L-band radar quantifies major disturbance of birds by fireworks in an urban area.

Fireworks and other pyrotechnics are acknowledged as sources of disturbance to wildlife, with evidence that many species react adversely to their sight and sound at discharge. However, how firework releases impact wildlife within a city landscape is poorly understood. Here, we explore the effect of fireworks on urban birds using an L-band staring radar (90-degree sector out to a 5 km range) to capture bird activity derived from flight tracks (i.e. 3D visualisation of individual flying birds built from radar detections) within the city of Birmingham, UK. Comparing the tracks between baseline periods with no fireworks and periods where fireworks are commonly discharged using a null model indicated that birds flew at higher elevations during firework periods (standardised effect sizes of 17.11, 26.54 and 5.83, for Diwali, Bonfire Night, and New Year's Eve, respectively). Birds also flew in more significant numbers (standardised effect sizes of 23.41, 7.98 and 7.19 for Diwali, Bonfire Night, and New Year's Eve, respectively). Therefore, bird activity was elevated during firework events at a time of night when many would otherwise be roosting. Such disturbance may have implications for avian biology since large public firework events occur at colder times of the year in the UK when birds have elevated thermoregulatory costs.

Formulation and Optimization of Alogliptin-Loaded Polymeric Nanoparticles: In Vitro to In Vivo Assessment.

The nano-drug delivery system has gained greater acceptability for poorly soluble drugs. Alogliptin (ALG) is a FDA-approved oral anti-hyperglycemic drug that inhibits dipeptidyl peptidase-4. The present study is designed to prepare polymeric ALG nanoparticles (NPs) for the management of diabetes. ALG-NPs were prepared using the nanoprecipitation method and further optimized by Box−Behnken experimental design (BBD). The formulation was optimized by varying the independent variables Eudragit RSPO (A), Tween 20 (B), and sonication time (C), and the effects on the hydrodynamic diameter (Y1) and entrapment efficiency (Y2) were evaluated. The optimized ALG-NPs were further evaluated for in vitro release, intestinal permeation, and pharmacokinetic and anti-diabetic activity. The prepared ALG-NPs show a hydrodynamic diameter of between 272.34 nm and 482.87 nm, and an entrapment efficiency of between 64.43 and 95.21%. The in vitro release data of ALG-NPs reveals a prolonged release pattern (84.52 ± 4.1%) in 24 h. The permeation study results show a 2.35-fold higher permeation flux than pure ALG. ALG-NPs exhibit a significantly (p < 0.05) higher pharmacokinetic profile than pure ALG. They also significantly (p < 0.05) reduce the blood sugar levels as compared to pure ALG. The findings of the study support the application of ALG-entrapped Eudragit RSPO nanoparticles as an alternative carrier for the improvement of therapeutic activity.

Development, In-Vitro Characterization and Preclinical Evaluation of Esomeprazole-Encapsulated Proniosomal Formulation for the Enhancement of Anti-Ulcer Activity.

Objective: The present study aimed to develop and optimize esomeprazole loaded proniosomes (EZL-PNs) to improve bioavailability and therapeutic efficacy. Method: EZL-PNs formulation was developed by slurry method and optimized by 33 box-Bhekhen statistical design software. Span 60 (surfactant), cholesterol, EZL concentration were taken as independent variables and their effects were evaluated on vesicle size (nm), entrapment efficiency (%, EE) and drug release (%, DR). Furthermore, optimized EZL-PNs (EZL-PNs-opt) formulation was evaluated for ex vivo permeation, pharmacokinetic and ulcer protection activity. Result: The EZL-PNs-opt formulation showed 616 ± 13.21 nm of vesicle size, and 81.21 ± 2.35% of EE. EZL-PNs-opt exhibited negative zeta potential and spherical confirmed scanning electron microscopy. EZL-PNs-opt showed sustained release of EZL (95.07 ± 2.10% in 12 h) than pure EZL dispersion. The ex-vivo gut permeation result exhibited a significantly (p < 0.05) enhanced flux than pure EZL. The in vivo results revealed 4.02-fold enhancement in bioavailability and 61.65% protection in ulcer than pure EZL dispersion (43.82%). Conclusion: Our findings revealed that EZL-PNs formulation could be an alternative delivery system of EZL to enhance oral bioavailability and antiulcer activity.

