METHODS: This retrospective, observational, population-based study used the Japan Medical Data Center (JMDC) health insurance claims database to identify patients having schizophrenia before or on the day of the first LAI AP prescription (index date), and receiving LAI AP between April 1, 2012 and December 31, 2019. The number of all-cause, psychiatric-, and schizophrenia-related hospitalizations at baseline (365 days before index date) and during the 1-year follow-up period were evaluated.
RESULTS: Of the 1692 patients who received LAI AP during the study period, 146 were included (employed: 55 [37.7 %]; dependent: 91 [62.3 %]). The mean age was 37 years; 50.7 % (n = 74) were females. During baseline period, 61 (41.8 %) patients were not hospitalized. During the follow-up period, 67 (45.9 %) patients underwent hospitalization ≤ 7 days; all-cause: 100 (68.7 %); psychiatry-related: 104 (76.2 %); schizophrenia-related: 114 (78.1 %). A higher proportion of patients were hospitalization-free during the follow-up in the employed vs. dependent population: all cause: 69.1 % vs. 61.5 %; psychiatric-related 76.4 % vs. 67.0 %, schizophrenia-related: 87.3 % vs. 71.4 %.
CONCLUSION: This study demonstrated the effectiveness of LAI AP in preventing hospitalization in Japan. During the follow-up period, patients with schizophrenia receiving LAI AP, including the employed population, had a significant decrease in hospitalization length and re-hospitalization rate compared to baseline.
PURPOSE: This work aimed to develop and characterize chitosan (CS)-polyvinyl alcohol (PVA) blended electrospun multifunctional nanofiber loaded with curcumin (CUR) and zinc oxide (ZnO) to accelerate diabetic wound healing in STZ-induced diabetic rats.
RESULTS: In-vitro characterization results revealed that nanofiber was fabricated successfully using the electrospinning technique. SEM results confirmed the smooth surface with web-like fiber nanostructure diameter ranging from 200 - 250 nm. An in-vitro release study confirmed the sustained release of CUR and ZnO for a prolonged time. In-vitro cell-line studies demonstrated significantly low cytotoxicity of nanofiber in HaCaT cells. Anti-bacterial studies demonstrated good anti-bacterial and anti-biofilm activities of nanofiber. In-vivo animal studies demonstrated an excellent wound-healing efficiency of the nanofibers in STZ-induced diabetic rats. Furthermore, the ELISA assay revealed that the optimized nanofiber membrane terminated the inflammatory phases successfully by downregulating the pro-inflammatory cytokines (TNF-α, MMP-2, and MMP-9) in wound healing. In-vitro and in-vivo studies conclude that the developed nanofiber loaded with bioactive material can promote diabetic wound healing efficiently via multifunction action such as the sustained release of bioactive molecules for a prolonged time of duration, proving anti-bacterial/anti-biofilm properties and acceleration of cell migration and proliferation process during the wound healing.
DISCUSSION: CUR-ZnO electrospun nanofibers could be a promising drug delivery platform with the potential to be scaled up to treat diabetic foot ulcers effectively.
METHODS: This nanocomposite consists of zinc layered hydroxide intercalated with protocatechuate (an anionic form of protocatechuic acid), that has been synthesized using a direct method with zinc oxide and protocatechuic acid as precursors.
RESULTS: The resulting protocatechuic acid nanocomposite (PAN) showed a basal spacing of 12.7 Å, indicating that protocatechuate was intercalated in a monolayer arrangement, with an angle of 54° from the Z-axis between the interlayers of the zinc layered hydroxide, and an estimated drug loading of about 35.7%. PAN exhibited the properties of a mesoporous type material, with greatly enhanced thermal stability of protocatechuate as compared to its free counterpart. The presence of protocatechuate in the interlayers of the zinc layered hydroxide was further supported by Fourier transform infrared spectroscopy. Protocatechuate was released from PAN in a slow and sustained manner. This mechanism of release was well represented by a pseudo-second order kinetics model. PAN has shown increased cytotoxicity compared to the free form of protocatechuic acid in all cancer cell lines tested. Tumor growth suppression was extensive, particularly in HepG2 and HT29 cell lines.
CONCLUSION: PAN is suitable for use as a controlled release formulation, and our in vitro evidence indicates that PAN is an effective anticancer agent. PAN may have potential as a chemotherapeutic drug for human cancer.