Selenium Deficiency as a Risk Factor for Peripartum Cardiomyopathy.

BACKGROUND: Peripartum cardiomyopathy (PPCM) is a multifactorial disease. Although the specific aetiology and pathogenesis of PPCM are unknown, several hypotheses have been proposed, including selenium deficiency. However, the risk of PPCM from selenium deficiency was not previously quantified. This posthoc analysis of peripartum cardiomyopathy in Nigeria (PEACE) registry data aimed to determine if selenium deficiency is an independent risk factor for PPCM. METHODS: Apparently healthy women who delivered within the previous 8 weeks and PPCM patients in Kano, Nigeria, were compared for selenium deficiency (<70µg/L) and other relevant socio-demographic and clinical characteristics. Selenium level was measured at recruitment for each subject. Independent predictors of PPCM were determined using logistic regression models. RESULTS: 159 PPCM patients and 90 age-matched controls were consecutively recruited. 84.9% of the patients and 3.3% of controls had selenium deficiency. Selenium deficiency independently increased the odds for PPCM by 167-fold while both unemployment and lack of formal education independently increased the odds by 3.4-fold. CONCLUSION: Selenium deficiency was highly prevalent among PPCM patients in Kano, Nigeria, and significantly increased the odds for PPCM. These results could justify screening of women in their reproductive years for selenium deficiency, particularly those living in regions with high incidence of PPCM. The results also call for the setting up of a definitive clinical trial of selenium supplementation in PPCM patients with selenium deficiency, to further define its benefits in the treatment of PPCM.

CONTEXTE: La cardiomyopathie péripartum (CMPP) est une maladie multifactorielle. Bien que l'étiologie spécifique et la pathogenèse de la CMPP soient inconnues, plusieurs hypothèses ont été proposées, notamment la carence en sélénium. Cependant, le risque de CMPP lié à la carence en sélénium n'a pas été précédemment quantifié. Cette analyse post-hoc des données du registre de la cardiomyopathie péripartum au Nigéria (PEACE) visait à déterminer si la carence en sélénium est un facteur de risque indépendant de la CMPP. MÉTHODES: Des femmes apparemment en bonne santé ayant accouché dans les 8 semaines précédentes et des patientes atteintes de CMPP à Kano, au Nigéria, ont été comparées pour la carence en sélénium (<70µg/L) et d'autres caractéristiques socio-démographiques et cliniques pertinentes. Le taux de sélénium a été mesuré au recrutement pour chaque sujet. Les prédicteurs indépendants de la CMPP ont été déterminés à l'aide de modèles de régression logistique. RÉSULTATS: 159 patientes atteintes de CMPP et 90 témoins appariés selon l'âge ont été recrutés consécutivement. 84,9% des patientes et 3,3% des témoins présentaient une carence en sélénium. La carence en sélénium augmentait indépendamment les chances de CMPP de 167 fois, tandis que le chômage et le manque d'éducation formelle augmentaient indépendamment les chances de 3,4 fois. CONCLUSION: La carence en sélénium était très répandue parmi les patientes atteintes de CMPP à Kano, au Nigéria, et augmentait significativement les chances de CMPP. Ces résultats pourraient justifier le dépistage de la carence en sélénium chez les femmes en âge de procréer, en particulier celles vivant dans des régions à forte incidence de CMPP. Les résultats appellent également à la mise en place d'un essai clinique définitif sur la supplémentation en sélénium chez les patientes atteintes de CMPP présentant une carence en sélénium, afin de définir davantage ses avantages dans le traitement de la CMPP. MOTS-CLÉS: Cardiomyopathie Péripartum; Carence en Sélénium; Facteur de Risque.

Chitosan-Based Polymeric Nanoparticles as an Efficient Gene Delivery System to Cross Blood Brain Barrier: In Vitro and In Vivo Evaluations.

