SubsidieMeestersFocused Targeting of Inhaled Magnetic Aerosols for Lung Cancer
AEROTARG aims to enhance targeted delivery of inhaled chemotherapeutics to lung tumors using magnetically-loaded aerosols and a custom magnetic field, improving efficacy and reducing side effects.
Projectdetails
Introduction
The pulmonary tract is an attractive route for direct treatments of lung diseases. Yet, our ability to confine the deposition of inhalation aerosols to specific lung regions, and notably local airways, remains still widely beyond reach with common inhalation therapy.
Hypothesis
It has been hypothesized that by coupling magnetic particles to inhaled therapeutics, the ability to locally target airway sites can be substantially improved. Yet, virtually all practical implementations to date have come short of delivering efficient localized airway targeting.
Engineered Inhalation Framework
Here, we demonstrate an engineered inhalation framework to leverage magnetically-loaded aerosols for airway targeting in the presence of a custom-designed external magnetic field.
Delivery Mechanism
By coupling the delivery of a short pulsed bolus of sub-micron (~500 nm diameter) droplet aerosols, laden with super-paramagnetic iron oxide nanoparticles (SPION), with a custom ventilation machine that tracks the volume of air inhaled past the bolus, focused targeting can be maximized during a breath-hold maneuver.
Aerosol Inhalation Platform
Our aerosol inhalation platform allows for the first time to deposit inhaled particles to specific airway sites while minimizing superfluous deposition across the respiratory tract. This represents a dramatic effort to augment the targeting efficiency, i.e., the deposition ratio between targeted and untargeted aerosols.
Application Focus
Our first application of focus is aimed at lung cancer. We aim to achieve point targeted delivery of chemotherapeutics directly to lung tumors and lesions through inhalation, thus increasing effective doses and dramatically reducing side effects, in particular relative to detrimental systemic toxicity.
Conclusion
AEROTARG embodies a significant paradigm shift in drug delivery modalities aimed for lung cancer therapy.
Financiële details & Tijdlijn
Financiële details
| Subsidiebedrag | € 150.000 |
| Totale projectbegroting | € 150.000 |
Tijdlijn
| Startdatum | 1-6-2023 |
| Einddatum | 30-11-2024 |
| Subsidiejaar | 2023 |
Partners & Locaties
Projectpartners
- TECHNION - ISRAEL INSTITUTE OF TECHNOLOGYpenvoerder
Land(en)
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Targeted Respiratory Drug Delivery by Tribo Charged Sprays
Develop a new technology for precise drug delivery to the lungs using charged droplets to prevent coalescence, enhancing treatment efficacy for conditions like lung cancer and COVID-19.
MAGNETIC HYPERTHERMIA FOR METASTASIZED TUMOR TREATMENT AND REMOTE MANIPULATION OF MICRODEVICES
The GIULIa project aims to enhance cancer treatment by using magnetic nanoparticles in natural killer cells for targeted hyperthermia and developing magnetic microdevices for precise drug delivery.
Targeting tertiary lymphoid structures using magneto-margination
The project aims to develop injectable superparamagnetic particles for non-invasive mapping and thermal destruction of tertiary lymphoid structures to improve diagnosis and treatment of chronic inflammation and cancer.
Mix and Match: One-step activation for targeted drug delivery
This project aims to develop a novel, efficient method for on-demand attachment of targeting ligands to nanocarriers, enhancing drug delivery efficacy while reducing toxicity in cancer therapies.
Remotely actuated re-shaped nanocarriers for tumour targeting
Developing remotely actuated, anisotropic metal/polymer hybrid nanoparticles for targeted drug delivery in cancer to enhance therapeutic efficacy and minimize side effects.
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