Sorafenib Loaded Resealed Erythrocytes for the Treatment of Hepatocellular Carcinoma.

BACKGROUND: This study aims to formulate and characterize sorafenib-loaded resealed erythrocytes (SoRE) and investigate their anticancer activity in a rat model of hepatocellular carcinoma. METHODS: SoRE were prepared by hypotonic dialysis of red blood cells obtained from Wistar rats using a range of drug-containing dialysis mediums (2-10 mg/ml) and osmosis time (30-240 mins). Optimized SoRE (8 mg/mL and 240 mins) were characterized for size, morphology, stability, entrapment efficiency, in vitro release profiles, and in vivo efficacy evaluations. For efficacy studies, optimized SoRE were intravenously administered to Wistar rats having hepatocellular lesions induced by aflatoxin B and monitored for in vivo antineoplastic activity. RESULTS: The amount of sorafenib entrapped was directly proportional to the drug concentration in the dialysis medium and duration of osmosis; highest for 10 mg/mL and 240 minutes and lowest for 2 mg/mL and 30 minutes, respectively. Optimized SoRE were biconcave with a size of 112.7 nm and zeta potential of -11.95 ± 2.25 mV. Osmotic and turbulence fragility were comparable with native erythrocytes. CONCLUSION: Drug release follows the first-order pattern. In vivo investigations reveal better anticancer activity of SoRE formulation compared to sorafenib standard preparation. Resealed erythrocytes loaded with sorafenib displayed first-order in vitro release and promising anticancer activity in a rat model of hepatocellular carcinoma.

Application of Herbs and Dietary Supplements in ADHD Management.

Attention Deficit Hyperactivity Disorder is a neurodevelopmental disorder, which is characterised by a distinct clinical pattern of inattention, hyperactivity as well as impulsivity, which in turn interferes with the day-to-day activities of the affected individual. Although conventional allopathic medications have been found to provide symptomatic relief, they are accompanied by a plethora of side effects that overshadow and outweigh the potential therapeutic benefits. Hence, various alternative approaches in the management of Attention Deficit Hyperactivity Disorder (ADHD) are actively being investigated. Over the past few decades, numerous studies have been initiated and have delved into potential alternative strategies in the treatment and management of ADHD. The primary focus of this article is to discuss the etiology, pathophysiology coupled with a financial background as well as alternative strategies in the treatment and management of ADHD. A review of the literature on the clinical trialson alternative treatment approaches for ADHD showed that, plants and dietary supplements have beneficial effects on ADHD management. But in-depth studies still need to be conducted because the trials reported till now have a smaller sample size and need to be scaled up to get a broader understanding and knowledge of the potential impact of alternative forms of natural treatment on the patient population with ADHD. Also, the manufacturer of the alternative formulations needs to develop effective protocols and processes for the safe, effective, and robust manufacturing of such natural remedies, which fall in line with the expectation of the FDA to gain regulatory clearance for its manufacturing and sale, which can lead to better therapeutic outcomes in patients.

Therapeutic benefits of natural oils along with permeation enhancing activity.

The skin is the largest organ of the integumentary system with a multifunctional purpose to protect the body from heat and microbes, regulate body temperature, and act as a sensory organ. A topical dosage form applied on the skin will have to cross the stratum corneum, which would then allow the dosage form to traverse the subsequent layers of the skin. The drug with poor solubility and short half-life would serve as an ideal candidate for its delivery via the transdermal route. This review reports the role of natural oils in enhancing the permeation of drugs through skin as they possess different features like natural origin, favorable penetration enhancement, and partitioning action in the skin. Chemical penetration enhancers have been used widely but are associated with toxicities. Thus, more research should be channelized in the area of extraction of oils from natural sources, along with their active constituents, which can serve as therapeutic alternatives to various disorders and diseases. Natural oils are obtained from leaves, fruits, flowers, seeds, bark, and roots, which have a therapeutic potential as well as penetration enhancing activity. The demerits of oral drug delivery include degradation of drugs in the gastrointestinal tract, addition of taste masking, and coating of tablets, which can be overcome by delivering the drug via the transdermal route. Natural oil contains lipids, flavonoids, and terpenes, which play a significant role in anti-inflammatory and penetration enhancing activity.

Improvement of a synthetic live bacterial therapeutic for phenylketonuria with biosensor-enabled enzyme engineering.

In phenylketonuria (PKU) patients, a genetic defect in the enzyme phenylalanine hydroxylase (PAH) leads to elevated systemic phenylalanine (Phe), which can result in severe neurological impairment. As a treatment for PKU, Escherichia coli Nissle (EcN) strain SYNB1618 was developed under Synlogic's Synthetic Biotic™ platform to degrade Phe from within the gastrointestinal (GI) tract. This clinical-stage engineered strain expresses the Phe-metabolizing enzyme phenylalanine ammonia lyase (PAL), catalyzing the deamination of Phe to the non-toxic product trans-cinnamate (TCA). In the present work, we generate a more potent EcN-based PKU strain through optimization of whole cell PAL activity, using biosensor-based high-throughput screening of mutant PAL libraries. A lead enzyme candidate from this screen is used in the construction of SYNB1934, a chromosomally integrated strain containing the additional Phe-metabolizing and biosafety features found in SYNB1618. Head-to-head, SYNB1934 demonstrates an approximate two-fold increase in in vivo PAL activity compared to SYNB1618.

