Purpose: High tissue pressure prevents chemotherapeutics from reaching the core of pancreatic tumors. Therefore, targeted therapies have been developed to reduce this pressure. While point probes have shown the effectiveness of these pressure-reducing therapies via single-location estimates, ultrasound elastography is now widely available as an imaging technique to provide real-time spatial maps of shear modulus (tissue stiffness). However, the relationship between shear modulus and the underlying tumor microenvironmental causes of high tissue pressure has not been investigated. In this work, elastography was used to investigate how shear modulus influences drug delivery in situ, and how it correlates with collagen density, hyaluronic acid content, and patent vessel density-features of the tumor microenvironment known to influence tissue pressure.Experimental Design: Intravenous injection of verteporfin, an approved human fluorescent drug, was used in two pancreatic cancer xenograft models [AsPC-1 (n ¼ 25) and BxPC-3 (n ¼ 25)].Results: Fluorescence intensity was higher in AsPC-1 tumors than in BxPC-3 tumors (P < 0.0001). Comparing drug uptake images and shear wave elastographic images with histologic images revealed that: (i) drug delivery and shear modulus were inversely related, (ii) shear modulus increased linearly with increasing collagen density, and (iii) shear modulus was marginally correlated with the local assessment of hyaluronic acid content.Conclusions: These results demonstrate that elastography could guide targeted therapy and/or identify patients with highly elevated tissue pressure.
Efficient and ultrafast (aluminum)-galliumnitride-based metal-semiconductor-metal (Alx)Ga1-xN ultraviolet photodiodes were implemented to investigate the spectral properties of GaN/AlGaN-based photodetectors. Al composition of the GaN templates were varied from 0-% to 30% to demonstrate the impact of Al mole fraction on the cutoff wavelength of these UV photodiodes. Asymmetric metal contact electrodes were fabricated to optimize the external quantum efficiency without compromising their ultrafast photoresponse. The best performing devices exhibited a peak response of 4 V and an oscilloscope limited temporal pulse width of 61 ps at a 20-V bias with a peak spectral responsivity of 36.5 mA/W at 280 nm.
<p>Shear wave elasticity imaging experimental setup used to measure the shear modulus of AsPC-1 and BxPC-3 tumor. (a) shows the Verasonics ultrasound scanner used for shear wave imaging equipped with an L-7 probe attached, positioned on top of a gelatin encapsulated tumor as shown in (b). Scan plane, indicated with dotted lines, form which shear wave images were acquired in (c). Serial sections of tumor slices were cut along the ultrasound scan plane. (d) representative sonogram (e) shear modulus elastogram.</p>
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