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Conclusions Differences (conclusion + difference)
Selected AbstractsDifferences in the measured alcohol content of drinks between black, white and Hispanic men and women in a US national sampleADDICTION, Issue 9 2009William C. Kerr ABSTRACT Aims To measure and describe drink alcohol content differences between Hispanic, non-Hispanic white and non-Hispanic black men and women in the United States. Design A telephone survey re-interview of 397 respondents who participated originally in the 2005 National Alcohol Survey, of whom 306 provided complete information on home drinks. Setting United States. Participants Adults aged 18 years and older from across the United States. Measurements Direct measurement by respondents of simulated drink pours in respondents' own glassware using a provided beaker and reported beverage brands were used to calculate drink alcohol content. Findings Black men were found to have the largest overall mean drink alcohol content at 0.79 oz (23 ml) of alcohol. This was significantly larger than the mean for white men or for black women and added 30% to black men's monthly alcohol intake when applied to their reported number of drinks. Spirits drinks were found to be particularly large for men. Multivariate models indicated that drink alcohol content differences are attributable more to income and family structure differences than to unmeasured cultural factors tied to race or ethnicity per se. Models predicting alcohol-related consequences and dependence indicate that adjusting drink alcohol content improves model fit and reduces differences between race/ethnicity defined groups. Conclusions Differences in drink alcohol content by gender, race/ethnicity and beverage type choice should be considered in comparisons of drinking patterns and alcohol-related outcomes. Observed differences can be explained partially by measured characteristics regarding family structure and income. [source] Kinetics of lactate metabolism after submaximal ergometric exercise in HIV-infected patientsHIV MEDICINE, Issue 5 2004A-M Bauer Objectives It is unknown whether high levels of lactate result from enhanced production or decreased degradation. We therefore investigated differences in the kinetics of plasma lactic acid in HIV-infected patients receiving or not receiving highly active antiretroviral therapy (HAART) and in uninfected controls after submaximal ergometric exercise. Methods Ten healthy controls, 11 HIV-infected therapy-naïve patients, 15 HIV-infected patients on HAART with normal baseline lactate levels, and nine HIV-infected patients on HAART with elevated baseline lactate levels >2 mmol/L performed 10 min of ergometric exercise, with a heart rate of 200 beats/min minus age. Lactate levels were measured at baseline, at the end of exercise and 15, 30, 45, 60 and 120 min thereafter. Results Mean baseline lactate levels were 1.4, 1.5, 1.5 and 2.8 mmol/L in the controls, the therapy-naïve patients, the patients on HAART with normal lactate levels and the patients on HAART with elevated lactate levels, respectively. Maximum lactate levels after exercise were similar in all groups (9.7, 9.4, 9.0 and 10.1 mmol/L, respectively). Significant differences were found in the slope of lactate decline between controls and untreated individuals (P=0.038) and between patients on HAART with normal baseline lactate and patients on HAART with elevated baseline lactate (P=0.028). Conclusions Differences in lactate metabolism do exist between healthy controls and HIV-infected therapy-naïve individuals. Thus, HIV infection in itself may influence lactate levels. Elevated baseline lactate levels are associated with a delayed decline of lactate after exercise. These results could be explained by impaired lactate clearance. Lactate production upon exercise does not seem to be affected by baseline lactate levels. [source] Differences in Endolymphatic Sac Mitochondria-Rich Cells Indicate Specific FunctionsTHE LARYNGOSCOPE, Issue 3 2002Theo A. Peters MSc Abstract Objective/Hypothesis The purpose of the study was to examine the specific involvement of endolymphatic sac mitochondria-rich cells in endolymph homeostasis. Study Design Transmission electron microscopy and immunohistochemistry were performed on the endolymphatic sac of young adult rats, and two important developmental stages were also investigated. Methods Ultrastructural characteristics of endolymphatic sac mitochondria-rich cells were studied more concisely and compared with renal mitochondria-rich cells (i.e., the intercalated cells). In addition, expression of cytokeratins 7 and 19 was determined. Results Until birth, only one type of mitochondria-rich cell is observed in the rat endolymphatic sac. In young adult animals, distinct differences in mitochondria-rich cell ultrastructure in the endolymphatic sac enables classification into subtypes or configurations. Comparison of endolymphatic sac mitochondria-rich cells with renal intercalated cells reveals striking similarities and provides additional information on their specific function in endolymph homeostasis. Furthermore, differences in cytokeratin expression are determined in endolymphatic sac mitochondria-rich cells. Conclusions Differences in morphology of endolymphatic sac mitochondria-rich cells develop after birth and may reflect a distinct functional or physiological state of the cell. In analogy to renal intercalated cells, the distribution patterns of H+ -adenosine triphosphatase and Cl,/HCO3, exchanger may differ between subtypes. We propose that subtype A mitochondria-rich cells, from which protruding A mitochondria-rich cells are the activated state, are involved in proton secretion (apical H+ -adenosine triphosphatase) and thus are potential candidates for hearing loss accompanying renal tubular acidosis. Subtype B mitochondria-rich cells are the most likely candidates to be affected in Pendred syndrome because of the assumed function of pendrin as apical Cl,/HCO3, exchanger. [source] HP24 MICRORNA EXPRESSION PROFILES IN BARRETT'S OESOPHAGUSANZ JOURNAL OF SURGERY, Issue 2007D. I. Watson Purpose The genetic changes that drive the metaplastic change from squamous oesophagus (NO) towards Barrett's oesophagus (BO) and cancer are unclear. microRNAs (miRNAs) are short, non-coding RNAs that regulate gene expression and contribute to cellular differentiation and identity. We sought to determine the role of miRNAs in BO. Methodology Biopsies of NO, BO and cardia were taken from 7 patients and RNA was extracted. miRNA expression profiles of 300 miRNAs were determined by microarray. Guided by the array results, real-time Reverse Transcriptase-Polymerase Chain Reaction (RT-PCR) for 8 selected miRNAs enabled their expression to be studied in tissues from another 15 patients. Results Array data revealed that 39 miRNAs were significantly differentially expressed between NO, BO and cardia. A tissue-specific expression profile was confirmed by RT-PCR, with miR-21, 143, 145, 194 and 215 significantly up regulated in BO and cardia (columnar) vs. NO (squamous). A trend towards increased miR-21 expression from NO to BO and adenocarcinoma was observed (p = 0.1). Interestingly, high expression of miR-143, 194 and 215 was seen in BO vs. NO (p < 0.0001), but with subsequent downregulation in cancers (p = 0.1). In contrast, miR-203 and 205 were highly expressed in NO and low in BO and cardia. A database search revealed that these miRNAs potentially target (proto-)oncogenes and tumour suppressor genes. Conclusions Differences in miRNA expression are present between NO, BO, cardia and cancer. Deregulation of certain miRNAs, and their predicted effect on the expression of target genes, might contribute to the metaplastic and neoplastic process in the oesophagus and could serve as novel biomarkers to classify diseased tissues. [source] | ||||||||||