Loco-regional radiosensitizing nanoparticles-in-gel augments head and neck cancer chemoradiotherapy.

The therapeutic gain in loco-regionally advanced unresectable head and neck squamous cell carcinoma (HNSCC) is limited with the traditional use of concurrent chemoradiotherapy (CRT) owing to dose-limiting toxicities of systemic clinical radiosensitizers. Delivery through regional platforms is challenging due to limited drug permeation but allows spatio-temporal control of combinatorial regimens locally to overcome drug resistance. We address these challenges by developing biodegradable gellan- and lipid-based dual nanocarriers-in-ion-triggered porous mucoadhesive hydrogels for enhanced site-specific delivery of clinically relevant radiosensitizers i.e. cisplatin and paclitaxel. Interestingly, the nanoparticle-in-gel prolonged the tumor bioaccumulation of both the chemotherapeutic drugs with reduced systemic absorption, thereby improving in vivo efficacy which was confirmed by PET-CT imaging and safety as compared to systemic commercial formulations approved for HNSCC chemoradiotherapy. The nanoparticles facilitated intracellular radiosensitizer uptake and cell arrest to synergistically enhance radiation-induced DNA nicks and apoptosis. Our findings suggest the clinical potential of the present platform in the loco-regional management of HNSCC requiring curative CRT.

Ultrasound augments on-demand breast tumor radiosensitization and apoptosis through a tri-responsive combinatorial delivery theranostic platform.

Advanced inoperable triple-negative breast cancer (TNBC) comprises aggressive tumors with a modest pathological response to neoadjuvant chemotherapy. The concomitant use of chemoradiotherapy improves the pathological response rates. However, the dose-dependent systemic toxicity of clinical radiosensitizers with poor circulation half-life and limited passive bioavailability limits their clinical utility. We address these challenges by rationally designing a stealth and tumor microenvironment responsive nano-conjugate platform for the ultrasound-mediated on-demand spatio-temporal delivery of plant flavonoid curcumin as a combinatorial regimen with clinically approved paclitaxel for the neoadjuvant chemoradiotherapy of locally advanced triple-negative breast cancer (TNBC). Interestingly, the focused application of ultrasound at the orthotopic TNBC xenograft of NOD-SCID mice facilitated the immediate infiltration of nano-conjugates at the tumor interstitium, and conferred in vivo safety over marketed paclitaxel formulation. In addition, curcumin significantly potentiated the in vivo chemoradiotherapeutic efficacy of paclitaxel upon loading into nano-conjugates. This gets further enhanced by the concurrent pulse of ultrasound, as confirmed by PET-CT imaging, along with a significant improvement in the mice survival. The quadrapeutic apoptotic effect by the combination of paclitaxel, curcumin, radiation, and ultrasound, along with a reduction in the tumor microvessel density and cell proliferation marker, confers the broad chemo-radiotherapeutic potential of this regimen for radio-responsive solid tumors, as well as metastatic niches.