Risk Factors for Bladder Cancer: Results of a Survey of Hospital Patients

Introduction: Several risk factors have been identified in the occurrence of bladder cancer. These include genetic and hereditary factors, smoking and tobacco use, increased body mass index, occupational exposure to certain chemicals and dyes, medical conditions such as chronic cystitis and infectious diseases such as schistosomiasis. This study aimed to evaluate risk factors in patients with bladder cancer. Materials and Methods: All patients presenting to the uro-oncology department of the hospital with imaging and histology confirmed bladder cancer were included in the study. Age- and gender-matched patients presenting to the department of urology with benign disorders were prospectively included as controls. All the study subjects and the controls completed a self-administered structured questionnaire. Results: Seventy-two (67.3%) of the participants with bladder cancer were males. The mean age of participants with bladder cancer was 59.24 ± 16.28 years. Most participants with bladder cancer worked as farmers (35.5%) or industrial workers (24.3%). Recent history of recurrent urinary tract infections was seen in 85 (79.4%) of the participants with bladder cancer and 32 (30.8%) of controls. Diabetes mellitus was more common among participants with bladder cancer. A significant number of participants with bladder cancer used tobacco and smoked compared to controls. Conclusions: This study highlights numerous potential biological and epidemiological factors that may act as a risk factors for bladder cancer. These factors could explain the gender differences observed in the incidence of bladder cancer. In addition, the study indicates the intense

Thoracic epidural for modified radical mastectomy in an asthmatic patient

Thoracic epidural anaesthesia is one of the safe and good alternative to general anaesthesia in high risk patients of chronic obstructive pulmonary disease and asthma where general anaesthesia is contraindicated. A 55 years old female patient was scheduled for modified radical mastectomy on account of advanced carcinoma of right breast. The patient was known case of bronchial asthma since 5 years with frequent attacks per week for which she was taking nebulisation with salbutamol and budesonide two times per day. In the pre-operative evaluation, her vitals were within normal limit but on auscultation air entry was reduced all over the chest with bilateral crepts and rhochi present. We did this patient in plaine thoracic epidural anaesthesia without haemodynamic instability. Thoracic epidural anaesthesia and analgesia for mastectomy is feasible, and it offers additional benefits in high-risk patients

Lactobacillus plantarum (VR1) isolated from an Ayurvedic medicine (Kutajarista) ameliorates in vitro cellular damage caused by Aeromonas veronii

<p>Abstract</p> <p>Background</p> <p><it>Lactobacillus plantarum </it>is considered as a safe and effective probiotic microorganism. Among various sources of isolation, traditionally fermented foods are considered to be rich in <it>Lactobacillus </it>spp., which can be exploited for their probiotic attribute. Antibacterial property of <it>L. plantarum </it>has been demonstrated against various enteric pathogens in both <it>in vitro </it>and <it>in vivo </it>systems. This study was aimed at characterizing <it>L. plantarum </it>isolated from Kutajarista, an ayurvedic fermented biomedicine, and assessing its antagonistic property against a common enteropathogen <it>Aeromonas veronii</it>.</p> <p>Results</p> <p>We report the isolation of <it>L. plantarum </it>(VR1) from Kutajarista, and efficacy of its cell free supernatant (CFS) in amelioration of cytotoxicity caused by <it>Aeromonas veronii</it>. On the part of probiotic attributes, VR1 was tolerant to pH 2, 0.3% bile salts and simulated gastric juice. Additionally, VR1 also exhibited adhesive property to human intestinal HT-29 cell line. Furthermore, CFS of VR1 was antibacterial to enteric pathogens like <it>Pseudomonas aeruginosa, Staphylococcus aureus, Escherichia coli</it>, <it>Aeromonas veronii </it>and clinical isolates of <it>P. aeruginosa </it>and <it>E. coli</it>. Detailed study regarding the effect of VR1 CFS on <it>A. veronii </it>cytotoxicity showed a significant decrease in vacuole formation and detrimental cellular changes in Vero cells. On the other hand, <it>A. veronii </it>CFS caused disruption of tight junction proteins ZO-1 and actin in MDCK cell line, which was prevented by pre-incubation with CFS of VR1.</p> <p>Conclusions</p> <p>This is the first study to report isolation of <it>L. plantarum </it>(VR1) from Kutajarista and characterisation for its probiotic attributes. Our study demonstrates the antagonistic property of VR1 to <it>A. veronii </it>and effect of VR1 CFS in reduction of cellular damage caused by <it>A. veronii </it>in both Vero and MDCK cell lines.</p

Cardiac transcriptional and metabolic changes following thoracotomy

Non-cardiac surgery is associated with significant cardiovascular complications. Reported mortality rate ranges from 1.9% to 4% in unselected patients. A postoperative surge in pro-inflammatory cytokines is a well-known feature and putative contributor to these complications. Despite much clinical research, little is known about the biomolecular changes in cardiac tissue following non-cardiac surgery. In order to increase our understanding, we analyzed whole-transcriptional and metabolic profiling data sets from hearts of mice harvested two, four, and six weeks following isolated thoracotomy. Hearts from healthy litter-mates served as controls. Functional network enrichment analyses showed a distinct impact on cardiac transcription two weeks after surgery characterized by a downregulation of mitochondrial pathways in the absence of significant metabolic alterations. Transcriptional changes were not detectable four and six weeks following surgery. Our study shows distinct and reversible transcriptional changes within the first two weeks following isolated thoracotomy. This coincides with a time period, in which most cardiovascular events happen