Significant progress has been made in the field of gene therapy, but effective treatments for brain tumors remain challenging due to their complex nature. Current treatment options have limitations, especially due to their inability to cross the blood-brain barrier (BBB) and precisely target cancer cells. Therefore options that are safer, more effective, and capable of specifically targeting cancer cells are urgently required as alternatives. This current study aimed to develop highly biocompatible natural biopolymeric chitosan nanoparticles (CNPs) as potential gene delivery vehicles that can cross the BBB and serve as gene or drug delivery vehicles for brain disease therapeutics. The efficiency of the CNPs was evaluated via in vitro transfection of Green Fluorescent Protein (GFP)-tagged plasmid in HEK293-293 and brain cancer MG-U87 cell lines, as well as within in vivo mouse models. The CNPs were prepared via a complex coacervation method, resulting in nanoparticles of approximately 260 nm in size. In vitro cytotoxicity analysis revealed that the CNPs had better cell viability (85%) in U87 cells compared to the chemical transfection reagent (CTR) (72%). Moreover, the transfection efficiency of the CNPs was also higher, as indicated by fluorescent emission microscopy (20.56% vs. 17.79%) and fluorescent-activated cell sorting (53% vs. 27%). In vivo assays using Balb/c mice revealed that the CNPs could efficiently cross the BBB, suggesting their potential as efficient gene delivery vehicles for targeted therapies against brain cancers as well as other brain diseases for which the efficient targeting of a therapeutic load to the brain cells has proven to be a real challenge.

Therapeutic Potential and Molecular Mechanisms of the Multitargeted Flavonoid Fisetin.

Flavonoids effectively treat cancer, inflammatory disorders (cardiovascular and nervous systems), and oxidative stress. Fisetin, derived from fruits and vegetables, suppresses cancer growth by altering cell cycle parameters that lead to cell death and angiogenesis without affecting healthy cells. Clinical trials are needed in humans to prove the effectiveness of this treatment for a wide range of cancers. According to the results of this study, fisetin can be used to prevent and treat a variety of cancers. Despite early detection and treatment advances, cancer is the leading cause of death worldwide. We must take proactive steps to reduce the risk of cancer. The natural flavonoid fisetin has pharmacological properties that suppress cancer growth. This review focuses on the potential drug use of fisetin, which has been extensively explored for its cancer-fighting ability and other pharmacological activities such as diabetes, COVID-19, obesity, allergy, neurological, and bone disorders. Researchers have focused on the molecular function of fisetin. In this review, we have highlighted the biological activities against chronic disorders, including cancer, metabolic illnesses, and degenerative illnesses, of the dietary components of fisetin.

Prevalence Of Human Adenovirus In Paediatric Patients Presenting With Acute Respiratory Symptoms At Different Hospitals Of Pakistan.

BACKGROUND: Human Adenovirus (HAdV) is one of the most common causes of infection in children. HAdV commonly affects respiratory system, however can also involve other parts of the body like nervous system, eyes and urinary tract. The virus usually causes a mild infection of the lower and upper respiratory tract. Objective of the study was to find the prevalence of HAdV in paediatric patients presenting with Influenza like symptoms and severe acute respiratory illness across Pakistan. METHODS: This cross-sectional study was conducted at the National Institute of Health, Islamabad. Respiratory swabs were collected from 389 children with age less than five years from 14 hospitals in different regions of Pakistan from October 1, 2017 to September 30, 2018. Patients' demographics, signs and symptoms were recorded through a predesigned proforma while Real-time polymerase chain reaction (RT-PCR) was performed for respiratory samples. RESULTS: Out of all 389 samples, HAdV was found in 25 (6.4%) cases. The proportion of HAdV obtained was greater in females 18 (4.6%) than male 7 (1.8%). The influenza-like illness in children attending outpatient department had a higher prevalence of HAdV 13 (3.3%) compared to admitted children 12 (3.1%). Similarly, patients from one to 6 months of age had higher positive outcome than older children. Majority of positive patients were from Islamabad (2.0%) followed by Gilgit (1.8%), Azad Jammu Kashmir (1.0%), Multan (0.5%), and Karachi (0.5%). The most frequent signs and symptoms were cough, fever, sore throat, nasal congestion and shortness of breath. CONCLUSIONS: The present study concludes that HAdV infection is common in Pakistan especially in female patients aged 1-6 months. It's crucial to improve the diagnosis of HAdV infections in our country to prevent complications associated with the virus. Furthermore, genetic analysis may help find different genotypes of HAdV circulating in Pakistan.

Effectiveness Of Pcr Pool Testing For Screening Of Covid-19 Infection In Pakistan.

