Company Filing History:
Years Active: 2015
Title: Janine Schwiertz: Innovator in Photodynamic Therapy
Introduction
Janine Schwiertz is a notable inventor based in Mülheim, Germany. She has made significant contributions to the field of photodynamic therapy through her innovative research and development of nanoparticle formulations. Her work focuses on enhancing the effectiveness of therapeutic agents using advanced carrier systems.
Latest Patents
Janine Schwiertz holds a patent for "Calciumphosphate-based nanoparticles as carrier-systems for photodynamic therapy." This invention provides pharmaceutical photosensitizer-loaded nanoparticle formulations and their methods of preparation for photodynamic therapy. The formulations include a hydrophobic or hydrophilic photosensitizer, nanoparticulate calcium phosphate, and, in some cases, auxiliary reagents such as stabilizers. The calcium phosphate-based nanoparticle formulations offer excellent storage stability and therapeutically effective amounts of photosensitizer for intravenous or topical administration. Preferred embodiments include tetrapyrrole derivatives like porphyrins, chlorins, and bacteriochlorins as hydrophobic photosensitizers. Additionally, hydrophilic cationic and anionic photosensitizers have been identified for antibacterial photodynamic therapy. The nanoparticle formulations are also useful for locating cells, tissues, or bacteria through fluorescence imaging methods. Janine Schwiertz has 1 patent to her name.
Career Highlights
Throughout her career, Janine has worked with various companies, including Biolitec Pharma Marketing Ltd and Biolitec AG. Her experience in these organizations has contributed to her expertise in the development of innovative therapeutic solutions.
Collaborations
Janine has collaborated with notable colleagues such as Burkhard Gitter and Susanna Gräfe. These partnerships have further enhanced her research and development efforts in the field of photodynamic therapy.
Conclusion
Janine Schwiertz is a pioneering inventor whose work in photodynamic therapy has the potential to significantly impact medical treatments. Her innovative nanoparticle formulations represent a significant advancement in the field, showcasing her dedication to improving therapeutic outcomes.