Interpenetrating polymeric network (IPNs) in ophthalmic drug delivery: Breaking the barriers.

To maintain the therapeutic drug concentration for a prolonged period of time in aqueous and vitreous humor is primary challenge for ophthalmic drug delivery. Majority of the locally administered drug into the eye is lost as to natural reflexes like blinking and lacrimation resulting in the short span of drug residence. Consequently, less than 5% of the applied drug penetrate through the cornea and reaches the intraocular tissues. The major targets for optimal ophthalmic drug delivery are increasing drug residence time in cul-de-sac of the eye, prolonging intraocular exposure, modulating drug release from the delivery system, and minimizing pre-corneal drug loss. Development of in situ gel, contact lens, intraocular lens, inserts, artificial cornea, scaffold, etc., for ophthalmic drug delivery are few approaches to achieve these major targeted objectives for delivering the drug optimally. Interpenetrating polymeric network (IPN) or smart hydrogels or stimuli sensitive hydrogels are the class of polymers that can help to achieve the targets in ophthalmic drug delivery due to their versatility, biocompatibility and biodegradability. These novel ''smart" materials can alter their molecular configuration and result in volume phase transition in response to environmental stimuli, such as temperature, pH, ionic strength, electric and magnetic field. Hydrogel and tissue interaction, mechanical/tensile properties, pore size and surface chemistry of IPNs can also be modulated for tuning the drug release kinetics. Stimuli sensitive IPNs has been widely exploited to prepare in situ gelling formulations for ophthalmic drug delivery. Low refractive index hydrogel biomaterials with high water content, soft tissue-like physical properties, wettability, oxygen, glucose permeability and desired biocompatibility makes IPNs versatile candidate for contact lenses and corneal implants. This review article focuses on the exploration of these smart polymeric networks/IPNs for therapeutically improved ophthalmic drug delivery that has unfastened novel arenas in ophthalmic drug delivery.

Non-ionic Surfactants as a P-Glycoprotein(P-gp) Efflux Inhibitor for Optimal Drug Delivery-A Concise Outlook.

Significant research efforts have been devoted to unraveling the mystery of P-glycoprotein(P-gp) in drug delivery applications. The efflux membrane transporter P-gp is widely distributed in the body and accountable for restricting drug absorption and bioavailability. For these reasons, it is the primary cause of developing multidrug resistance (MDR) in most drug delivery applications. Therefore, P-gp inhibitors must be explored to address MDR and the low bioavailability of therapeutic substrates. Several experimental models in kinetics and dynamic studies identified the sensitivity of drug molecules and excipients as a P-gp inhibitor. In this review, we aimed to emphasize nonionic surface-active agents for effective reversal of P-gp inhibition. As it is inert, non-toxic, noncharged, and quickly reaching the cytosolic lipid membrane (the point of contact with P-gp efflux protein) enables it to be more efficient as P-gp inhibitors. Moreover, nonionic surfactant improves drug absorption and bioavailability through the various mechanism, involving (i) association of drug with surfactant improves solubilization, facilitating its cell penetration and absorption; (ii) weakening the lateral membrane packing density, facilitating the passive drug influx; and (iii) inhibition of the ATP binding cassette of transporter P-glycoprotein. The application of nonionic surfactant as P-gp inhibitors is well established and supported by various experiments. Altogether, herein, we have primarily focused on various nonionic surfactants and their development strategies to conquer the MDR-causing effects of P-gp efflux protein in drug delivery. Graphical Abstract.

Eudragit S-100 Surface Engineered Nanostructured Lipid Carriers for Colon Targeting of 5-Fluorouracil: Optimization and In Vitro and In Vivo Characterization.