BACKGROUND: We tested the utility of mini-pool PCR testing for the rational use of PCR consumables in screening for CoViD-19. METHODS: After pilot experiments, 3-samples pool size was selected. One step RT-PCR was performed. The samples in the mini-pool having COVID gene amplification were tested individually. RESULTS: 1548 samples tested in 516 mini-pools resulted 396 mini-pools as negative and 120 as positive. Upon individual testing, 110 samples tested positive and 9 were inconclusive. 876 PCR reactions were performed to test 1548 samples, saving 43% PCR reagents. Centres with low prevalence resulted in most saving on reagents (50%), while centres with high prevalence resulted in more test reactions. Testing of individual samples resulted in delays in reporting. CONCLUSIONS: Pooling can increase lab capacity, however, pooling delays results and cause degradation of samples.

Influence of systolic blood pressure on outcomes in Nigerians with peripartum cardiomyopathy.

Background: The relationship between blood pressure (BP) trajectories and outcomes in patients with peripartum cardiomyopathy (PPCM) is not clear. Aim: The study aimed to assess the clinical features and outcomes (all-cause mortality and unrecovered left ventricular [LV] systolic function) of PPCM patients grouped according to their baseline systolic BP (SBP). Patients and Methods: PPCM patients presenting to 14 tertiary hospitals in Nigeria were consecutively recruited between June 2017 and March 2018 and then followed up till March 2019. SBP at first presentation was used to categorize the patients into seven groups: <90, 90-99, 100-109, 110-119, 120-129, 130-139, and ≥140 mmHg. Unrecovered LV systolic function was defined as echocardiographic LV ejection fraction (LVEF) below 55% at the last profiling. Results: Two hundred and twenty-seven patients were recruited and followed up for a median of 18 months. Of these, 4.0% had <90 mmHg, 16.3% had 90-99 mmHg, 24.7% had 100-109 mmHg, 24.7% had 110-119 mmHg, 18.5% had 120-129 mmHg, 7.5% had 130-139 mmHg, and 4.4% had ≥140 mmHg of SBP at presentation. The highest frequency of all-cause mortality was recorded among patients with SBP ≤90 mmHg (30.8%) followed by those with 90-99 mmHg (20.5%) (P = 0.076), while unrecovered LV systolic function did not differ significantly between the groups (P = 0.659). In a Cox proportional regression model for all-cause mortality, SBP <90 mmHg had a hazard ratio (HR) of 4.00 (95% confidence interval [CI] 1.49-10.78, P = 0.006), LVEF had an HR of 0.94 (95% CI 0.91-0.98, P = 0.003, B = 0.06%), and use of angiotensin-converting enzyme or angiotensin receptor and/or ß-receptor blockers had an HR of 1.71 (95% CI 0.93-3.16, P = 0.085). However, SBP was not associated with LV function recovery. Conclusion: In our cohort of PPCM patients, one-fifth was hypotensive at presentation. SBP <90 mmHg at presentation was associated with a four-fold higher risk of all-cause mortality during a median follow-up of 18 months.

Impact of Parity on Cardiac Structure and Function in Apparently Healthy Pregnant Nigerian Women.

BACKGROUND: There are few and conflicting reports in the literature about the relationship between parity and maternal cardiac function. The study aimed to assess the impact of parity on cardiac structure and function in apparently healthy pregnant women in Nigeria. METHODS: This was a cross-sectional study carried out in 3 tertiary centers in Kano, and 1 in Ile-Ife, Nigeria. 112 apparently healthy pregnant women were consecutively recruited between the 28th and 38th weeks of gestation, and their cardiac structure and function assessed using echocardiography. Left ventricular (LV) systolic dysfunction was defined as LV ejection fraction of below 50%, and diastolic dysfunction was graded using mitral filling and tissue Doppler velocities. RESULTS: LV systolic dysfunction and diastolic dysfunction were found in 6 (5.4%) subjects and 20 (17.9%) subjects, respectively. Age (p= <0.0001), left atrial (LA) size (P<0.0001), interventricular septal thickness at end diastole (IVSD) (p= 0.005), posterior wall thickness at end diastole (PWTD) (p=0.004) and QRS duration (p= <0.0001) all increased progressively with higher parity, while tricuspid annular systolic excursion (p=0.320) decreased with higher parity. There was significant positive correlation between parity and age (r= 0.475, p= <0.0001), LA size (r=0.332, p= <0.0001), IVSD (r=0.264, p= 0.005) and PWTD (r= 0.343, p= <0.0001). LV systolic function was not significantly associated with parity. CONCLUSION: Our findings suggested that parity was significantly associated with myocardial remodeling in apparently healthy pregnant women.

