Persistence and adherence to second-generation antipsychotic long-acting injectable medications for schizophrenia: A comparative study in the Australian context.

OBJECTIVE: To examine patient characteristics, persistence and adherence to treatment associated with use of second-generation antipsychotic long-acting injectable (SGA LAI) medications in the Australian real-world setting. METHOD: Five SGA LAIs were compared using a retrospective 10% sample of prescriptions in Australian Pharmaceutical Benefits Scheme (PBS) data: paliperidone palmitate 1-monthly (PP1M), paliperidone palmitate 3-monthly (PP3M), aripiprazole monohydrate (ARI), risperidone (RLAI) and olanzapine pamoate (OLAI). RESULTS: Patients in the PP3M cohort were more persistent with treatment (p < 0.001). Median months of persistence: PP3M (36 months); ARI (18 months); PP1M (11 months); OLAI (8 months); RLAI (4 months). Patients in the PP3M cohort were more adherent to treatment (p < 0.001): PP3M (78%); ARI (51%); PP1M (46%); OLAI (35%); RLAI (33%). CONCLUSIONS: Patients on PP3M treatment showed comparatively longer persistence and better adherence. Treatments for schizophrenia with longer dosing intervals may provide patients with symptomatic stability that could allow for reduced hospitalisations/relapse and increased focus on functional recovery.

Modulation of diabetic retinopathy pathophysiology by natural medicines through PPAR-γ-related pharmacology.

Diabetic retinopathy (DR) is one of the most common microvascular complications of diabetes and remains a major cause of preventable blindness among adults at working age. DR involves an abnormal pathology of major retinal cells, including retinal pigment epithelium, microaneurysms, inter-retinal oedema, haemorrhage, exudates (hard exudates) and intraocular neovascularization. The biochemical mechanisms associated with hyperglycaemic-induced DR are through multifactorial processes. Peroxisome proliferator-activated receptor-γ (PPAR-γ) plays an important role in the pathogenesis of DR by inhibiting diabetes-induced retinal leukostasis and leakage. Despite DR causing eventual blindness, only a few visual or ophthalmic symptoms are observed until visual loss develops. Therefore, early medical interventions and prevention are the current management strategies. Laser photocoagulation therapy is the most common treatment. However, this therapy may cause retinal damage and scarring. Herbal and traditional natural medicines may provide an alternative to prevent or delay the progression of DR. This review provides an analysis of the therapeutic potential of herbal and traditional natural medicines or their active components for the slowdown of progression of DR and their possible mechanism through the PPAR-γ pathway.

Novel PPAR-gamma agonists identified from a natural product library: a virtual screening, induced-fit docking and biological assay study.

Peroxisome proliferator-activated receptor-gamma (PPAR-gamma) plays an essential role in lipid and glucose homeostasis. It is recognized as the receptor of the thiazolidinediones-a synthetic class of anti-diabetic drugs-and is the target of many drug discovery efforts because of its role in disease states, such as type II diabetes mellitus. In this study, structure-based virtual screening of the PPAR-gamma ligand binding domain against a natural product library has revealed 29 potential agonists. In vitro testing of this list identified six flavonoids to have stimulated PPAR-gamma transcriptional activity in a transcriptional factor assay. Of these, flavonoid-psi-baptigenin-was classed as the most potent PPAR-gamma agonist, possessing low micromolar affinity (EC(50) = 2.9 microM). Further in vitro testing using quantitative RT-PCR and immunoblotting experiments demonstrated that psi-baptigenin activated PPAR-gamma mRNA (4.1 +/- 0.2-fold) and protein levels (2.9 +/- 0.4-fold) in THP-1 macrophages. Moreover, psi-baptigenin's-induced PPAR-gamma enhancement was abolished in the presence of a selective PPAR-gamma antagonist, GW9662. Induced-fit docking investigations provide a detailed understanding on the ligands' mechanism of action, suggesting five of the active flavonoids induce significant conformational change in the receptor upon binding. Overall, these results offer insight into various naturally derived flavonoids as leads/templates for development of novel PPAR-gamma ligands.

Pomegranate flower: a unique traditional antidiabetic medicine with dual PPAR-alpha/-gamma activator properties.

PPARs are transcription factors belonging to the superfamily of nuclear receptors. PPAR-alpha is involved in the regulation of fatty acid (FA) uptake and oxidation, inflammation and vascular function, while PPAR-gamma participates in FA uptake and storage, glucose homeostasis and inflammation. The PPARs are thus major regulators of lipid and glucose metabolism. Synthetic PPAR-alpha or PPAR-gamma agonists have been widely used in the treatment of dyslipidaemia, hyperglycaemia and their complications. However, they are associated with an incidence of adverse events. Given the favourable metabolic effects of both PPAR-alpha and PPAR-gamma activators, as well as their potential to modulate vascular disease, combined PPAR-alpha/-gamma activation has recently emerged as a promising concept, leading to the development of mixed PPAR-alpha/-gamma activators. However, some major side effects associated with the synthetic dual activators have been reported. It is unclear whether this is a specific effect of the particular synthetic compounds or a class effect. To date, a medication that may combine the beneficial metabolic effects of PPAR-alpha and PPAR-gamma activation with fewer undesirable side effects has not been successfully developed. Pomegranate plant parts are used traditionally for the treatment of various disorders. However, only pomegranate flower has been prescribed in Unani and Ayurvedic medicines for the treatment of diabetes. This review provides a new understanding of the dual PPAR-alpha/-gamma activator properties of pomegranate flower in the potential treatment of diabetes and its associated complications.

