Post-lumpectomy intracavitary retention and lymph node targeting of (99m)Tc-encapsulated liposomes in nude rats with breast cancer xenograft.

Liposomes are recognized drug delivery systems with tumor-targeting capability. In addition, therapeutic or diagnostic radionuclides can be efficiently loaded into liposomes. This study investigated the feasibility of utilizing radiotherapeutic liposomes as a new post-lumpectomy radiotherapy for early-stage breast cancer by determining the locoregional retention and systemic distribution of liposomes radiolabeled with technetium-99m ((99m)Tc) in an orthotopic MDA-MB-231 breast cancer xenograft nude rat model. To test this new brachytherapy approach, a positive surgical margin lumpectomy model was set up by surgically removing the xenograft and deliberately leaving a small tumor remnant in the surgical cavity. Neutral, anionic, and cationic surface-charged fluorescent liposomes of 100 and 400 nm diameter were manufactured and labeled with (99m)Tc-BMEDA. Locoregional retention and systemic distribution of (99m)Tc-liposomes injected into the post-lumpectomy cavity were determined using non-invasive nuclear imaging, ex vivo tissue gamma counting and fluorescent stereomicroscopic imaging. The results indicated that (99)Tc-liposomes were effectively retained in the surgical cavity (average retention was 55.7 ± 24.2% of injected dose for all rats at 44 h post-injection) and also accumulated in the tumor remnant (66.9 ± 100.4%/g for all rats). The majority of cleared (99m)Tc was metabolized quickly and excreted into feces and urine, exerting low radiation burden on vital organs. In certain animals (99m)Tc-liposomes significantly accumulated in the peripheral lymph nodes, especially 100 nm liposomes with anionic surface charge. The results suggest that post-lumpectomy intracavitary administration of therapeutic radionuclides delivered by 100-nm anionic liposome carrier is a potential therapy for the simultaneous treatment of the surgical cavity and the draining lymph nodes of early-stage breast cancer.

Interventional therapy of head and neck cancer with lipid nanoparticle-carried rhenium 186 radionuclide.

PURPOSE: Minimally invasive interventional cancer therapy with drug-carrying lipid nanoparticles (ie, liposomes) via convection-enhanced delivery by an infusion pump can increase intratumoral drug concentration and retention while facilitating broad distribution throughout solid tumors. The authors investigated the utility of liposome-carrying beta-emitting radionuclides to treat head and neck cancer by direct intratumoral infusion in nude rats. MATERIALS AND METHODS: Four groups of nude rats were subcutaneously inoculated with human tongue cancer cells. After tumors reached an average size of 1.6 cm(3), the treatment group received an intratumoral infusion of liposomal rhenium-186 ((186)Re) (185 MBq [5 mCi]/cm(3) tumor). Three control groups were intratumorally infused with unlabeled liposomes, unencapsulated (186)Re-perrhenate, or unencapsulated intermediate (186)Re compound ((186)Re-N,N-bis[2-mercaptoethyl]-N',N'-diethyl-ethylenediamine [BMEDA]). In vivo distribution of (186)Re activity was measured by planar gamma-camera imaging. Tumor therapy and toxicity were assessed by tumor size, body weight, and hematology. RESULTS: Average tumor volume in the (186)Re-liposome group on posttreatment day 14 decreased to 87.7% +/- 20.1%, whereas tumor volumes increased to 395.0%-514.4% on average in the other three groups (P< .001 vs (186)Re-liposome). The (186)Re-liposomes provided much higher intratumoral retention of (186)Re activity, resulting in an average tumor radiation absorbed dose of 526.3 Gy +/- 93.3, whereas (186)Re-perrhenate and (186)Re-BMEDA groups had only 3.3 Gy +/- 1.2 and 13.4 Gy +/- 9.2 tumor doses, respectively. No systemic toxicity was observed. CONCLUSIONS: Liposomal (186)Re effectively treated head and neck cancer with minimal side effects after convection-enhanced interventional delivery. These results suggest the potential of liposomal (186)Re for clinical application in interventional therapy of cancer.