The present study assessed prospective predictors of unmet supportive care needs in cancer patients over a six-month period.

Methods: Participants click here were recruited from a regional cancer treatment centre in Australia and completed the Supportive Care Needs Survey (SCNS)

at recruitment (n = 439; 61.4% response rate) and six months follow-up (n = 396). Hierarchical logistic regression was used to identify predictors of change in unmet needs across each supportive care domain. Predictor variables were socio-demographic, treatment and psychosocial factors including depression, anxiety, social support, and patient satisfaction.

Results: Unmet needs were reported by approximately two-thirds of patients Adriamycin cell line at baseline and half of patients at six months follow-up. Having unmet needs at baseline was the

strongest predictor of unmet needs at six months. Longer time since diagnosis was a consistent predictor of greater unmet needs, associated with change in physical/daily living, psychological and health system and information unmet needs over time. By contrast, a complex relationship was found in that patient satisfaction, psychosocial and treatment characteristics predicted higher needs in some domains and lower needs in others.

Conclusions: Unmet supportive care needs persist over time and psychological needs may emerge later in the illness continuum. Interventions to meet the needs of longer term cancer survivors are needed and should closely articulate with reported supportive care needs. Copyright (C) 2009 John Wiley & Sons, Ltd.”
“BACKGROUND: Synthetic ligands have conventionally been used for the preparation of homogenous Rh complex catalyst but biomass

has rarely been utilized for this purpose. In the present investigation, plant tannins (natural polyphenols) were used as water-soluble ligands for the preparation of homogenous Rh3+ complex catalysts. RESULTS: Based on X-ray photoelectron spectroscopy (XPS) and proton nuclear magnetic resonance (HNMR) analyses, the preparation mechanism of these complex catalysts was proven to involve chelating interactions between Rh3+ and the adjacent phenolic hydroxyls of plant tannins. As a result, the use of plant tannin promoted aqueous-organic selleck screening library biphasic interactions and the plant tannin-chelated Rh3+ complex catalysts exhibited much higher catalytic activity than commercial Rh complex catalysts in the biphasic hydrogenation of quinoline. Furthermore, the plant tannin-chelated Rh3+ complex can be reused three times without significant loss of catalytic activity CONCLUSION: Our experimental results suggested that black wattle tannin (BWT) can be used as water-soluble ligands for the preparation of highly active and recyclable Rh3+ complex catalysts.