5-Fluorouracil (5-FU) is the most preferred chemotherapeutic agent in the management of colon cancer but is associated with poor therapeutic efficacy and lack of site specificity. Hence, it was aimed to employ Eudragit S100 surface engineered 5-FU nanostructured lipid carriers for the spatial and temporal release of the drug for the treatment of colon cancer. Hot high-pressure homogenization (HPH) technique was employed in the preparation of 5-FU-NLCs. The optimization of 5-FU-NLCs was performed using a Quality by Design (QbD) approach. A 32 factorial design was employed wherein the relationship between independent variables [amount of oleic acid (X1) and concentration of Tween®80 (X2)] and dependent variables [particle size (Y1) and % entrapment efficiency (Y2)] was studied. Optimized 5-FU-NLCs were surface treated to obtain Eudragit S100-coated 5-FU-NLCs (EU-5-FU-NLCs). The evaluation parameters for 5-FU-NLCs and EU-5-FU-NLCs included surface morphology, particle size, PDI, and zeta potential. In vitro release from EU-5-FU-NLCs revealed a selective and controlled 5-FU release in the colonic region for 24 h. In vitro cytotoxicity (MTT assay) was performed against Caco-2 cancer cells, wherein EU-5-FU-NLCs exhibited a 2-fold greater cytotoxic potential in comparison to a 5-FU solution (5-FU-DS). Oral administration of EU-5-FU-NLCs in Albino Wistar rats depicted a higher Cmax (2.54 folds) and AUC (11 folds) as well as prolonged Tmax (16 folds) and MRT (4.32 folds) compared to 5-FU-DS confirming higher bioavailability along with the spatial and temporal release in the colonic region. Thus, a multifaceted strategy involving abridgement of nanotechnology along with surface engineering is introduced for effective chemotherapy of colon cancer via oral administration of 5-FU with uncompromised safety and higher efficacy.Graphical abstract.

Evaporation of Inclined Drops: Formation of Asymmetric Ring Patterns.

Evaporation of colloidal drops on horizontal surfaces deposits the contained particles at the drop-edge producing radially symmetric ring-like stains. The symmetry in the particle deposition is broken when the drop is placed on a tilted surface due to the influence of gravity on the suspended particles and the drop itself. Using extremely small drops generated by electrospray, we explore cases where different mechanisms of particle transport dominate. We show that the asymmetric residues are formed as the gravity-induced effects compete with the capillary flow. Our results give a broad insight into the pattern formation of evaporating inclined drops.

Wnt3a mediated activation of Wnt/ß-catenin signaling promotes tumor progression in glioblastoma.

Presence of a distinct population of cells that drives tumor progression supports the hierarchical model of tumor development in Glioblastoma (GBM) and substantiates the cancer stem cell hypothesis. Amongst the various developmental signaling pathways that are aberrantly activated, we here show that activated Wnt/ß-catenin signaling pathway plays a critical role in malignant transformation and tumor progression in gliomas. We demonstrate that Wnt ligands - Wnt1 and Wnt3a are expressed in a graded manner in these tumors as well as over-expressed in glioma stem cell-lines. A selective inhibition of Wnt signaling pathway by selective knock-down of its ligands Wnt1 and Wnt3a in glioma-derived stem-like cells led to decreased cell proliferation, cell migration and chemo-resistance. Furthermore, Wnt silencing in glioma cells reduced the capacity to form intra-cranial tumors in vivo. Taken together, our study indicates Wnt/ß-catenin signaling pathway as an essential driver of glioma tumorigenesis, recognizing role of Wnt3a as an oncogene and thereby offering novel therapeutic strategies for management of these tumors.

Pulmonary function tests in stone crushers.

A cross-sectional type of observational study was conducted at 7 various stone crusher units on 120 male stone crushers and 120 healthy male controls. Values of FEF25-27% and PEFR were recorded on computerized spirometer and were compared between workers and age matched controls group. The value of FEF25-75% and PEFR was significantly reduced in stone crushers as compared to controls. Also as the duration of exposure increases the values of flow rates goes on decreasing among workers. Stone crushers of Marathwada region of Maharashtra exposed to silica dust were prone to develop lung disorders as indicated by reduced value of FEF25-75% and PEFR.

Endometriosis: A Comprehensive Exploration of Inflammatory Mechanisms and Fertility Implications.