CONTEXTE: Il existe peu de données contradictoires dans la littérature sur la relation entre la parité et la fonction cardiaque maternelle. L'étude visait à évaluer l'impact de la parité sur la structure et la fonction cardiaques chez des femmes enceintes apparemment en bonne santé au Nigeria. METHODES: Il s'agissait d'une étude transversale menée dans 3 centres tertiaires à Kano et 1 à Ile-Ife, au Nigeria. 112 femmes enceintes apparemment en bonne santé ont été recrutées consécutivement entre la 28* et la 38* semaine de gestation, et leur structure et fonction cardiaques ont été évaluées par échocardiographie. La dysfonction systolique du ventricule gauche (VG) a été définie comme une fraction d'éjection du VG inférieure à 50 %, et la dysfonction diastolique a été graduée en utilisant le remplissage mitral et les vitesses Doppler tissulaires. RESULTATS: Un dysfonctionnement systolique VG et un dysfonctionnement diastolique ont été trouvés chez 6 (5,4 %) sujets et 20 (17,9 %) sujets respectivement. Âge (p=<0,0001), taille de l'oreillette gauche (LA) (P<0,0001), épaisseur du septum interventriculaire en fin de diastole (IVSD) (p=0,005), épaisseur de la paroi postérieure en fin de diastole (PWTD)(p=0,004) et La durée du QRS (p = <0,0001) a augmenté progressivement avec une parité plus élevée, tandis que l'excursion systolique annulaire tricuspide (p = 0,320) a diminué avec une parité plus élevée. Il y avait une corrélation positive significative entre la parité et l'âge (r = 0,475, p = <0,0001), la taille LA (r = 0,332, p = <0,0001), IVSD (r = 0,264, p = 0,005) et PWTD (r = 0,343, p=<0,0001). La fonction systolique VG était associée à la parité. CONCLUSION: Nos résultats suggèrent que la parité est significativement associée au remodelage du myocarde chez les femmes enceintes apparemment en bonne santé. n'était pas significatif. Mots clés: Grossesse, Parité, Structure Cardiaque, Registre peace.

Recent advances and limitations of mTOR inhibitors in the treatment of cancer.

The PI3K-Akt-mechanistic (formerly mammalian) target of the rapamycin (mTOR) signaling pathway is important in a variety of biological activities, including cellular proliferation, survival, metabolism, autophagy, and immunity. Abnormal PI3K-Akt-mTOR signalling activation can promote transformation by creating a cellular environment conducive to it. Deregulation of such a system in terms of genetic mutations and amplification has been related to several human cancers. Consequently, mTOR has been recognized as a key target for the treatment of cancer, especially for treating cancers with elevated mTOR signaling due to genetic or metabolic disorders. In vitro and in vivo, rapamycin which is an immunosuppressant agent actively suppresses the activity of mTOR and reduces cancer cell growth. As a result, various sirolimus-derived compounds have now been established as therapies for cancer, and now these medications are being investigated in clinical studies. In this updated review, we discuss the usage of sirolimus-derived compounds and other drugs in several preclinical or clinical studies as well as explain some of the challenges involved in targeting mTOR for treating various human cancers.

An Overview on Rumex dentatus L.: Its Functions as a Source of Nutrient and Health-Promoting Plant.

Rumex dentatus L. (Polygonaceae), also known as toothed dock or Aegean dock, is a medicinal plant with a high culinary value in addition to being used as an ethnomedicinal plant. This review focuses on the botanical, nutritional, phytochemical, and pharmacological activities of R. dentatus, as well as the future prospects for systematic investigations into these areas. R. dentatus has been subjected to scientific evaluation, which has confirmed its traditional uses and demonstrated a wide range of biological and pharmacological potentials, including antioxidant, anticancer, antifungal, antibacterial, anti-inflammatory, and other biological properties. Phytochemical analyses showed the presence of anthraquinones, chromones, flavonoids, and essential oils. As a result of this current review, the medicinal significance of R. dentatus has been confirmed, and future research on its unexplored aspects, such as the identification of pharmacologically active chemical constituents and related mechanisms and safety, may be stimulated, with the goal of developing it into a drug.

Targeting Ras-ERK cascade by bioactive natural products for potential treatment of cancer: an updated overview.