Diagnosis of Oral Cancers by Targeting VPAC Receptors: Preliminary Report

Introduction: Oral cancer is a major health problem. The study of exfoliative cytology material helps in the differentiation of premalignant and malignant alterations of oral lesions. The objective of this study was to assess the feasibility of detecting oral cancer by targeting genomic VPAC (combined vasoactive intestinal peptide (VIP) and pituitary adenylate cyclase-activating peptide) receptors expressed on malignant oral cancer cells. Patients & methods: All patients with suspected oral cavity cancers/lesions formed the study group. The samples from the oral cavity lesion or suspicious area were collected with a cytology brush. The harvested material was examined for malignant cells by 1. the standard PAP stain and 2. targeting the VPAC receptors on the cell surface using a fluorescent microscope. Similarly, malignant cells were identified from cells shed in oral gargles. Results: A total of 60 patients with oral lesions were included in the study. The histopathological diagnosis was squamous cell carcinoma in 30 of these. The VPAC receptor positivity both on the brush cytology staining as well oral gargle staining was more sensitive than the brush cytology PAP staining. The accuracy of the various techniques was as follows, brush cytology PAP staining at 86.67%, brush cytology VPAC staining at 91.67% and oral gargle VPAC staining at 95%. Conclusions: This preliminary study validates our belief that malignant cells in the saliva can be identified by targeting the VPAC receptors. The test is simple, easy, non-invasive and reliable in the detection of oral cancers

Fibin regulates cardiomyocyte hypertrophy and causes protein-aggregate-associated cardiomyopathy in vivo

Despite the identification of numerous molecular pathways modulating cardiac hypertrophy its pathogenesis is not completely understood. In this study we define an unexpected role for Fibin (“fin bud initiation factor homolog”) in cardiomyocyte hypertrophy. Via gene expression profiling in hypertrophic murine hearts after transverse aortic constriction we found a significant induction of Fibin. Moreover, Fibin was upregulated in another mouse model of cardiac hypertrophy (calcineurin-transgenics) as well as in patients with dilated cardiomyopathy. Immunoflourescence microscopy revealed subcellular localization of Fibin at the sarcomeric z-disc. Overexpression of Fibin in neonatal rat ventricular cardiomyocytes revealed a strong anti-hypertrophic effect through inhibiting both, NFAT- and SRF-dependent signalling. In contrast, transgenic mice with cardiac-restricted overexpression of Fibin developed dilated cardiomyopathy, accompanied by induction of hypertrophy-associated genes. Moreover, Fibin overexpression accelerated the progression to heart failure in the presence of prohypertrophic stimuli such as pressure overload and calcineurin overexpression. Histological and ultrastructural analyses surprisingly showed large protein aggregates containing Fibin. On the molecular level, aggregate formation was accompanied by an induction of the unfolded protein response subsequent UPR-mediated apoptosis and autophagy. Taken together, we identified Fibin as a novel potent negative regulator of cardiomyocyte hypertrophy in vitro. Yet, heart-specific Fibin overexpression in vivo causes development of a protein-aggregate-associated cardiomyopathy. Because of close similarities to myofibrillar myopathies, Fibin represents a candidate gene for cardiomyopathy and Fibin transgenic mice may provide additional mechanistic insight into aggregate formation in these diseases

Adiponutrin Functions as a Nutritionally Regulated Lysophosphatidic Acid Acyltransferase

SummaryNumerous studies in humans link a nonsynonymous genetic polymorphism (I148M) in adiponutrin (ADPN) to various forms of fatty liver disease and liver cirrhosis. Despite its high clinical relevance, the molecular function of ADPN and the mechanism by which I148M variant affects hepatic metabolism are unclear. Here we show that ADPN promotes cellular lipid synthesis by converting lysophosphatidic acid (LPA) into phosphatidic acid. The ADPN-catalyzed LPA acyltransferase (LPAAT) reaction is specific for LPA and long-chain acyl-CoAs. Wild-type mice receiving a high-sucrose diet exhibit substantial upregulation of Adpn in the liver and a concomitant increase in LPAAT activity. In Adpn-deficient mice, this diet-induced increase in hepatic LPAAT activity is reduced. Notably, the I148M variant of human ADPN exhibits increased LPAAT activity leading to increased cellular lipid accumulation. This gain of function provides a plausible biochemical mechanism for the development of liver steatosis in subjects carrying the I148M variant

MicroRNAs in pulmonary arterial remodeling

Pulmonary arterial remodeling is a presently irreversible pathologic hallmark of pulmonary arterial hypertension (PAH). This complex disease involves pathogenic dysregulation of all cell types within the small pulmonary arteries contributing to vascular remodeling leading to intimal lesions, resulting in elevated pulmonary vascular resistance and right heart dysfunction. Mutations within the bone morphogenetic protein receptor 2 gene, leading to dysregulated proliferation of pulmonary artery smooth muscle cells, have been identified as being responsible for heritable PAH. Indeed, the disease is characterized by excessive cellular proliferation and resistance to apoptosis of smooth muscle and endothelial cells. Significant gene dysregulation at the transcriptional and signaling level has been identified. MicroRNAs are small non-coding RNA molecules that negatively regulate gene expression and have the ability to target numerous genes, therefore potentially controlling a host of gene regulatory and signaling pathways. The major role of miRNAs in pulmonary arterial remodeling is still relatively unknown although research data is emerging apace. Modulation of miRNAs represents a possible therapeutic target for altering the remodeling phenotype in the pulmonary vasculature. This review will focus on the role of miRNAs in regulating smooth muscle and endothelial cell phenotypes and their influence on pulmonary remodeling in the setting of PAH