Transdermal Nutraceuticals Delivery System for CNS Disease.

Herbal medicines are being used by humans since the oldest civilizations and have been an integral part of traditional and alternative medicines. In recent times, pharmaceutical and biomedical scientists are taking interest in developing nutraceutical-based medicines to overcome the side effects and adverse drug reactions caused by allopathic medicines. Nutraceuticals have started occupying the global market. Nutraceuticals have gained widespread acceptance due to their efficacy in treating difficult to treat diseases, low toxicity, low cost, easy accessibility, etc. Safety and efficacy are other important factors in the commercialization process of nutraceuticals. Different novel advanced drug delivery systems have been constantly studied to improve the efficacy and bioavailability of medicines obtained from herbal sources. The transdermal drug delivery system provides a potent alternative to the conventional method of using nutraceuticals. The development of transdermal system-based nutraceuticals could provide the advantage of enhanced bioavailability, improved solubility, bypass of the first-pass metabolism, and targeted delivery of drugs in brain-related disorders. It additionally provides the advantage of being non-invasive. This article reviews the potential effects of various nutraceuticals in brain-related disorders as well as trends in transdermal nano-systems to deliver such nutraceuticals. We have also focused on advantages, applications as well as recent United States-based patents which emphasize emerging interest towards transdermal nutraceuticals in brain disorders.

Recent patents and a market overview on green or bio-based solvents for chromatographic analysis: a review.

Green solvents (GS) in chromatography originate from green chemistry. Therefore, using GSs in liquid chromatographic analysis to separate drugs and chemicals is an emerging approach to reduce hazardous chemicals in nature. The Orbit Intelligence database was used to conduct a strategic patent search for peer-reviewed patents on GSs as a mobile phase for chromatographic analysis. This article reported numerous approaches for encouraging GSs such as ethanol, butanol, esters, polyethylene glycol, supercritical fluids and nonionic surfactants to analyze drugs or compounds. The main aim of this article is to explore the patented GSs for chromatographic analysis and forecasting of the GSs that encourage industries to shift from hazardous to GSs.

Recent Patents, Regulatory Issues, and Toxicity of Nanoparticles in Neuronal Disorders.

BACKGROUND: Form last few decades, nanoparticles have witnessed breakthroughs in the treatment of neurological disorders due to their unique physiochemical properties, which make them an effective drug delivery system. However, there is not much information available on the toxicity of nanoparticles in neuronal disorders. The toxic effect of nanoparticles on brain disorders and their regulatory issues are the primary concerns of the healthcare industry. METHODS: A strategical literature search was performed on various bibliographic databases such as Scopus, PubMed, SciFinder, Google Scholar, Medline, Google Patent, Derwent Innovation, and Orbit Intelligence for retrieval of peer-reviewed articles and patents on regulatory issues and toxicity of nanoparticles in neuronal disorders for last decade. The relevant hits of articles and patents were analyzed, and citation search for the relevant documents was carried out. RESULTS: The literature documents have been summarized regarding the existing regulatory issues and toxicity of nanoparticles on neuronal disorders with a focus on the detailed mechanism of the developmental toxicity of nanoparticles. The focus of this report is to emphasize the negative effects of nanoparticle on neuronal disorders, which may partially contribute to the management of toxicity of nanoparticles. CONCLUSION: Although nanoparticles have unique physical and chemical properties that explain the broad range of application for the central nervous system, they can also manifest neurotoxic effects due to cell necrosis, generation of free radicals, immune responses and neuroinflammation. Thus, this review highlights risk assessment, safety regulations and regulatory guidelines of nanoparticles, which may reduce adverse reactions in humans and animals.

Clarithromycin-Loaded Ocular Chitosan Nanoparticle: Formulation, Optimization, Characterization, Ocular Irritation, and Antimicrobial Activity.