Endometriosis is a prevalent gynecological disorder characterized by the ectopic growth of endometrial-like tissue outside the uterus. This condition poses significant challenges due to its chronic nature, debilitating symptoms such as pelvic pain and infertility, and substantial impact on quality of life. Central to the pathogenesis of endometriosis are inflammatory mechanisms that perpetuate tissue proliferation, adhesion formation, and immune dysregulation within the pelvic cavity. Inflammation plays a pivotal role in the development and progression of endometriosis, influencing the severity of symptoms and complications associated with the disease. Dysregulated immune responses contribute to the persistence of ectopic endometrial implants, exacerbating pelvic pain and other symptoms experienced by affected individuals. Moreover, the inflammatory milieu created by endometriotic lesions disrupts normal ovarian function, impairs follicular development, and compromises reproductive outcomes, thereby posing challenges to fertility. This review comprehensively explores the inflammatory mechanisms underlying endometriosis and their implications for fertility. Synthesizing current research and clinical insights elucidates the intricate interplay between inflammation, disease progression, and reproductive health outcomes. Understanding these complex interactions is essential for developing targeted diagnostic strategies and optimizing therapeutic approaches tailored to alleviate symptoms and improve fertility outcomes in individuals with endometriosis. Ultimately, this review aims to enhance the understanding of endometriosis pathophysiology, inform clinical practice, and stimulate further research to advance personalized care and management strategies for this challenging condition.

Understanding AI in Healthcare: Perspectives of Future Healthcare Professionals.

Introduction The current medical curriculum lacks comprehensive artificial intelligence (AI)-focused training, potentially impacting future healthcare delivery. This study addresses the critical gap in AI training within medical education, particularly in India, by assessing medical students' awareness, perceptions, readiness, confidence, and ethical considerations regarding AI in healthcare. Our findings underscore the necessity of integrating AI competencies into medical education to prepare future healthcare professionals for an AI-driven landscape. Method After obtaining ethics approval, we conducted a cross-sectional study on Bachelor of Medicine and Bachelor of Surgery (MBBS) students from the 2019-2023 batch. An exploratory survey using a validated questionnaire was employed to obtain medical students' current understanding and awareness of artificial intelligence (AI) in healthcare, perceptions, readiness, confidence, and ethical considerations in utilizing AI technologies in clinical practice. Results The survey received 217 responses from 2019-2023 MBBS students. We found a mean percentage of awareness score of 44.74%, a mean percentage perception score of 68.96%, a mean percentage readiness score of 91.32%, a mean percentage confidence score of 58.48%, and a mean percentage ethics importance score of 69.27%. Males had higher awareness, confidence, and readiness scores. Conversely, females scored slightly higher in perception and the importance of ethics consideration, although not statistically significant. Junior batches outperform senior batches in perception, confidence, and readiness scores; in contrast, the awareness and ethics importance scores do not show significant differences between the two groups. Conclusion Our study indicates a generally positive outlook toward AI's potential to enhance healthcare delivery and patient outcomes. The study suggests a strong inclination toward further education and practical training focused on AI in healthcare, considering a solid recognition of the significance of ethical implications related to AI in healthcare. These findings highlight the importance of fostering AI literacy within medical education curricula and underscore the necessity for ongoing evaluation and adaptation to ensure that future healthcare professionals are equipped to navigate the complexities of AI in healthcare delivery while upholding ethical standards.

Current Pharmaceutical Strategies in the Management of Persistent Pulmonary Hypertension of the Newborn (PPHN): A Comprehensive Review of Therapeutic Agents.

Persistent Pulmonary Hypertension of the Newborn (PPHN) is a life-threatening condition characterized by the failure of normal circulatory transition after birth, leading to sustained pulmonary hypertension and severe hypoxemia. Despite advancements in neonatal care, PPHN remains a significant cause of morbidity and mortality among newborns, particularly in full-term and near-term infants. This review provides a comprehensive overview of current pharmaceutical strategies for managing PPHN, focusing on various therapeutic agents' mechanisms, efficacy, and safety. Key interventions include inhaled nitric oxide, which has become the standard treatment for reducing pulmonary vascular resistance, alongside prostacyclin analogs, phosphodiesterase inhibitors, and endothelin receptor antagonists. Additionally, extracorporeal membrane oxygenation (ECMO) is highlighted as a critical intervention for severe, refractory cases. The review also discusses emerging therapies and the potential role of personalized medicine in improving treatment outcomes. Despite the progress made, challenges remain, including the timely diagnosis of PPHN and the need for accessible treatments in resource-limited settings. As research continues to uncover the underlying pathophysiology of PPHN, it is crucial to develop more targeted and effective pharmaceutical strategies. This review aims to inform clinicians and researchers of the current state of PPHN management and the ongoing advancements that may shape future therapeutic approaches.

