In the dynamic field of biomedical research, particularly in the development of advanced cancer therapies, access to high-quality chemical compounds is paramount. 2-(1-Hexyloxyethyl)-2-devinyl pyropheophorbide-a, known by its abbreviations HPPH and Photochlor, is one such critical compound. As a second-generation photosensitizer, HPPH is integral to the advancement of photodynamic therapy (PDT). For researchers engaged in PDT studies, understanding the properties of HPPH and securing a reliable supply from a reputable manufacturer is a strategic imperative.

HPPH: A Superior Choice for PDT Research

HPPH represents a significant leap forward in photosensitizer technology. Its development focused on enhancing the therapeutic index of PDT. The key benefits that make HPPH a compound of choice for research include:

  • Enhanced Safety: Compared to earlier photosensitizers, HPPH exhibits a markedly improved safety profile concerning skin photosensitivity. This reduced and transient phototoxicity is crucial for experimental models where prolonged light avoidance can be impractical or alter experimental conditions.
  • Optimized Photophysical Properties: With its absorption maximum in the red spectrum (~665 nm), HPPH allows for greater light penetration into tissues. This is vital for studying its efficacy in deeper tissues or more complex biological models, providing researchers with greater versatility.
  • Defined Chemical Structure: Being a single, well-characterized molecule, HPPH offers reproducibility in research. Researchers can rely on consistent experimental outcomes when using standardized HPPH from a reputable source.
  • Metabolic Inertness: The lack of significant metabolism simplifies its pharmacokinetic profile, making it easier to manage and interpret experimental data related to drug distribution and elimination in research settings.

Sourcing HPPH (CAS 149402-51-7) for Your Research Needs

When embarking on research that utilizes HPPH, selecting the right supplier is as important as the research design itself. As a dedicated manufacturer and supplier of HPPH (CAS No. 149402-51-7), we provide:

  • High Purity Standards: Our HPPH is supplied at a minimum purity of 97%, ensuring the integrity and reliability of your research findings. Contaminants can significantly skew experimental results, making high purity a cornerstone of our offering.
  • Competitive Pricing for Researchers: We understand that research budgets can be limited. Our manufacturing efficiencies allow us to offer HPPH at competitive prices, making advanced research more accessible. We are happy to provide quotes for smaller research quantities and explore options for bulk purchases if needed.
  • Commitment to Quality and Consistency: We maintain rigorous quality control throughout our manufacturing process. This ensures that each batch of HPPH you receive is consistent in quality, providing reproducible results for your experiments.
  • Technical Support: Our team is available to provide technical information and support regarding HPPH, helping researchers optimize its use in their specific applications.

The Manufacturer Advantage for Research Institutions

Partnering directly with a manufacturer like us means you benefit from a streamlined supply chain, direct access to technical expertise, and the assurance of quality. We are committed to supporting the scientific community by providing essential research chemicals that drive innovation. Whether you are investigating new PDT protocols, exploring combination therapies, or developing novel diagnostic tools, high-quality HPPH is an indispensable resource.

If you are looking to buy HPPH for your research endeavors or require a dependable source for Photochlor, we encourage you to reach out. Request a sample or a quote today and experience the difference that a dedicated manufacturer can make to your research project.