Abstract

Nanoparticles, which are submicroscopic particles typically ranging from 100 to 300 nm, are interesting as potential treatment of testicular disorders because they can be engineered to allow delivery to privileged tissues, such as across the blood-brain barrier or theoretically the blood-testis barrier. We compared the effects of anatomical and/or ligand targeting on testicular nanoparticle uptake in a rat model. A total of 48 rats were divided into 6 groups, including a control group and groups that received intra-arterial injection of unconjugated nanoparticles with and without saline flush, intravenous injection of unconjugated nanoparticles, intra-arterial injection of follicle stimulating hormone conjugated nanoparticles, intravenous injection of follicle stimulating hormone conjugated nanoparticles and intra-arterial injection of transactivating transcriptor conjugated nanoparticles. A dose response curve was assessed for intra-arterially injected unconjugated nanoparticles. Using high performance liquid chromatography and histological analysis we determined nanoparticle uptake by the testicle at 4 hours. Intra-arterial injection resulted in a 5.8-fold increase in uptake compared to intravenous injection at 35 mg/kg of unconjugated nanoparticles (3.7 vs 0.6 μg nanoparticles per gm testicle, p = 0.04). Anatomical targeting failed to improve testicular uptake in FSH conjugated nanoparticles (intra-arterial vs intravenous injection 0.33 vs 0.38 μg FSH nanoparticles per gm testicular tissue, p = 0.73). On fluorescence microscopy nanoparticles were noted in the testicular interstitium and seminiferous tubules, and absent from the testicular vasculature. Arterial injection for anatomical targeting of nanoparticles to the testis is feasible, improves unconjugated nanoparticle delivery to testicular tissue and enables nanoparticles to cross the gonadal vascular endothelium and the blood-testis barrier.

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