MAPK (mitogen-activated protein kinase) or ERK (extracellular-signal-regulated kinase) pathway is an important link in the transition from extracellular signals to intracellular responses. Because of genetic and epigenetic changes, signaling cascades are altered in a variety of diseases, including cancer. Extant studies on the homeostatic and pathologic behavior of MAPK signaling have been conducted; however, much remains to be explored in preclinical and clinical research in terms of regulation and action models. MAPK has implications for cancer therapy response, more specifically in response to experimental MAPK suppression, compensatory mechanisms are activated. The current study investigates MAPK as a very complex cell signaling pathway that plays roles in cancer treatment response, cellular normal conduit maintenance, and compensatory pathway activation. Most MAPK inhibitors, unfortunately, cause resistance by activating compensatory feedback loops in tumor cells and tumor microenvironment components. As a result, innovative combinatorial treatments for cancer management must be applied to limit the likelihood of alternate pathway initiation as a possibility for generating novel therapeutics based on incorporation in translational research. We summarize current knowledge about the implications of ERK (MAPK) in cancer, as well as bioactive products from plants, microbial organisms or marine organisms, as well as the correlation with their chemical structures, which modulate this pathway for the treatment of different types of cancer.

Nanoparticles in clinical trials of COVID-19: An update.

Once the World Health Organization (WHO) declared the COVID-19 (Coronavirus Infectious Disease-19) outbreak to be pandemic, massive efforts have been launched by researchers around the globe to combat this emerging infectious disease. Strategies that must be investigated such as expanding testing capabilities, developing effective medicines, as well as developing safe and effective vaccines for COVID-19 disease that produce long-lasting immunity to human system. Now-a-days, bio-sensing, medication delivery, imaging, and antimicrobial treatment are just a few of the medical applications for nanoparticles (NPs). Since the early 1990s, nanoparticle drug delivery methods have been employed in clinical trials. Since then, the discipline of nanomedicine has evolved in tandem with expanding technological demands to better medicinal delivery. Newer generations of NPs have emerged in recent decades that are capable of performing additional delivery tasks, allowing for therapy via novel therapeutic modalities. Many of these next generation NPs and associated products have entered clinical trials and have been approved for diverse indications in the present clinical environment. For systemic applications, NPs or nanomedicine-based drug delivery systems have substantial benefits over their non-formulated and free drug counterparts. Nanoparticle systems, for example, are capable of delivering medicines and treating parts of the body that are inaccessible to existing delivery systems. As a result, NPs medication delivery is one of the most studied preclinical and clinical systems. NPs-based vaccines delivering SARS-CoV-2 antigens will play an increasingly important role in prolonging or improving COVID-19 vaccination outcomes. This review provides insights about employing NPs-based drug delivery systems for the treatment of COVID-19 to increase the bioavailability of current drugs, reducing their toxicity, and to increase their efficiency. This article also exhibits their capability and efficacy, and highlighting the future aspects and challenges on nanoparticle products in clinical trials of COVID-19.

Synthesis, characterization, antioxidant, antileishmanial, anticancer, DNA and theoretical SARS-CoV-2 interaction studies of copper(II) carboxylate complexes.

Copper(II) carboxylate complexes [Cu2(OOCR)4L2] (1) and [Cu2(OOCR`)4OCO(R`)CuL2]n (2), where L = 2-methyl pyridine, R = 2-chlorophenyl acetate and R` = 2-fluorophenyl acetate were synthesized and characterized by FT-IR spectroscopy and single crystal X-ray analysis. Complex 1 exhibits the typical paddlewheel array of a dinuclear copper(II) complex with carboxylate ligands. In complex 2, this scaffold is further extended into a polymeric arrangement based on alternate paddlewheel and square planar moieties with distinct coordination spheres. The complexes showed better 2,2-diphenyl-1-picrylhydrazyl (DPPH) and hydroxyl radical scavenging activities and have been found to be more potent antileishmanial agents than their corresponding free ligand acid species. UV-Vis absorption titrations revealed good DNA binding abilities {Kb = 9.8 × 104 M-1 (1) and 9.9 × 104 M-1 (2)} implying partial intercalation of the complexes into DNA base pairs along with groove binding. The complexes displayed in vitro cytotoxic activity against malignant glioma U-87 (MG U87) cell lines. Computational docking studies further support complex-DNA binding by intercalation. Molecular docking investigations revealed probable interactions of the complexes with spike protein, the nucleocapsid protein of SARS-CoV-2 and with the angiotensin converting enzyme of human cells.