PURPOSE: The topically administered drugs through conventional delivery systems have low bioavailability. Henceforth, the present study was designed to prepare and optimize clarithromycin (CTM)-loaded chitosan nanoparticles (CHNPs) to demonstrate the efficacy against microorganisms. METHODS: Clarithromycin-loaded chitosan nanoparticles (CTM-CHNPs) were prepared by ionotropic gelation method. The formulation was optimized by box-Behnken design using the formulation variables like CH (A), STPP concentration (B), and stirring speed (C). Their effects were evaluated on the independent variables like particle size (Y1) and entrapment efficiency (Y2). Further, CTM-CHNPs were evaluated for physicochemical parameters, in-vitro drug release, ex-vivo permeation, bioadhesive study, corneal hydration, histopathology, HET-CAM, and antibacterial study. RESULTS: The optimized formulation (CTM-CHNPopt) showed the low particle size (152±5 nm), which is desirable for ocular delivery. It also showed high encapsulation (70.05%), zeta potential (+35.2 mV), and was found in a spherical shape. The drug release study revealed a sustained drug release profile (82.98±3.5% in 12 hours) with Korsmeyer peppas kinetic (R2=0.996) release model. It showed a 2.7-fold higher corneal permeation than CTM-solution. CHNPs did not exhibit any sign of damage to excised goat cornea, which is confirmed by hydration, histopathology, and HET-CAM test. It exhibited significant (P<0.05) higher antibacterial susceptibility than CTM-solution. CONCLUSION: The finding of the study concluded that CTM-CHNPs can be used for effective management of bacterial conjunctivitis by increasing the precorneal residence time.

Advancements in Polymer and Lipid-based Nanotherapeutics for Cancer Drug Targeting.

Cancer is a global disease. It is the second leading cause of death worldwide, according to the health report. Approximately 70% of deaths from cancer occurs in low- and middle-income countries. According to the WHO, in 2015 8.8 million deaths were reported due to cancer worldwide. The conventional system of medicine was used since a long for the management of the disease, but it comes with the drawback of low safety, less efficacy and non-targeting of cancer cells. Nanotherapeutics has become the most exploited drug targeting system based on the safety and efficacy this system provides over the conventional system. This review summarizes an advanced design consideration in anticancer therapy, recent advancements in the nanocarrier-based advanced drug targeting, challenges and limitations related to nanoparticles-based therapy in cancer and its future perspective. The review also lists the on-going clinical trials in the last five years on nano-based therapy for different types of cancer. The data for this article was obtained by an extensive literature review of related published scientific contents from the WHO's website, PubMed, Scopus, Scielo, clinicaltrials.gov and other relevant scientific archiving services. The safety and efficacy that nanoparticles provide, and the current research strongly support their application in cancer drug targeting. However, their presence in the market is still limited. Nanotherapeutics in cancer drug targeting needs extensive research in association with pharmaceutical industries. Nano-targeting based therapies are the future of pharmaceutical designing for the diagnosis, management and prevention of different forms of cancer.

Nano Phytomedicine Based Delivery System for CNS Disease.

Herbal medicines are being used since ancient times and are an important part of the alternative and traditional medicinal system. In recent decades, scientists are embracing herbal medicines based on the fact that a number of drugs that are currently in use are derived directly or indirectly from plant sources. Moreover, herbal drugs have lesser side effects, albeit are potentially strong therapeutic agents. The herbal medicine market is estimated to be around US $62 billion globally. Herbal medicine has gained widespread acceptance due to its low toxicity, low cost, ease of accessibility and efficacy in treating difficult diseases. Safety and efficacy are another important factors in the commercialization process of herbal medicines. Nanotechnology has been shown to be potentially effective in improving the bioactivity and bioavailability of herbal medicines. Development of nano-phytomedicines (or by reducing the size of phytomedicine), attaching polymers with phytomedicines and modifying the surface properties of herbal drugs, have increased the solubility, permeability and eventually the bioavailability of herbal formulations. Novel formulations such as niosomes, liposomes, nanospheres, phytosomes etc., can be exploited in this area. This article reviews herbal medicines, which have prominent activity in the Central Nervous System (CNS) disorders and reported nano-phytomedicines based delivery systems.

