Litcius/Paper detail

PET‐CT Imaging of Polymeric Nanoparticle Tumor Accumulation in Patients

Iris H.C. Miedema, Gerben J.C. Zwezerijnen, Marc C. Huisman, Ellen Doeleman, Ron H.J. Mathijssen, Twan Lammers, Qizhi Hu, Guus A.M.S. van Dongen, Cristianne J.F. Rijcken, Daniëlle J. Vugts, C. Willemien Menke‐van der Houven van Oordt

2022Advanced Materials60 citationsDOIOpen Access PDF

Abstract

Abstract Several FDA/EMA‐approved nanomedicines have demonstrated improved pharmacokinetics and toxicity profiles compared to their conventional chemotherapeutic counterparts. The next step to increase therapeutic efficacy depends on tumor accumulation, which can be highly heterogeneous. A clinical tool for patient stratification is urgently awaited. Therefore, a docetaxel‐entrapping polymeric nanoparticle ( 89 Zr‐CPC634) is radiolabeled, and positron emission tomography/computed tomography (PET/CT) imaging is performed in seven patients with solid tumors with two different doses of CPC634: an on‐treatment (containing 60 mg m −2 docetaxel) and a diagnostic (1–2 mg docetaxel) dose (NCT03712423). Pharmacokinetic half‐life for 89 Zr‐CPC634 is mean 97.0 ± 14.4 h on‐treatment, and 62.4 ± 12.9 h for the diagnostic dose ( p = 0.003). At these doses accumulation is observed in 46% and 41% of tumor lesions with a median accumulation in positive lesions 96 h post‐injection of 4.94 and 4.45%IA kg −1 ( p = 0.91), respectively. In conclusion, PET/CT imaging with a diagnostic dose of 89 Zr‐CPC634 accurately reflects on‐treatment tumor accumulation and thus opens the possibility for patient stratification in cancer nanomedicine with polymeric nanoparticles.

Topics & Concepts

DocetaxelPharmacokineticsPositron emission tomographyNanomedicineMaterials scienceMedicineNuclear medicineNanoparticleCancerRadiologyPharmacologyInternal medicineNanotechnologyMedical Imaging Techniques and ApplicationsRadiopharmaceutical Chemistry and ApplicationsAdvanced Radiotherapy Techniques