Your search keyword '"Andrea Edwards"' showing total 6 results

1. An effective cost-sensitive sparse online learning framework for imbalanced streaming data classification and its application to online anomaly detection

Author

Zhong Chen, Victor Sheng, Andrea Edwards, and Kun Zhang

Subjects

Human-Computer Interaction, Artificial Intelligence, Hardware and Architecture, Software, Information Systems

Published

2022

2. Quitting smoking after a cancer diagnosis is associated with high-risk neutrophil-to-lymphocyte ratio among tobacco use-related cancer survivors

Author

You Lu, Katherine Kwong, James Wells, Andrea Edwards, Zhong Chen, Tung-Sung Tseng, and Kun Zhang

Subjects

Multidisciplinary

Abstract

Quitting smoking could potentially minimize the risk of a high neutrophil-to-lymphocyte ratio (NLR) among tobacco use-related (TUR) cancer survivors. A total of 1263 TUR cancer survivors aged 20 to 85 years old were investigated using data from the National Health and Nutritional Examination Survey 1999–2018. The primary outcome was the NLR, which was defined as having two levels: high-risk (≥ 3) and low-risk (p = 0.01) compared to NHB nonsmokers (n = 139). These findings suggest that the risk of a high NLR level is strongly associated with the time of smoking cessation in NHB TUR cancer survivors. As a result, NHB TUR cancer survivors should quit smoking as soon as possible because the benefits of quitting smoking were observed over the 5 year period following smoking cessation.

Published

2023

3. Assessment of Sexual Reproductive Health Knowledge Amongst Patients with Cystic Fibrosis

Author

D. Lau, Lorraine Speight, Andrea Edwards, R.I. Ketchell, Jamie Duckers, and C. Wilson

Subjects

medicine.medical_specialty, business.industry, Genetic counseling, media_common.quotation_subject, Rehabilitation, Physical Therapy, Sports Therapy and Rehabilitation, Fertility, Carrier testing, Quality of life (healthcare), Family medicine, Life expectancy, Medicine, Anxiety, Thematic analysis, medicine.symptom, business, Reproductive health, media_common

Abstract

This study is concerned with evaluating cystic fibrosis (CF) annual review practice. More precisely, we wanted to know if we are utilizing genetic counseling services and identifying poor knowledge of sexual reproductive health at annual review. We conducted short interviews with 21 CF patients at annual review regarding genetic counseling knowledge and perception. Patient responses were documented, analyzed and coded using a simple thematic analysis to precis the content. Immediately post-interview, patients were asked to complete a CF questionnaire comprised of nine questions, testing knowledge of the science of Mendelian genetics, contraceptive needs and fertility. Knowledge was then compared to responses documented at annual review. Emerging themes from interviews included: poor knowledge and a need for more information regarding what genetic counseling involves, a positive perception and experience of genetic counseling for those who had attended, and partner anxiety related to carrier testing. The percentage of patients who reported they were aware of the CF fertility and genetic issues was 95%, however, questionnaire scores ranged from 0 to 9/9 (mean 4.8 SD [2.2]). 57% of patients had received genetic counseling. These patients had a statistically significantly higher score 6.2 (1.5) versus those who had not 2.9 (1.3) p

Published

2019

4. Changes in meta-transcriptome of rumen epimural microbial community and liver transcriptome in young calves with feed induced acidosis

Author

Wenli Li, Sonia Gelsinger, Christina Riehle, Andrea Edwards, and Daniel J. Koch

Subjects

Rumen, Pyruvate metabolic process, lcsh:Medicine, Physiology, Biology, Article, Transcriptome, medicine, Animals, Weaning, lcsh:Science, Dairy cattle, Acidosis, Multidisciplinary, lcsh:R, Lipid metabolism, Genomics, Animal Feed, Gastrointestinal Microbiome, Disease Models, Animal, Cellular component organization, Liver, Cattle, lcsh:Q, Gene expression, medicine.symptom

Abstract

The common management practices of dairy calves leads to increased starch concentration in feed, which subsequently may cause rumen acidosis while on milk and during weaning. Until recently, few attempts were undertaken to understand the health risks of prolonged ruminal acidosis in post weaning calves. Resultantly, the molecular changes in the digestive tracts in post-weaning calves with ruminal acidosis remain largely unexplored. In this study, we investigated the liver transcriptome changes along with its correlation with the rumen microbial rRNA expression changes in young calves using our model of feed induced ruminal acidosis. In this model, new born calves were fed a highly processed, starch-rich diet starting from one week of age through 16 weeks. A total of eight calves were involved in this study. Four of them were fed the acidosis-inducing diet (Treated) and the rest of the four were fed a standard starter diet (Control). Liver and rumen epithelial tissues were collected at necropsy at 17 weeks of age. Transcriptome analyses were carried out in the liver tissues and rRNA meta-transcriptome analysis were done using the rumen epithelial tissues. The correlation analysis was performed by comparing the liver mRNA expression with the rumen epithelial rRNA abundance at genus level. Calves with induced ruminal acidosis had significantly lower ruminal pH in comparison to the control group, in addition to significantly less weight-gain over the course of the experiment. In liver tissues, a total of 428 differentially expressed genes (DEGs) (fold-change, FC ≥ 1.5; adjusted P ≤ 0.1) were identified in treated group in comparison to control. Biological pathways enriched by these DEGs included cellular component organization, indicating the impact of ruminal acidosis on liver development in young calves. Specifically, the up-regulated genes were enriched in acute phase response (P P P ≪ 0.001), indicating the liver’s response to feed induced acidosis at the transcriptome level. Twelve transferase activity related genes had significant correlation with rumen microbial rRNA expression changes. Among these genes, two up-regulated genes were reported with involvement in lipid metabolism in the liver, implying the direct effect of feed-induced acidosis on both the rumen microbial community and liver metabolism. Our study provides insight into the physiological remodeling in the liver resultant from the prolonged acidosis in post weaning calves, which may facilitate future RNA-seq based diagnosis and precision management of rumen acidosis in dairy calves.

