Clinical management of pain in advanced lung cancer

Lung cancer is the most common cancer in the world and pain is its most common symptom. Pain can be brought about by several different causes including local effects of the tumor, regional or distant spread of the tumor, or from anti-cancer treatment. Patients with lung cancer experience more symptom distress than patients with other types of cancer. Symptoms such as pain may be associated with worsening of other symptoms and may affect quality of life. Pain management adheres to the principles set out by the World Health Organization's analgesic ladder along with adjuvant analgesics. As pain can be caused by multiple factors, its treatment requires pharmacological and non-pharmacological measures from a multidisciplinary team linked in with specialist palliative pain management. This review article examines pain management in lung cancer

Llama antibody fragments have good potential for application as HIV-1 topical microbicides

There is an urgent global need for preventive strategies against HIV-1 infections. Llama heavy-chain antibody fragments (VHH) are a class of molecules recently described as potent cross-clade HIV-1 entry inhibitors. We studied the potential of a VHH-based microbicide in an application-oriented fashion. We show that VHH can be inexpensively produced in high amounts in the GRAS organism Saccharomyces cerevisiae, resulting in a very pure and endotoxin free product. VHH are very stable under conditions they might encounter during transport, storage, or use by women. We developed active formulations of VHH in aqueous gel and compressed and lyophilized tablets for controlled release from an intravaginal device. The release profile of the VHH from, e.g., a vaginal ring suggests sufficient bioavailability and protective concentration of the molecule at the mucosal site at the moment of the infection. The ex vivo penetration kinetics through human tissues show that the VHH diffuse into the mucosal layer and open the possibility to create a second defense layer either by blocking the HIV receptor binding sites or by blocking the receptors of immune cells in the mucosa. In conclusion, our data show that VHH have a high potential for HIV-1 microbicide application because of their low production costs, their high stability, and their favorable release and tissue penetration properties. © Copyright 2012, Mary Ann Liebert, Inc