Yaron Hassid scite author profile

Yaron Hassid

5Publications

141Citation Statements Received

117Citation Statements Given

How they've been cited

166

133

How they cite others

111

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Publications

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Noninvasive Magnetic Resonance Imaging of Transport and Interstitial Fluid Pressure in Ectopic Human Lung Tumors

Hassid¹,

Furman‐Haran²,

Margalit³

et al. 2006

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Tumor response to blood borne drugs is critically dependent on the efficiency of vascular delivery and transcapillary transfer. However, increased tumor interstitial fluid pressure (IFP) forms a barrier to transcapillary transfer, leading to resistance to drug delivery. We present here a new, noninvasive method which estimates IFP and its spatial distribution in vivo using contrast-enhanced magnetic resonance imaging (MRI). This method was tested in ectopic human non-small-cell lung cancer which exhibited a high IFP of f28 mm Hg and, for comparison, in orthotopic MCF7 human breast tumors which exhibited a lower IFP of f14 mm Hg, both implanted in nude mice. The MRI protocol consisted of slow infusion of the contrast agent [gadolinium-diethylenetriaminepentaacetic acid (GdDTPA)] into the blood for f2 hours, sequential acquisition of images before and during the infusion, and measurements of T 1 relaxation rates before infusion and after blood and tumor GdDTPA concentration reached a steady state. Image analysis yielded parametric images of steadystate tissue GdDTPA concentration with high values of this concentration outside the tumor boundaries, f1 mmol/L, declining in the tumor periphery to f0.5 mmol/L, and then steeply decreasing to low or null values. The distribution of steady-state tissue GdDTPA concentration reflected the distribution of IFP, showing an increase from the rim inward, with a high IFP plateau inside the tumor. The changes outside the borders of the tumors with high IFP were indicative of convective transport through the interstitium. This work presents a noninvasive method for assessing the spatial distribution of tumor IFP and mapping barriers to drug delivery and transport. (Cancer Res 2006; 66(8): 4159-66)

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Real-time Imaging of Lymphogenic Metastasis in Orthotopic Human Breast Cancer

Dadiani¹,

Kalchenko

Yosepovich

et al. 2006

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Metastatic spread to regional lymph nodes is one of the earliest events of tumor cell dissemination and presents a most significant prognostic factor for predicting survival of cancer patients. Real-time in vivo imaging of the spread of tumor cells through the lymphatic system can enhance our understanding of the metastatic process. Herein, we describe the use of in vivo fluorescence microscopy imaging to monitor the progression of lymph node metastasis as well as the course of spontaneous metastasis through the lymphatic system of orthotopic MDA-MB-231 human breast cancer tumors in severe combined immunodeficient mice. High-resolution noninvasive visualization of metastasizing cancer cells in the inguinal lymph nodes was achieved using cells expressing high levels of red fluorescent protein. Sequential imaging of these lymph nodes revealed the initial invasion of the tumor cells through the lymphatic system into the subcapsular sinuses followed by intrusion into the parenchyma of the nodes. FITCdextran injected i.d. in the tumor area enabled simultaneous tracking of lymphatic vessels, labeled in green, and disseminated red cancer cells within these vessels. Fast snapshots of spontaneously metastasizing cells in the lymphatic vessels monitored the movement of a few tumor cells and the development of clumps clustered at lymphatic vessel junctions. Quantification of high interstitial fluid pressure (IFP) in the tumors and fast drainage rates of the FITC-dextran into the peritumoral lymphatic vessels suggested an IFP-induced intravasation into the lymphatic system. This work presents unprecedented live fluorescence images that may help to clarify the steps occurring in the course of spontaneous lymphogenic metastasis. (Cancer Res 2006; 66(16): 8037-41)

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Non-invasive imaging of barriers to drug delivery in tumors

Hassid¹,

Eyal²,

Margalit³

et al. 2008

Microvascular Research

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Solid tumors often develop high interstitial fluid pressure (IFP) as a result of increased water leakage and impaired lymphatic drainage, as well as changes in the extracellular matrix composition and elasticity. This high fluid pressure forms a barrier to drug delivery and hence, resistance to therapy. We have developed techniques based on contrast enhanced magnetic resonance imaging for mapping in tumors the vascular and transport parameters determining the delivery efficiency of blood borne substances. Sequential images are recorded during continuous infusion of a Gd-based contrast agent and analyzed according to a new physiological model, yielding maps of microvascular transfer constants, as well as outward convective interstitial transfer constants and steady state interstitial contrast agent concentrations both reflecting IFP distribution. We further demonstrated in non small cell human lung cancer xenografts the capability of our techniques to monitor in vivo collagenase induced increase in contrast agent delivery as a result of decreased IFP. These techniques can be applied to test drugs that affect angiogenesis and modulate interstitial fluid pressure and has the potential to be extended to cancer patients for assessing resistance to drug delivery.

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Supplementary Video 1 from Real-time Imaging of Lymphogenic Metastasis in Orthotopic Human Breast Cancer

Dadiani¹,

Kalchenko²,

Yosepovich³

et al. 2023

Preprint

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Supplementary Video 2 from Real-time Imaging of Lymphogenic Metastasis in Orthotopic Human Breast Cancer

Dadiani¹,

Kalchenko²,

Yosepovich³

et al. 2023

Preprint

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Yaron Hassid

Noninvasive Magnetic Resonance Imaging of Transport and Interstitial Fluid Pressure in Ectopic Human Lung Tumors

Real-time Imaging of Lymphogenic Metastasis in Orthotopic Human Breast Cancer

Non-invasive imaging of barriers to drug delivery in tumors

Supplementary Video 1 from Real-time Imaging of Lymphogenic Metastasis in Orthotopic Human Breast Cancer

Supplementary Video 2 from Real-time Imaging of Lymphogenic Metastasis in Orthotopic Human Breast Cancer

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