Published

2019

5. Transcriptome analysis of rumen epithelium and meta-transcriptome analysis of rumen epimural microbial community in young calves with feed induced acidosis

Author

Sonia Gelsinger, Wenli Li, Andrea Edwards, Daniel J. Koch, and Christina Riehle

Subjects

0301 basic medicine, Rumen, animal structures, lcsh:Medicine, Weaning, Biology, Weight Gain, Article, Epithelium, Transcriptome, 03 medical and health sciences, 0302 clinical medicine, Animal science, medicine, Animals, lcsh:Science, Dairy cattle, Acidosis, Multidisciplinary, Gene Expression Profiling, Microbiota, lcsh:R, Age Factors, Hydrogen-Ion Concentration, Animal Feed, 030104 developmental biology, medicine.anatomical_structure, Microbial population biology, lcsh:Q, Cattle, medicine.symptom, Weight gain, 030217 neurology & neurosurgery

Abstract

Many common management practices used to raise dairy calves while on milk and during weaning can cause rumen acidosis. Ruminal pH has long been used to identify ruminal acidosis. However, few attempts were undertaken to understand the role of prolonged ruminal acidosis on rumen microbial community or host health in young calves long after weaning. Thus, the molecular changes associated with prolonged rumen acidosis in post weaning young calves are largely unknown. In this study, we induced ruminal acidosis by feeding a highly processed, starch-rich diet to calves starting from one week of age through 16 weeks. Rumen epithelial tissues were collected at necropsy at 17 weeks of age. Transcriptome analyses on the rumen epithelium and meta-transcriptome analysis of rumen epimural microbial communities were carried out. Calves with induced ruminal acidosis showed significantly less weight gain over the course of the experiment, in addition to substantially lower ruminal pH in comparison to the control group. For rumen epithelial transcriptome, a total of 672 genes (fold-change, FC ≥ 1.5; adjusted-p ≤ 0.05) showed significant differential expression in comparison to control. Biological pathways impacted by these differentially expressed genes included cell signaling and morphogenesis, indicating the impact of ruminal acidosis on rumen epithelium development. rRNA read-based microbial classification indicated significant increase in abundance of several genera in calves with induced acidosis. Our study provides insight into host rumen transcriptome changes associated with prolonged acidosis in post weaning calves. Shifts in microbial species abundance are promising for microbial species-based biomarker development and artificial manipulation. Such knowledge provides a foundation for future more precise diagnosis and preventative management of rumen acidosis in dairy calves.

Published

2019

6. Transcriptomics analysis of host liver and meta-transcriptome analysis of rumen epimural microbial community in young calves treated with artificial dosing of rumen content from adult donor cow

Author

Madison S. Cox, Andrew J. Steinberger, Andrea Edwards, Joseph H. Skarlupka, Derek M. Bickhart, Jason G. Walling, Christina Riehle, S.M. Raabis, Wenli Li, and Garret Suen

Subjects

0301 basic medicine, Rumen, lcsh:Medicine, Biology, Article, Bacterial genetics, Microbiology, Transcriptome, 03 medical and health sciences, 0302 clinical medicine, Animals, Colonization, Microbiome, Author Correction, lcsh:Science, Bacterial phyla, Phylogeny, Aldehyde-Lyases, Multidisciplinary, Bacteria, Whole Genome Sequencing, Sequence Analysis, RNA, Host (biology), Gene Expression Profiling, lcsh:R, Animal Feed, Up-Regulation, RNA, Bacterial, 030104 developmental biology, Liver, Microbial population biology, RNA, Ribosomal, Cattle, lcsh:Q, Metagenomics, 030217 neurology & neurosurgery

Abstract

In mammals, microbial colonization of the digestive tract (GIT) occurs right after birth by several bacterial phyla. Numerous human and mouse studies have reported the importance of early gut microbial inhabitants on host health. However, few attempts have been undertaken to directly interrogate the role of early gut/rumen microbial colonization on GIT development or host health in neonatal ruminants through artificial manipulation of the rumen microbiome. Thus, the molecular changes associated with bacterial colonization are largely unknown in cattle. In this study, we dosed young calves with exogenous rumen fluid obtained from an adult donor cow, starting at birth, and repeated every other week until six weeks of age. Eight Holstein bull calves were included in this study and were separated into two groups of four: the first group was treated with rumen content freshly extracted from an adult cow, and the second group was treated with sterilized rumen content. Using whole-transcriptome RNA-sequencing, we investigated the transcriptional changes in the host liver, which is a major metabolic organ and vital to the calf’s growth performance. Additionally, the comparison of rumen epimural microbial communities between the treatment groups was performed using the rRNA reads generated by sequencing. Liver transcriptome changes were enriched with genes involved in cell signaling and protein phosphorylation. Specifically, up-regulation of SGPL1 suggests a potential increase in the metabolism of sphingolipids, an essential molecular signal for bacterial survival in digestive tracts. Notably, eight genera, belonging to four phyla, had significant increases in abundance in treated calves. Our study provides insight into host liver transcriptome changes associated with early colonization of the microbial communities in neonatal calves. Such knowledge provides a foundation for future probiotics-based research in microbial organism mediated rumen development and nutrition in ruminants.

Published

2019