Hyperreactio Luteinalis: A Rare Phenomenon Complicating Gestational Trophoblastic Disease Presenting as Acute Abdomen in the Convalescence Period.

The hydatidiform mole is a rare gynaecological condition originating from trophoblastic cells, with an incidence of 1-3 per 1000 pregnancies. Theca lutein cysts (TLCs) and an invasive mole are rarely observed in association with a partial mole. This case describes an unusual case involving a 17-year-old primigravida at 11 weeks of gestation. She presented with abdominal pain and was diagnosed with a molar pregnancy with post-evacuation rupture of TLC, presenting as an acute abdomen, subsequently undergoing laparoscopy. Post-molar pregnancies exhibit a highly variable course, ranging from recurrent pregnancy loss and stillbirths to preterm deliveries and recurrent molar pregnancies. Few studies are available on obstetric outcomes after a molar pregnancy; most available data originate from national databases and monocentric research.

Solving the Dilemma: Van Wyk-Grumbach Syndrome.

The Van Wyk-Grumbach syndrome (VWGS) (hypothyroidism, ovarian mass, and precocious puberty) has been extensively documented in the literature as long-term hypothyroidism manifesting as an ovarian mass. The authors of this study describe this entity in a young girl, aged 10, who presented with abdominal pain with a multiloculated ovarian cyst. She was evaluated, and it was discovered that she had delayed bone age, precocious puberty, and a small height. Following her diagnosis of autoimmune thyroiditis and the initiation of thyroxine replacement therapy, the ovarian cysts spontaneously regressed. To avoid needless assessment and surgical mishaps, this entity should be considered in situations of ovarian mass, particularly those with precocious puberty and thyroid disorders.

Anthropometric Predictors of Heart Rate Variability in Overweight Individuals: A Comparative Study.

Introduction The autonomic nervous system is crucial in regulating cardiovascular function. Heart rate variability (HRV) analysis, a non-invasive method to assess autonomic function, reflects the beat-to-beat variations in heart rate and provides insights into the dynamic interplay between sympathetic and parasympathetic influences on the cardiovascular system. In this study, we aimed to find the HRV parameters in overweight individuals by comparing different anthropometric parameters, including body mass index (BMI), percentage body fat (%BF), waist circumference (WC), and waist-hip ratio (WHR). Method The descriptive cross-sectional study was conducted on 132 healthy first-year MBBS students (82 males and 50 females), aged between 17 and 23 years. Anthropometric parameters (BMI, %BF, WC, WHR) and HRV were recorded for the participants. The HRV parameters were analyzed for either gender. A student 't' test was used to test the difference between groups BMI <25 kg/m2 and = or >25 kg/m2, and a p-value less than 0.05 was taken to be statistically significant. The Pearson correlation coefficient was used to show the relationship between HRV parameters and BMI, %BF, WC, and WHR as the independent variables. Result A total of 132 healthy individuals participated in the study, including 82 males and 50 females. The participants had a mean age of 18.72 ± 0.98 years. Our results suggest that while WC and WHR can be used alongside BMI to indicate sympathetic hyperactivity in males, BMI remains the most significant predictor in females. We found gender-specific differences in high-frequency (HF) related to various anthropometric measures, but these differences were not statistically significant. The low-frequency:high-frequency (LF/HF) ratio exhibits strong positive correlations with all measured anthropometric parameters, suggesting that increased values in BMI, %BF, WC, and WHR are associated with greater sympathetic involvement. Conclusion WC and WHR, alongside BMI, are reliable indicators of heightened sympathetic activity in both males and females. These measures should be utilized to assess healthy individuals for the early diagnosis of dysautonomia, disrupt the cycle of sympathetic overactivity, and prevent cardiovascular complications. All these anthropometric parameters are valuable for indicating sympathovagal balance, making them essential tools in the proactive management of autonomic dysfunction and associated health risks.