Bromelain improves decrease in defecation in postoperative rats: modulation of colonic gene expression of inducible nitric oxide synthase.

Ileus continues to be a common consequence of abdominal surgery, causing significant patient discomfort and often leading to more serious problems. The therapy available is limited, hence, ileus remains an important clinical problem. Activation of inducible nitric oxide synthase (iNOS) directly modulates intestinal dysmotility after bowel manipulation and plays an essential role in initiating intestinal inflammation. Nuclear factor (NF)-kappaB is known to be a critical component of iNOS gene transcriptional activation in response to inflammatory stimuli. Bromelain is a crude extract from the pineapple stem, which is sold as a nutritional supplement to "promote digestive health" and as an anti-inflammatory medication in some developed countries. Here, we have found that oral administration of bromelain improves decrease in defecation in abdominal postoperative rats. Results showed that bromelain increased the wet weight, dry weight, water content and number of fecal pellets in laparotomized plus mechanically manipulated rats, suggesting improvement of postoperative ileus. Furthermore, bromelain treatment inhibited overexpressed iNOS mRNA and restored down-regulated inhibitor kappaBalpha mRNA in the colon of the postoperative rats. From the in vitro experiments, bromelain inhibits lipopolysaccharide (LPS)-induced nitrite overproduction in macrophage cell lines and LPS-induced NF-kappaB luciferase reporter gene expression in RAW264.7 macrophages transfected with NF-kappaB luciferase reporter gene. Thus, our findings suggest that bromelain improves decrease in defecation in postoperative rats, at least in part, by inhibiting colonic iNOS overexpression via NF-kappaB pathway. Our data indicates that bromelain may benefit patients with postoperative ileus.

Pomegranate flower extract diminishes cardiac fibrosis in Zucker diabetic fatty rats: modulation of cardiac endothelin-1 and nuclear factor-kappaB pathways.

The diabetic heart shows increased fibrosis, which impairs cardiac function. Endothelin (ET)-1 and nuclear factor-kappaB (NF-kappaB) interactively regulate fibroblast growth. We have recently demonstrated that Punica granatum flower (PGF), a Unani anti-diabetic medicine, is a dual activator of peroxisome proliferator-activated receptor (PPAR)-alpha and -gamma, and improves hyperglycemia, hyperlipidemia, and fatty heart in Zucker diabetic fatty (ZDF) rat, a genetic animal model of type 2 diabetes and obesity. Here, we demonstrated that six-week treatment with PGF extract (500 mg/kg, p.o.) in Zucker diabetic fatty rats reduced the ratios of van Gieson-stained interstitial collagen deposit area to total left ventricular area and perivascular collagen deposit areas to coronary artery media area in the heart. This was accompanied by suppression of overexpressed cardiac fibronectin and collagen I and III mRNAs. Punica granatum flower extract reduced the up-regulated cardiac mRNA expression of ET-1, ETA, inhibitor-kappaBbeta and c-jun, and normalized the down-regulated mRNA expression of inhibitor-kappaBalpha in Zucker diabetic fatty rats. In vitro, Punica granatum flower extract and its components oleanolic acid, ursolic acid, and gallic acid inhibited lipopolysaccharide-induced NF-kappaB activation in macrophages. Our findings indicate that Punica granatum flower extract diminishes cardiac fibrosis in Zucker diabetic fatty rats, at least in part, by modulating cardiac ET-1 and NF-kappaB signaling.

Anti-diabetic action of Punica granatum flower extract: activation of PPAR-gamma and identification of an active component.

Peroxisome proliferator-activated receptor (PPAR)-gamma activators are widely used in the treatment of type 2 diabetes because they improve the sensitivity of insulin receptors. Punica granatum flower (PGF) has been used as an anti-diabetic medicine in Unani medicinal literature. The mechanism of actions is, however, unknown. In the current study, we demonstrated that 6-week oral administration of methanol extract from PGF (500 mg/kg, daily) inhibited glucose loading-induced increase of plasma glucose levels in Zucker diabetic fatty rats (ZDF), a genetic animal model for type 2 diabetes, whereas it did not inhibit the increase in Zucker lean rats (ZL). The treatment did not lower the plasma glucose levels in fasted ZDF and ZL rats. Furthermore, RT-PCR results demonstrated that the PGF extract treatment in ZDF rats enhanced cardiac PPAR-gamma mRNA expression and restored the down-regulated cardiac glucose transporter (GLUT)-4 (the insulin-dependent isoform of GLUTs) mRNA. These results suggest that the anti-diabetic activity of PGF extract may result from improved sensitivity of the insulin receptor. From the in vitro studies, we demonstrated that the PGF extract enhanced PPAR-gamma mRNA and protein expression and increased PPAR-gamma-dependent mRNA expression and activity of lipoprotein lipase in human THP-1-differentiated macrophage cells. Phytochemical investigation demonstrated that gallic acid in PGF extract is mostly responsible for this activity. Thus, our findings indicate that PPAR-gamma is a molecular target for PGF extract and its prominent component gallic acid, and provide a better understanding of the potential mechanism of the anti-diabetic action of PGF.