COVID-19 Infection in Pregnancy: A Review.

Coronavirus disease 2019 (COVID-19), which is a highly contagious viral illness caused by the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), has had a catastrophic effect on the world's demographics, resulting in more than 3.8 million deaths worldwide and establishing itself as the most serious global health crisis since the 1918 influenza pandemic. Several questions remain unanswered regarding the effects of COVID-19 disease during pregnancy. Although most infections are mild in high-risk populations, the severe disease frequently leads to intubation, intensive care unit admission, and, in some cases, death. Hormonal and physiological changes in the immune and respiratory systems, cardiovascular function, and coagulation may affect the progression of COVID-19 disease in pregnancy. However, the consequences of coronavirus infection on implantation, fetal growth and development, labor, and newborn health have yet to be determined, and, consequently, a coordinated global effort is needed in this respect. Principles of management concerning COVID-19 in pregnancy include early isolation, aggressive infection control procedures, oxygen therapy, avoidance of fluid overload, consideration of empiric antibiotics (secondary to bacterial infection risk), laboratory testing for the virus and co-infection, fetal and uterine contraction monitoring, prevention, and / or treatment of thromboembolism early mechanical ventilation for progressive respiratory failure, individualized delivery planning, and a team-based approach with multispecialty consultations. This review focuses on COVID-19 during pregnancy, its management, and the area where further investigations are needed to reduce the risk to mothers and their newborns.

Synthesis, anticancer evaluation and molecular docking studies of methotrexate's novel Schiff base derivatives against malignant glioma cell lines.

Recent years have witnessed advancement in cancer research that has led to the development of improved cytotoxic therapies with reduced side effects. Methotrexate (MTX) is a commonly used anticancer drug having robust activity, but with serious side effects. Several derivatives of MTX have been reported by modification at different sites to reduce its side effects and enhance efficacy. The current work describes the development of active MTX Schiff base derivatives by treating MTX with several aldehydes viz 2-chlorobenzaldehyde, 3-nitrobenzaldehyde, 5-chloro-2-hydroxybenz-aldehyde, 2-hydroxy-5-nitrobenzaldehyde, 2-thiocarboxyaldehyde, trans-2-pentenal and glutaraldehyde. Newly synthesized derivatives were evaluated for their anticancer potential against human malignant glioma U87 (MG-U87) cell lines at different concentrations of 200 µM, 100 µM, 50 µM, 25 µM, 12.5 µm, 6.25 µm and 0 µM. MTX derivatives with 2-Chlorobenzaldehyde (IC50 ∼100 µM), 2-Thiocarboxyaldehyde (IC50 <200 µM) and 2- Pentenal (IC50 ∼250 µM) showed much better activity at 100 µM compared to 400 µM concentration of MTX. Molecular docking studies were performed that showed a good correlation with the results obtained from in vitro experiments. The excellent agreement between molecular modeling and growth inhibition assay shows that the binding mode hypothesis is justly close to the experimentally biological values, therefore, may prove helpful for further lead optimization and clinical trials.Communicated by Ramaswamy H. Sarma.

Anticancer effects of acteoside: Mechanistic insights and therapeutic status.

Cancer, the uncontrolled proliferation and metastasis of abnormal cells, is a major public health issue worldwide. To date, several natural compounds have been reported with their efficacy in the treatment of different types of cancer. Chemotherapeutic agents are used in cancer treatment and prevention, among other aspects. Acteoside is a phenylethanoid glycoside, first isolated from Verbascum sinuatum, which has demonstrated multiple effects, including antioxidant, anti-epileptic, neuroprotective, anti-inflammatory, antifungal, antihypertensive, and anti-leishmanial properties. This review gathered, analyzed, and summarized the literature on acteoside and its anticancer properties. All the available information about this compound and its role in different types of cancer was collected using different scientific search engines, including PubMed, Scopus, Springer Link, Wiley Online, Web of Science, Scifinder, ScienceDirect, and Google Scholar. Acteoside is found in a variety of plants and has been shown to have anticancer activity in many experimental models through oxidative stress, apoptosis, anti-angiogenesis, anti-invasion, anti-metastasis, synergism with other agents, and anti-proliferative effects through modulation of several pathways. In conclusion, acteoside exhibited potent anticancer activity against different cancer cell lines through modulating several cancer signaling pathways in different non- and pre-clinical experimental models and thus could be a strong candidate for further clinical studies.