Concept mapping a potential pedagogical strategy to foster meaningful learning in physiology students.

BACKGROUND: Understanding of human physiology is critical for clinical practice and disease management. Escalating the teaching-learning method to improve conceptual knowledge may help the students to apply their knowledge in clinical scenarios. The present study was conducted to teach the use of concept mapping as a learning strategy to foster meaningful learning in physiology, compare its impact as a learning tool with traditional methods on meaningful learning, assess the cognitive gain, and find student's perception regarding concept mapping. MATERIALS AND METHODS: The interventional study was conducted on first-year MBBS students. Depending upon marks obtained in previous internal assessments, the students were classified into "rapid learners" (RL) and "potential learners" (PL). By simple random sampling technique, both groups were divided into interventional (concept mapping) and control groups (question-answer discussion). After a pretest, all students had a lecture on glomerular filtration. The assignment was given to the interventional group to prepare a concept map on glomerular filtration, and question-answer were discussed for control groups. A surprise posttest was conducted after 2-3 days. RESULT: In our study, all four groups showed significant differences in the pretest and posttest scores using a paired t-test (P < 0.05). The mean score of gain in learning, raw gain (G0), absolute learning gain, relative learning gain, and average normalized gain compared between the interventional group and controls group showed statistically significant performance improvement in both RL and PL groups. CONCLUSION: The concept mapping strategy was more efficacious than the question-answer discussion. Concept mapping is an impactful learning tool to improve cognitive gain and potential pedagogical strategy to foster meaningful learning in physiology students.

Navigating the challenges: exploring the association between COVID-19 lockdowns and eating behavior in university students: a systematic review and investigation of factors impacting ed levels.

INTRODUCTION: The COVID-19 pandemic has significantly impacted the mental and physical well-being of individuals globally, with university students being particularly susceptible to mental health issues. Factors such as the transition to adulthood, economic hardships, and academic responsibilities, compounded by pandemic-related disruptions like lockdowns and remote learning, have elevated stress levels and altered daily routines. The pandemic has given rise to post-traumatic stress symptoms in certain individuals, including university students which may contribute to the emergence of emotional eating or adopting unhealthy eating patterns as a coping mechanism, leading to excessive consumption or unhealthy dietary choices. This review aims to investigate the influence of COVID-19 restrictions on eating disorders among university students and identifying the contributing factors. CONTENT: Out of 59 identified articles, 10 met the inclusion criteria, involving 23,542 participants (70.2 % women, 29.35 % men, 0.42 % gender fluid/undisclosed). The lockdown led to increased prevalence and severity of eating disorders among university students, particularly in women. SUMMARY: The review highlights a notable increase in eating disorders among university students during the COVID-19 pandemic. Mental health issues, reduced physical activity, and economic stress were significant contributors to this trend, with women being disproportionately affected. OUTLOOK: To mitigate the impact of future pandemics or similar disruptions, universities should implement early screening, provide mental health counseling, virtual support groups, nutritional guidance, and opportunities for physical activity. Encouraging students to seek professional help is crucial for managing mental health and eating habits in such scenarios.

Promoting Pedagogical Resilience: Unveiling the Efficacy of Synchronous Online Lectures Compared to Traditional Methods From the Students' Vantage Point Amidst the COVID-19 Pandemic.

