free gas bubbles have equilibrium diameters smaller than the bubbles from which they have been released. Coalescence may account for the long dissolution times acoustically observed and published in previous studies. After sonic cracking, the cracked bubbles stay acoustically active. Słowa kluczowe: Sonic cracking Afiliacje autorów:
Postema M. | - | inna afiliacja | Bouakaz A. | - | Université François Rabelais (FR) | Versluis M. | - | inna afiliacja | de Jong N. | - | inna afiliacja |
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Postema M.♦, Bouakaz A.♦, de Jong N.♦, Noninvasive microbubble-based pressure measurements: a simulation study,
Ultrasonics, ISSN: 0041-624X, DOI: 10.1016/j.ultras.2003.12.007, Vol.42, No.1-9, pp.759-762, 2004Streszczenie: This paper describes a noninvasive method to measure local hydrostatic pressures in fluid filled cavities. The method is based on the disappearance time of a gas bubble, as the disappearance time is related to the hydrostatic pressure. When a bubble shrinks, its response to ultrasound changes. From this response, the disappearance time, and with it the hydrostatic pressure, can be determined.
We investigated the applicability of the gases Ar, C3F8, Kr, N2, Ne, and SF6, based on their diffusive properties. For pressure measurements with a limited duration, e.g. 150 ms, Kr and Ar bubbles are most suitable, since they are most sensitive to pressure change. If there is also a limitation to bubble size, e.g. a maximum diameter of 6 lm, SF6 is most suitable.
We present improvements of a method that correlates the duration of the decay of the fundamental ultrasound response to the hydrostatic overpressure. We propose to correlate the duration until subharmonic occurrence in combination with its decay, to hydrostatic overpressure, since the subharmonic decays more rapidly than the fundamental response. For a dissolving Ar gas bubble with an initial diameter of 14 lm, the overpressure can be determined 4 times as precise from the decay of the subharmonic response as from the decay of the fundamental response. Overpressures as small as 11 mmHg may be discriminated with this method. Słowa kluczowe: Noninvasive pressure measurement, Blood pressure, Microbubble, Sonic cracking Afiliacje autorów:
Postema M. | - | inna afiliacja | Bouakaz A. | - | Université François Rabelais (FR) | de Jong N. | - | inna afiliacja |
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Postema M.♦, Bouakaz A.♦, Chin C.T.♦, de Jong N.♦, Simulations and Measurements of Optical Images of Insonified Ultrasound Contrast Microbubbles,
IEEE TRANSACTIONS ON ULTRASONICS FERROELECTRICS AND FREQUENCY CONTROL, ISSN: 0885-3010, DOI: 10.1109/TUFFC.2003.1201465, Vol.50, No.5, pp.523-536, 2003Streszczenie: Ultrasound contrast agents (UCAs) are used in a clinical setting to enhance the backscattered signal from the blood pool to estimate perfusion and blood flow. The UCAs consist of encapsulated microbubbles, measuring 1–10 m in diameter. Acoustic characterization of UCAs is generally carried out from an ensemble of bubbles. The measured signal is a complicated summation of all signals from the individual microbubbles. Hence, characterization of a single bubble from acoustic measurements is complex.
In this study, 583 optical observations of freely flowing, oscillating, individual microbubbles from an experimental UCA were analyzed. The excursions during ultra- sound exposure were observed through a microscope. Images were recorded with a high frame rate camera operating at 3 MHz. Microbubbles on these images were measured off-line, and maximal excursions were determined. A technique is described to determine the diameters of the bubbles observed. We compared the maximal excursions of microbubbles of the same initial size in an ultrasound field with a 500 kHz center frequency at acoustic amplitudes ranging from 0.06 MPa to 0.85 MPa.
It was concluded that maximal excursions of identical bubbles can differ by 150% at low acoustic pressures (mechanical index or MI 0.2). At a high acoustic pressure (MI = 1.2) an image sequence was recorded on which a bubble collapsed, but an apparently identical bubble survived. Afiliacje autorów:
Postema M. | - | inna afiliacja | Bouakaz A. | - | Université François Rabelais (FR) | Chin C.T. | - | inna afiliacja | de Jong N. | - | inna afiliacja |
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Postema M.♦, Bouakaz A.♦, Chin C.T.♦, de Jong N.♦, Optical observations of ultrasound contrast agent destruction,
ACTA ACUSTICA UNITED WITH ACUSTICA, ISSN: 1610-1928, Vol.89, pp.728, 2003 | |
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Postema M.♦, Bouakaz A.♦, de Jong N.♦, March 2002,
IEEE TRANSACTIONS ON ULTRASONICS FERROELECTRICS AND FREQUENCY CONTROL, ISSN: 0885-3010, Vol.49, No.3, pp.c1-c2, 2002Streszczenie: The cover page shows a sequence of microscopic image frames of a freely flowing contrast agent microbubble. The frames were taken during one cycle of ultrasound insonification, with a center frequency of 500 kHz. The peak negative acoustic pressure at the region of interest was 0.85 MPa. Each frame corresponds to a 45 x 27 μm2 area. The exposure time of each frame was 10 ns. Interframe times were 330 ns, except for the time between frames e and f, which was 660 ns. The sequence shows a growing gas encapsulated microbubble of 5.3 μm (a) and 17.6 μm (b), and its maximal growth of 22.9 μm (c). After shrinking to 20.2 μm (d), it ruptured (e). The microbubble had been pushed to the lower left side of the frame, apparently by water that was propelled into the microbubble. A subframe shows the negative of the region of interest. Finally, the deformed mcrobubble re-occurred as an assymetric shape (f). Understanding of microbubble-rupturing behavior is neccessary for developments in medical release burst imaging and ultra- sound-guided drug delivery. This work has been supported by the Technology Foundation STW (RKG.5104) and the Interuniversity Cardiology Institute of The Netherlands. Afiliacje autorów:
Postema M. | - | inna afiliacja | Bouakaz A. | - | Université François Rabelais (FR) | de Jong N. | - | inna afiliacja |
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