Prognostic implications of microRNA-21 overexpression in pancreatic ductal adenocarcinoma: an international multicenter study of 686 patients.

Despite progress in genomic characterization, no single prognostic marker that can be evaluated using an easy-to-perform and relatively inexpensive method is available for pancreatic ductal adenocarcinoma (PDAC). MicroRNAs, which are stable, tumor- and tissue-specific molecules, are potentially ideal biomarkers, and we established an inter-laboratory validated method to investigate miR-21 as a prognostic biomarker in PDAC. The study samples of PDAC patients were recruited from a test cohort of Glasgow (n = 189) and three validation cohorts of Pisa (n = 69), Sydney (n = 249), and International Cancer Genome Consortium (ICGC) (n = 249). Tissue microarrays were used for miR-21 staining by chromogenic in situ hybridization (CISH). The patients were subdivided into no/low and high miR-21 staining groups using a specific histoscore. Furthermore, miR-21 staining was evaluated against clinicopathological variables and follow-up data by Fisher/log-rank test and Cox proportional models. The prognostic variables found to be significant in univariate analysis (P value < 0.10) were included in multivariate analysis in a backward-stepwise fashion. MiR-21 expression was cytoplasmic, with more consistent staining in the malignant ductal epithelium than in the stroma. The expression of miR-21 was significantly associated with tumor size and lymph node metastasis, whereas no association was observed with other clinicopathological variables. High miR-21 staining (histoscore ≥ 45 [median score]) was an independent predictor of survival in the Glasgow test cohort (HR 2.37, 95% CI: 1.42-3.96, P < 0.0001) and three validation cohorts (Pisa, HR 2.03, 95% CI: 1.21-3.39, P = 0.007; Sydney, HR 2.58, 95% CI (1.21-3.39), P < 0.0001; and ICGC, HR 3.34, 95% CI: 2.07-5.84, P = 0.002) when adjusted for clinical variables in a multivariate model. In comparison to the patients with low miR-21, the patients with high miR-21 expression had significant increase in OS as they benefit from gemcitabine-based adjuvant chemotherapy (Glasgow 16.5 months [with chemotherapy] vs 10.5 months [without chemotherapy]); Sydney 25.0 vs 10.6; ICGC 25.2 vs 11.9. These results indicated that miR-21 is a predictor of survival, prompting prospective trials. Evaluation of miR-21 offers new opportunities for the stratification of patients with PDAC and might facilitate the implementation of clinical management and therapeutic interventions for this devastating disease.

Health promoting benefits of pongamol: An overview.

Plant-derived chemicals are a source of novel chemotherapeutic agents. Throughout the human civilization, these novel chemicals have led to the discovery of new pharmacological active agents. Research on herbal medicine is of great importance, as most of the active agents used for treating numerous diseases are from natural sources, while other agents are either semisynthetic or synthetic. Pongamol, a flavonoid, which is the main constituent of Pongamia pinnata, is one such active agents, which exhibits diverse pharmacological activities. Various in vivo and in vitro studies revealed that pongamol is a potentially active agent, as it exerts anticancer, anti-inflammatory, antioxidant, antimicrobial, and anti-diabetic activities. Accordingly, the aim of the present review was to give an up-to-date overview on the chemistry, isolation, bioavailability, pharmacological activity, and health benefits of pongamol. This review focuses on the medicinal and health promoting activities of pongamol, along with possible mechanisms of action. For this purpose, this review summarizes the most recent literature pertaining to pongamol as a therapeutic agent against several diseases. In addition, the review covers information related to the toxicological assessment and safety of this phytochemical, and highlights the medicinal and folk values of this compound against various diseases and ailments.

Role of Withaferin A and Its Derivatives in the Management of Alzheimer's Disease: Recent Trends and Future Perspectives.