Design strategies and evolving role of biomaterial assisted treatment of osteosarcoma.

Osteosarcoma is the most commonly diagnosed form of bone cancer. It is characterized by a high risk of developing lung metastasis as the disease progresses. Standard treatment includes combination of surgical intervention, chemotherapy and radiotherapy. However, the non-specificity of potent chemotherapeutic agents often leads to major side effects. In this review, we discuss the role of various classes of biomaterials, including both organic as well as inorganic in realizing the local and systemic delivery of therapeutic agents like drugs, radioisotopes and even gene silencing agents to treat osteosarcoma. Biomaterial assisted unconventional therapies such as targeted therapy, nanotherapy, magnetic hyperthermia, gene therapy, photothermal and photodynamic therapies are also being explored. A wide variety of biomaterials including lipids, carbon-based materials, polymers, silica, bioactive glass, hydroxyapatite and metals are designed as delivery systems with the desired loading efficiency, release profile, and on-demand delivery. Among others, liposomal carriers have attracted a great deal of attention due to their capability to encapsulate both hydrophobic and hydrophilic drugs. Polymeric systems have high drug loading efficiency and stability and can even be tailored to achieve desired size and physiochemical properties. Carbon-based systems can also be seen as an upcoming class of therapeutics with great potential in treating different types of cancer. Inorganic materials like silica nanoparticles have high drug payload owing to their mesoporous structure. On the other hand, ceramic materials like bioactive glass and hydroxyapatite not only act as excellent delivery vectors but also participate in osteo-regeneration activity. These multifunctional biomaterials are also being investigated for their theranostic abilities to monitor cancer ablation. This review systematically discusses the vast landscape of biomaterials along with their challenges and respective opportunities for osteosarcoma therapy.

Formulation evaluation of ketoconazole microemulsion-loaded hydrogel with nigella oil as a penetration enhancer.

BACKGROUND: Onychomycosis is an opportunistic fungal infection often infecting people with compromised immune system. Currently available treatment interventions such as physical, surgical, and chemical-based approaches are successful in treating the condition, however, are painful and nonpatient complaint. Moreover, dermal creams with antifungal agents do not penetrate nail plate as required; hence, there is a necessity of developing a novel formulation with enhanced penetration. AIMS: The aim of the present research work was to develop ketoconazole microemulsion-loaded hydrogel formulation containing nigella oil as permeation enhancer for the treatment of onychomycosis. METHODS: Screening of oils, surfactants, and cosurfactants were done based on solubility studies followed by the construction of pseudo-ternary phase diagrams with 2% ketoconazole. The microemulsion was characterized for globule size, zeta potential, viscosity, and thermodynamic stability. Ex-vivo studies were carried out using Franz diffusion cells using porcine skin membrane. The antifungal activity of microemulsion-loaded hydrogel was evaluated using cup plate method using Candida albicans and Aspergillus niger. RESULTS: The optimized microemulsion had a composition of 54.97% Capryol:Nigella (2:1), 36.07% Transcutol:Propylene glycol (2:1), and 7.13% water and was later incorporated into polymeric gel base. The microemulsion-loaded hydrogel exhibited a 10 hours sustained release profile as compared to the marketed cream and an enhanced activity against marketed ketoconazole cream and compared with marketed ketoconazole formulation. CONCLUSION: The thermodynamic stability, sustained drug release with greater permeation, and enhanced activity due to the presence of nigella oil in microemulsion-loaded hydrogel warrant its application as an excellent vehicle for treating fungal infections.

In vitro studies on guar gum based formulation for the colon targeted delivery of Sennosides.

PURPOSE: The objective of the present study is to develop colon targeted drug delivery systems for sennosides using guar gum as a carrier. METHODS: Matrix tablets containing various proportions of guar gum were prepared by wet granulation technique using starch paste as a binder. The tablets were evaluated for content uniformity and in vitro drug release study as per BP method. T(50) % value from the dissolution studies was taken for selecting the best formulation. RESULTS: Guar gum matrix tablets released 4-18% sennosides in the physiological environment of gastrointestinal tract depending on the proportion of the guar gum used in the formulation. The matrix tablets containing 50% of guar gum were found to be suitable for targeting of sennosides for local action in the colon. Compared to tablets having 30% and 40% of guar gum, those with 50% guar gum gave better T(50)% (11.7 h) le and fewer amounts (5-8%) of drug release in upper GIT. These tablets with 50% guar gum released 43% and 96% sennosides with and without rat caecal fluids. This suggests the susceptibility of matrix to the colonic micro flora. The similarity factor (f2 value) for drug release with and without rat caecal fluids was found to be less than 30. When hydroxy propyl methylcellulose phthalate (10%) was used as a coat material on the matrix tablets, the initial loss of 5-8% sennosides in stomach could be completely averted. These tablets showed no change in physical appearance, content and dissolution profile upon storage at 45 degrees C / 75% relative humidity for 3 months. CONCLUSION: The results of our study indicates that matrix tablets containing 50% guar gum and coated with 10% hydroxy propyl methylcellulose phthalate are most suitable for drugs like sennosides which are mainly active in the lower GIT.