In medical applications such as drug delivery, gene transfection and imaging the formation of systems with well-defined sizes
and shapes are of significant interest. For this reason the design of dendrimers with modulated size, shape, branching length/density, and
their surface functionality, clearly distinguishes these structures as unique and optimum carriers for medical applications. The bioactive
agents may be encapsulated into the interior of the dendrimers or chemically attached/physically adsorbed onto the dendrimer surface,
with the option of tailoring the carrier to the specific needs of the active material and its therapeutic applications. In this regard one area
with growing attention is photodynamic therapy (PDT) where a photosensitizer combined with light and molecular oxygen can easily
cause irreversible damage to the target tissue. Nevertheless most of the photosensitizers have solubility issues when attempts are made to
dissolve them in aqueous environments, hampering in most cases their medical applicability. Currently, investigations are running towards
the combination of these photosensitizers with dendrimers increasing their organization, solubility and specificity to the target tissues.
In this communication we review the latest advancements in the synthesis of porphyrin and phthalocyanine dendrimer architectures,
regarding their utility as biomedical agents.
Keywords: Dendrimers, porphyrin, phthalocyanine, photomedicine, photodynamic therapy, photodiagnostic.
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