Introduction The COVID-19 pandemic significantly disrupted traditional educational methods, forcing medical institutes to adapt to online classes. Since online teaching was an untested approach in Indian medical education, student feedback was essential. This study compares synchronous online lectures with traditional classroom lectures from the students' perspective. Method The cross-sectional study was conducted on undergraduate medical students across India undergoing synchronous online MBBS classes during the COVID-19 pandemic. After obtaining institutional ethical clearance, five-section questionnaires via Google Forms were circulated on WhatsApp and Facebook. The generated quantitative data were analyzed using descriptive statistics and frequency analysis. Result Out of 341 responses, 64 students did not consent and were excluded, resulting in 277 responses for analysis. The total score for traditional face-to-face lectures was 11.61 out of 15, with a percentage mean score of 77%, highlighting the significant positive influence of instructor presence and a conducive learning environment. In contrast, synchronous online lectures had a total score of 16.01 out of 25, with a percentage mean score of 64.04%, reflecting mixed responses. The Student's t-test analysis underscored the significant advantages of face-to-face interactions and structured learning environments in traditional classroom settings despite the flexibility and independence offered by synchronous online lectures. Conclusion The findings of this study reveal that students have a moderate level of satisfaction with synchronous online lectures, as indicated by a mean score of 64.04%. While these lectures provide flexibility and promote independence, they require students to exhibit higher levels of self-motivation, discipline, and self-directed learning. However, the online format poses challenges for effective communication and technical issues. Addressing the challenges of technology use, teacher training, and student engagement can enhance the effectiveness of online teaching and ensure that it complements traditional teaching methods, ultimately promoting pedagogical resilience in medical education.

Empowering Women's Health: Insights Into HPV Vaccination and the Prevention of Invasive Cervical Cancer.

This review article provides a comprehensive analysis of the role of human papillomavirus (HPV) vaccination in empowering women's health by preventing invasive cervical cancer. Cervical cancer remains a significant global health concern, with HPV infection identified as a primary causative factor. The review synthesizes current research findings, epidemiological data, and clinical outcomes to offer a nuanced understanding of the impact of HPV vaccination on cervical cancer prevention. The article explores the biology of HPV, emphasizing its association with cervical carcinogenesis and the development of precancerous lesions. It delves into the epidemiology of HPV infection, highlighting the global prevalence and the burden of cervical cancer, particularly in low-resource settings. The socio-economic factors influencing HPV transmission and cervical cancer incidence are also discussed. The focus of the review is on the efficacy and safety of HPV vaccines, including an examination of vaccine types, dosages, and long-term effectiveness. Insights into the immunological responses triggered by vaccination, as well as the duration of protection against HPV infection and associated cancers, are presented. Special attention is given to addressing myths and misconceptions surrounding HPV vaccination, aiming to enhance public awareness and acceptance. Additionally, the review discusses the impact of vaccination programs on population-wide HPV prevalence and the subsequent reduction in cervical cancer rates. It explores challenges related to vaccine accessibility, affordability, and coverage, especially in underserved populations. Strategies for improving vaccine uptake and ensuring equitable distribution are considered, with a focus on empowering women through education and healthcare access. Furthermore, the article touches upon emerging trends in HPV research, such as the development of next-generation vaccines, therapeutic interventions for existing infections, and the potential for global HPV elimination. The integration of HPV vaccination into comprehensive women's health programs is advocated, emphasizing the importance of a holistic approach to cervical cancer prevention. In conclusion, this review provides a multifaceted exploration of HPV vaccination as a pivotal tool in empowering women's health by preventing invasive cervical cancer. The synthesis of current knowledge underscores the need for continued research, education, and global collaboration to ensure the widespread success of HPV vaccination initiatives, ultimately contributing to the advancement of women's health worldwide.

Immunomodulation and Anticancer Immunity: Reviewing the Potential of Probiotics and Their Delivery with Macromolecular Carriers.

Probiotics colonize in the gastrointestinal tract and regulate the homeostasis in healthy human hosts. These protect the host against putrefactive organisms and secrete soluble factors exhibiting important transductive roles. However, constitutive processes in human host are deregulated following dysbiosis caused during prolonged exposure to cytotoxic agents and pollutants. Apart from restoring the homeostasis, probiotic administration has shown to minimize carcinogenesis and post-surgery complications in cancer patients. Moreover, ability of microbial cells to colonize at tumor foci can be harnessed to deliver genes, therapeutic proteins and antibodies in a selective manner. In this review, we have discussed immunomodulatory roles of probiotics in context to cancer prevention. The article further proposes the use of dietary interventions for boosting anticancer immunity and as an alternative to detrimental chemotherapeutic agents. After summarizing clinical evidences on probiotic efficacy, formulation approaches have been described for effective delivery of the microorganisms. The literature shows that polysaccharide matrices can be employed to achieve the survivability of probiotics. Formulation approaches have been reviewed together with the risks associated with the migration of live microorganisms to systemic circulation and their ability of transmitting antibiotic resistance factors into human pathogens.

