# Tunable Intranasal Polymersome Nanocarriers Triggered Olanzapine Brain Delivery and Improved In Vivo Antipsychotic Activity

**Authors:** Ahmed A. Katamesh, Hend Mohamed Abdel-Bar, Rania Mahafdeh, Mohammed Khaled Bin Break, Shimaa M. Hassoun, Gehad M. Subaiea, Mostafa E. El-Naggar, Khaled Almansour, Hadel A. Abo El-Enin, Heba A Yassin

PMC · DOI: 10.3390/pharmaceutics17070811 · 2025-06-23

## TL;DR

This study developed a new intranasal delivery system for the antipsychotic drug olanzapine, improving its brain delivery and reducing side effects.

## Contribution

A novel intranasal polymersome nanocarrier was developed to enhance brain targeting and safety of olanzapine.

## Key findings

- Optimized PolyOla showed high drug entrapment and sustained release in vitro.
- Intranasal PolyOla increased brain drug levels significantly compared to oral administration.
- PolyOla improved antipsychotic efficacy and reduced systemic side effects in rats.

## Abstract

Background: Olanzapine (Ola) is a second-generation antipsychotic with clinical utility limited by poor brain bioavailability due to blood–brain barrier restriction, hepatic first-pass metabolism, and systemic side effects. This study aimed to develop and optimize a novel intranasal polymersome-based nanocarrier (PolyOla) to enhance brain targeting, therapeutic efficacy, and safety of Ola. Methods: PolyOla was prepared using poloxamer 401 and optimized through a Box–Behnken Design to minimize particle size and maximize entrapment (EE%) and loading efficiency (LE%). The formulation was characterized by size, morphology, drug release, and serum stability. In vivo studies in adult male Sprague-Dawley rats assessed pharmacokinetics (plasma and brain concentrations), pharmacodynamic efficacy in a ketamine-induced schizophrenia model, and systemic safety markers including metabolic, hepatic, and testicular oxidative stress indicators. Results: Optimized PolyOla exhibited a particle size of 78.3 ± 4.5 nm, high EE% (91.36 ± 3.55%), and sustained in vitro drug release. It remained stable in serum for 24 h. Intranasal administration significantly improved brain delivery of Ola, achieving a 2.7-fold increase in Cmax and a 5.7-fold increase in AUC compared to oral dosing. The brain Tmax was 15 min, with high drug-targeting efficiency (DTE% = 365.38%), confirming efficient nose-to-brain transport. PolyOla-treated rats showed superior antipsychotic performance, reduced extrapyramidal symptoms, and improved systemic safety evidenced by mitigated weight gain, glycemic control, normalized liver enzymes, and reduced oxidative stress. Conclusions: PolyOla offers a safe and effective intranasal delivery platform for Ola, enabling targeted brain delivery and improved management of schizophrenia with reduced peripheral toxicity.

## Linked entities

- **Chemicals:** Olanzapine (PubChem CID 135398745)
- **Diseases:** schizophrenia (MONDO:0005090)

## Full-text entities

- **Diseases:** toxicity (MESH:D064420), weight gain (MESH:D015430), schizophrenia (MESH:D012559), extrapyramidal symptoms (MESH:D001480)
- **Chemicals:** PolyOla (-), Ola (MESH:D000077152)
- **Species:** Rattus norvegicus (brown rat, species) [taxon 10116]

## Figures

7 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12297938/full.md

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Source: https://tomesphere.com/paper/PMC12297938