Preparation and evaluation of transdermal naproxen niosomes: formulation optimization to preclinical anti-inflammatory assessment on murine model.

The present study was designed with an aim to develop and optimize naproxen proniosomes (NAPRNs) using Box-Behnken Design (BBD). The formulation was optimized using three independent variables [maltodextrin (X1), surfactant concentration (X2) and drug concentration (X3)] at three different levels (low, medium and high). The prepared fifteen formulations were evaluated for drug entrapment efficiency, vesicle size and transdermal flux to select the optimized naproxen niosomes (NAPRNopt). The developed NAPRNs formulations showed the nano-size vesicle (218-417 nm) and high encapsulation efficiency (60.48-92.48%) with high flux value (23.17-27.37 µg/cm2/h). The formulation NAPRNopt has shown the vesicle size of 376.12 ± 4.12 nm with entrapment efficiency 86.43 ± 3.63% and transdermal flux of 27.56 ± 1.43 µg/cm2/h. The SEM study revealed the formulation NAPRNopt showed irregular surface morphology of niosomes. The formulation NAPRNopt gel showed biphasic release behaviour as an initial fast release and later slower release with the Higuchi release mechanism. The anti-inflammatory study results showed a better effect than the standard NAP gel in the rat model.

Quantum Dots: Next Generation of Smart Nano-Systems.

BACKGROUND: The amalgamation of biological sciences with nano stuff has significantly expedited the progress of biological strategies, greatly promoting practical applications in biomedical fields. OBJECTIVE: With distinct optical attributes (e.g., robust photostability, restricted emission spectra, tunable broad excitation, and high quantum output), fluorescent quantum dots (QDs) have been feasibly functionalized with manageable interfaces and considerably utilized as a new class of optical probe in biological investigations. METHODS: In this review article, we structured the current advancements in the preparation methods and attributes of QDs. Furthermore, we extend an overview of the outstanding potential of QDs for biomedical research and radical approaches to drug delivery. CONCLUSION: Notably, the applications of QDs as smart next-generation nanosystems for neuroscience and pharmacokinetic studies have been explained. Moreover, recent interests in the potential toxicity of QDs are also apprised, ranging from cell investigations to animal studies.

Nano-Based Therapy for Treatment of Skin Cancer.

BACKGROUND: According to the World Health Organization, skin cancer is the most common malignancy for the population. Conventional skin cancer treatment includes surgery and chemotherapy, but many of the chemotherapeutic agents used present undesirable properties. There are a number of patents on topical nano formulation like nanoparticle (US9757453; US9457041), liposomes (US2018177726 (A1), has been covered in this review in the treatment of skin cancer. METHODS: Encapsulated drugs are advantageous due to such properties as high stability, better bioavailability, controlled drug release, a long blood circulation time, selective organ or tissue distribution, a lower total required dose, and minimal toxic side effects. Today, researchers are constantly developing new formulations to meet unmet needs in the delivery of therapeutic agents for cancer therapy and diagnosis, respectively. RESULTS: Of particular interest here are lipid-based nanoformulations that are formulated from varieties of lipid and other chemical components that act collectively to overcome biological barriers, in order to preferentially accumulate in or around disease-target cells for the functional delivery of therapeutic agents. The article deals with the recent development of nano-sized topical lipid formulation approaches to treat skin cancer. CONCLUSION: We focus especially on the topical lipid formulation approaches combined with chemotherapy, a field which specialises in target specificity, drug release control, and realtime monitoring with the goal being to diminish unwanted side effects and their severity, achieving a cheaper treatment and a generally more efficient chemotherapy.

Formulation of sitagliptin-loaded oral polymeric nano scaffold: process parameters evaluation and enhanced anti-diabetic performance.

