Abstract
Contrast-enhanced MRI lymphography shows potential to identify alterations in lymph drainage through lymph nodes (LNs) in cancer and other diseases. MRI studies have typically used low molecular weight gadolinium contrast agents, however larger gadolinium-loaded nanoparticles possess characteristics that could improve the specificity and sensitivity of lymphography. The performance of three gadolinium contrast agents with different sizes and properties was compared by 3T MRI after subcutaneous injection. Mice bearing B16-F10 melanoma footpad tumors were imaged to assess tumor-induced alterations in lymph drainage through tumor-draining popliteal and inguinal LNs versus contralateral uninvolved drainage. Gadolinium lipid nanoparticles were able to identify tumor-induced alterations in contrast agent drainage into the popliteal LN, while lower molecular weight or albumin-binding gadolinium agents were less effective. All of the contrast agents distributed in foci around the cortex and medulla of tumor-draining popliteal LNs, while they were restricted to the cortex of non-draining LNs. Surprisingly, second-tier tumor-draining inguinal LNs exhibited reduced uptake, indicating that tumors can also divert LN drainage. These characteristics of tumor-induced lymph drainage could be useful for diagnosis of LN pathology in cancer and other diseases. The preferential uptake of nanoparticle contrasts into tumor-draining LNs could also allow selective targeting of therapies to tumor-draining LNs.
Highlights
Gadolinium contrast-enhanced MRI lymphography is being developed for analysis of lymphatic vessel drainage function in a variety of disorders including cancer[1], lymphedema[2], and rheumatoid arthritis[3]
We recently demonstrated the utility of gadolinium fosveset trisodium (Gd-FVT) for 3T MRI lymphography, using the B16-F10 footpad melanoma model
Small molecule Gd-DTPA weakly labeled the lymph nodes (LNs) and was unable to distinguish increased tumor-draining LN (TDLN) contrast uptake with the 10 min image acquisition times used in this study, likely because this low molecular weight contrast transits through both LNs within the first minutes after injection[17]
Summary
Gadolinium contrast-enhanced MRI lymphography is being developed for analysis of lymphatic vessel drainage function in a variety of disorders including cancer[1], lymphedema[2], and rheumatoid arthritis[3]. Gd-LNP holds particular promise for subcutaneous MRI lymphography, as the average particle diameter is roughly 75 nm, so that the contrast could be selectively taken up into and retained within the lymphatic vasculature[26] Another gadolinium contrast agent that shows potential to improve vessel imaging is gadolinium fosveset trisodium (Gd-FVT), which forms a small nanoparticle of ~4 nm diameter by binding to albumin after injection[31], to extend imaging time by MRI angiography[32]. The pattern of contrast agent uptake was altered in TDLNs, as Gd-FVT labeled the cortical and medullary margins of TDLNs, while in uninvolved LNs contrast was restricted to the cortex[33] These findings suggested that MRI lymphography could be developed to identify tumor-induced alterations in lymph drainage
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