AI Article Synopsis
- Liposomes are an effective method for delivering chemotherapy to tumors but show variable accumulation and distribution, which can affect treatment success.
- Researchers studied how the timing of doses impacts the distribution of "empty" PEGylated liposomes within tumors, finding that the distribution changes based on the interval between doses.
- The study reveals that proper timing of sequential liposome administrations can enhance drug delivery effectiveness by improving distribution across tumor areas, potentially leading to better treatment outcomes.
Article Abstract
Liposomes have proven to be a viable means for the delivery of chemotherapeutic agents to solid tumors. However, significant variability has been detected in their intra-tumor accumulation and distribution, resulting in compromised therapeutic outcomes. We recently examined the intra-tumor accumulation and distribution of weekly sequentially administered oxaliplatin (l-OHP)-containing PEGylated liposomes. In that study, the first and second doses of l-OHP-containing PEGylated liposomes were distributed diversely and broadly within tumor tissues, resulting in a potent anti-tumor efficacy. However, little is known about the mechanism underlying such a diverse and broad liposome distribution. Therefore, in the present study, we investigated the influence of dosage interval on the intra-tumor accumulation and distribution of "empty" PEGylated liposomes. Intra-tumor distribution of sequentially administered "empty" PEGylated liposomes was altered in a dosing interval-dependent manner. In addition, the intra-tumor distribution pattern was closely related to the chronological alteration of tumor blood flow as well as vascular permeability in the growing tumor tissue. These results suggest that the sequential administrations of PEGylated liposomes in well-spaced intervals might allow the distribution to different areas and enhance the total bulk accumulation within tumor tissue, resulting in better therapeutic efficacy of the encapsulated payload. This study may provide useful information for a better design of therapeutic regimens involving multiple administrations of nanocarrier drug delivery systems.
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| http://dx.doi.org/10.1016/j.jconrel.2015.11.002 | DOI Listing |
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