PURPOSE: The aim of the study to formulate and statistically optimize sitagliptin-loaded eudragit nanoparticles (SIT-NPs) and evaluate the in-vitro pharmaceutical quality and in-vivo anti-diabetic assessment. METHOD: SIT-NPs were prepared by using combination method of solvent evaporation and nano-precipitation techniques. The influence of different independent variables as eudragit RL100 concentration (%), tween 80 concentration (%) and sonication time (min) were evaluated on dependent variables like particle size (nm), drug loading (%) and in-vitro drug release (%). Further, the optimized formulation was evaluated for surface morphology, CLSM, ex-vivo permeation study and in-vivo anti-diabetic activity and stability study. RESULTS: The developed SIT-NPs formulations showed particle size range (135.86-193.45 nm), drug loading (6.36-8.76%) and prolonged drug release over 24 h. The prepared SIT-NPs were found to be nearly spherical with smooth surface. The comparative in-vitro release study and CLSM study results revealed that SIT-NPopt showed significantly (p < .05) enhanced release and permeation as compared to SIT free solution (SIT-Fs). The in-vivo anti-diabetic assessment revealed that SIT-NPopt able to reduce the blood sugar level (BSL) for a prolonged period of time. Further, the stability study data showed the formulations were found stable at both temperature and having the shelf life of 488 d. CONCLUSIONS: This research has shown that SIT-NPs based on experimental design offers a new and better approach to delivering SIT, thus encouraging further development of this formulation.

Development and validation of stability indicating liquid chromatographic (RP-HPLC) method for estimation of ubidecarenone in bulk drug and formulations using quality by design (QBD) approach

ABSTRACT A novel, accurate, precise and economical stability indicating Reverse Phase-High Performance Liquid Chromatography (RP-HPLC) method, was developed and validated for the quantitative determination of ubidecarenone (UDC) in bulk drug, UDC marketed formulation and UDC loaded cubosomes (CBMs) nanocarriers through Response surface methodology (RSM) design with three factors and three levels was performed to optimize the chromatographic variables followed by forced degradation studies of UDC were performed to detect degradation peak. RP-HPLC separation was achieved using mobile phase consisting of Acetonitrile:Tetrahydrofuran:Deionised water in the ratio 55:42:3 and a flow rate of 1.0 mL/min was optimized with a standard retention time (Rt) of 2.15 min, through experiment. The method was found linear in the concentration range of 5-100 µg/mL with a regression coefficient of 0.999. The limit of detection (LOD) and limit of quantification (LOQ) were found to be 3.04 µg/mL and 9.11 µg/mL, respectively.

Formulation and evaluation of sustained release matrix tablet of rabeprazole using wet granulation technique.

INTRODUCTION: Rabeprazole, a member of substituted benzimidazoles, inhibits the final step in gastric acid secretions. This drug claims to cause fastest acid separation (due to higher pKa), and more rapidly converts to the active species to aid gastric mucin synthesis. The most significant pharmacological action of Rabeprazole is dose dependent suppression of gastric acid secretion; without anticholinergic or H2-blocking action. It completely abolishes the hydrochloric acid secretion as it is powerful inhibitor of gastric acid. Rabeprazole is acid labile and hence commonly formulated as an enteric coated tablet. The absorption of rabeprazole occurs rapidly as soon as tablet leaves the stomach. AIM: In the present study an attempt was made to formulate and evaluate Rabeprazole sustained release matrix tablet using wet granulation technique incorporating various polymers like HPMC-E15, Carbopol934, and sodium carboxymethyl cellulose (CMC). MATERIALS AND METHODS: The Formulated tablets were evaluated for different physicochemical properties like rheological properties, weight variation, thickness, hardness, % friability, in vitro release studies and drug content. RESULTS: Studies revealed that all the physicochemical parameters comply with the official standards. The in vitro release studies exhibits the release up to 90%, over a prolonged period of time which confirms the extended release profile of formulation, having better bioavailability as well as decreased dosing frequency with reduced doses. CONCLUSION: The sustained release matrix tablets of rabiprazole shown better bioavailability, efficacy and potency, when compared with official standards.