Globally, Alzheimer's disease (AD) is one of the most prevalent age-related neurodegenerative disorders associated with cognitive decline and memory deficits due to beta-amyloid deposition (Aß) and tau protein hyperphosphorylation. To date, approximately 47 million people worldwide have AD. This figure will rise to an estimated 75.6 million by 2030 and 135.5 million by 2050. According to the literature, the efficacy of conventional medications for AD is statistically substantial, but clinical relevance is restricted to disease slowing rather than reversal. Withaferin A (WA) is a steroidal lactone glycowithanolides, a secondary metabolite with comprehensive biological effects. Biosynthetically, it is derived from Withania somnifera (Ashwagandha) and Acnistus breviflorus (Gallinero) through the mevalonate and non-mevalonate pathways. Mounting evidence shows that WA possesses inhibitory activities against developing a pathological marker of Alzheimer's diseases. Several cellular and animal models' particulates to AD have been conducted to assess the underlying protective effect of WA. In AD, the neuroprotective potential of WA is mediated by reduction of beta-amyloid plaque aggregation, tau protein accumulation, regulation of heat shock proteins, and inhibition of oxidative and inflammatory constituents. Despite the various preclinical studies on WA's therapeutic potentiality, less is known regarding its definite efficacy in humans for AD. Accordingly, the present study focuses on the biosynthesis of WA, the epidemiology and pathophysiology of AD, and finally the therapeutic potential of WA for the treatment and prevention of AD, highlighting the research and augmentation of new therapeutic approaches. Further clinical trials are necessary for evaluating the safety profile and confirming WA's neuroprotective potency against AD.

Targeting cancer cells with nanotherapeutics and nanodiagnostics: Current status and future perspectives.

Nanotechnology is reshaping health care strategies and is expected to exert a tremendous impact in the coming years offering better healthcare facilities. It has led to not only therapeutic drug delivery feasibility but also to diagnostics. Materials in the size of nano range (1-100 nm) used in the design, fabrication, regulation, and application of therapeutic drugs or devices are classified as medical nanotechnology and nanopharmacology. Delivery of more complex molecules to the specific site of action as well as gene therapy has pushed forward the nanoparticle-based drug delivery to its maximum. Areas that benefit from nano-based drug delivery systems are cancer, diabetes, infectious diseases, neurodegenerative diseases, blood disorders and orthopedic-related ailments. Moreover, development of nanotherapeutics with multi-functionalities has a considerable potential to fill the gaps that exist in the present therapeutic domain. In cancer treatment, nanomedicines have superiority over current therapeutic practices as they can effectively deliver the drug to the affected tissues, thus reducing drug toxicities. Along this line, polymeric conjugates of asparaginase and polymeric micelles of paclitaxel have recently been recommended for the treatment of various types of cancers. Nanotechnology-based therapeutics and diagnostics provide greater effectiveness with less or no toxicity concerns. Similarly, diagnostic imaging holds promising future applications with newer nano-level imaging elements. Advancements in nanotechnology have emerged to a newer direction which use nanorobotics for various applications in healthcare. Accordingly, this review comprehensively highlights the potentialities of various nanocarriers and nanomedicines for multifaceted applications in diagnostics and drug delivery, especially the potentialities of polymeric nanoparticle, nanoemulsion, solid-lipid nanoparticle, nanostructured lipid carrier, self-micellizing anticancer lipids, dendrimer, nanocapsule and nanosponge-based therapeutic approaches in the field of cancer. Furthermore, this article summarizes the most recent literature pertaining to the use of nano-technology in the field of medicine, particularly in treating cancer patients.

Nanomaterials multifunctional behavior for enlightened cancer therapeutics.

Cancer is an outrageous disease with uncontrolled differentiation, growth, and migration to the other parts of the body. It is the second-most common cause of death both in the U.S. and worldwide. Current conventional therapies, though much improved and with better prognosis, have several limitations. Chemotherapeutic agents, for instance, are cytotoxic to both tumor and healthy cells, and the non-specific distribution of drugs at tumor sites limits the dose administered. Nanotechnology, which evolved from the coalescence and union of varied scientific disciplines, is a novel science that has been the focus of much research. This technology is generating more effective cancer therapies to overcome biomedical and biophysical barriers against standard interventions in the body; its unique magnetic, electrical, and structural properties make it a promising tool. This article reviews endogenous- and exogenous-based stimulus-responsive drug delivery systems designed to overcome the limitations of conventional therapies. The article also summarizes the study of nanomaterials, including polymeric, gold, silver, magnetic, and quantum dot nanoparticles. Though an array of drug delivery systems has so far been proposed, there remain many challenges and concerns that should be addressed in order to fill the gaps in the field. Prominence is given to drug delivery systems that employ external- and internal-based stimuli and that are emerging as promising tools for cancer therapeutics in clinical settings.