The Influence of Shape Parameters on Unidirectional Drug Release from 3D Printed Implants and Prediction of Release from Implants with Individualized Shapes.

The local treatment of diseases by drug-eluting implants is a promising tool to enable successful therapy under potentially reduced systemic side effects. Especially, the highly flexible manufacturing technique of 3D printing provides the opportunity for the individualization of implant shapes adapted to the patient-specific anatomy. It can be assumed that variations in shape can strongly affect the released amounts of drug per time.

A QSAR study on the cytotoxicity of podophyllotoxin analogues against various cancer cell lines.

The powerful inhibitory activity of podophyllotoxin (a natural product) on cell growth led to the development of clinically useful anticancer agents such as etoposide, teniposide, and etopophos. Although, these podophyllotoxin derivatives show good clinical effects against various cancers, its use often results in various undesired side effects, drug resistance, and cytotoxicity towards the normal cells. In order to overcome these limitations, it is essential to search new podophyllotoxin analogues with improved anticancer activity and fewer side effects to gain the maximum benefits for the cancer patients.

QSAR modeling of taxane analogues against colon cancer.

Although taxanes such as paclitaxel and docetaxel are the two most important clinically available anticancer drugs for the treatment of various cancers (including colon cancer), the success of these two drugs has been tempered by the development of various unbearable side effects as well as multi-drug resistance. Therefore, it is essential to search new taxane analogues with improved anticancer activity and fewer side effects to gain the maximum benefits for colon cancer patients. In this paper, four series of taxane derivatives were used to correlate their inhibitory activities against colon cancers mainly with the hydrophobic and steric descriptors of their substituents in order to gain a better understanding of their chemical-biological interactions.