Advances on nanoformulation approaches for delivering plant-derived antioxidants: A case of quercetin.

Oxidative stress has been implicated in tumorigenic, cardiovascular, neuro-, and age-related degenerative changes. Antioxidants minimize the oxidative damage through neutralization of reactive oxygen species (ROS) and other causative agents. Ever since the emergence of COVID-19, plant-derived antioxidants have received enormous attention, particularly in the Indian subcontinent. Quercetin (QCT), a bio-flavonoid, exists in the glycosylated form in fruits, berries and vegetables. The antioxidant potential of QCT analogs relates to the number of free hydroxyl groups in their structure. Despite presence of these groups, QCT exhibits substantial hydrophobicity. Formulation scientists have tested nanotechnology-based approaches for its improved solubilization and delivery to the intended site of action. By the virtue of its hydrophobicity, QCT gets encapsulated in nanocarriers carrying hydrophobic domains. Apart from passive accumulation, active uptake of such formulations into the target cells can be facilitated through well-studied functionalization strategies. In this review, we have discussed the approaches of improving solubilization and bioavailability of QCT with the use of nanoformulations.

The Effect of High Temperature on Cardiovascular Autonomic Function Tests in Steel Plant Furnace Worker.

BACKGROUND: The high temperature in the working environment could be one of the risk factors for cardiovascular diseases in steel plant workers. The excessive high temperature at the working place leads to altered autonomic activity and is related to more cardiovascular risk. AIMS AND OBJECTIVES: The effect of high temperature on cardiovascular autonomic function tests in steel plant furnace worker. MATERIAL AND METHOD: This was a case-control study for which 50 steel plant furnace workers and 50 controls were selected. The cardiovascular sympathetic function status in worker and control were analyzed by three tests: (i) Blood pressure (BP) response to sustained isometric handgrip test, (ii) BP response to the cold pressor test, and (iii) BP response to standing from a supine position (orthostasis). Statistical analysis was done by using an independent t-test. RESULTS: Diastolic BP (DBP) response to sustained isometric handgrip and systolic BP (SBP) and DBP response to the cold pressor test showed that the increase BP in workers were more than controls but the difference was not statistically significant (P > 0.05). SBP response to standing from the supine position showed statistically significant (P < 0.001) greater fall in steel plant workers. CONCLUSION: The sympathetic autonomic dysfunction was seen in steel furnace workers in response to environmental stressor-excessive heat.

Nanocarriers based on vitamin E-TPGS: Design principle and molecular insights into improving the efficacy of anticancer drugs.

α-Tocopheryl polyethylene glycol succinate (vitamin E-TPGS or TPGS) is a nonionic amphiphile synthesized by the esterification of vitamin E succinate. It has been categorized as a safe excipient by US-FDA and EMA. Like other polyethylene glycol (PEG) condensates, TPGS spontaneously forms kinetically stable core-shell micelles (diameter 12-15 nm) and exhibits interesting properties as solubilizing agent, emulsifier, dispersant and gelling agent. Its aggregation behavior can be tuned in association with other amphiphiles and organic additives. These properties have been exploited for developing a variety of vesicular, semisolid and multi-particulate drug formulations. It improves the bioavailability of drugs through permeation enhancement and down-regulation of P-glycoproteins. Multimodal therapeutic platforms have been explored following its chemical modification with recognizable and stimuli-responsive groups. Research in the past two decades has revealed its specific role in mediating the re-sensitization of multi-drug resistant cancer cells. This review describes the physicochemical and biological properties of TPGS relevant to drug delivery applications. We have emphasized on the role of TPGS in improving the bioavailability and targetability of anticancer drugs.