Relevant bibliographies by topics / Yellow Springs Library (Yellow Springs, OH)

Academic literature on the topic 'Yellow Springs Library (Yellow Springs, OH)'

Author: Grafiati
Published: 27 July 2024
Last updated: 29 July 2024

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Journal articles on the topic "Yellow Springs Library (Yellow Springs, OH)"

1

Toffaletti, J., M. E. Hammes, R. Gray, B. Lineberry, and B. Abrams. "Lactate Measured in Diluted and Undiluted Whole Blood and Plasma: Comparison of Methods and Effect of Hematocrit." Clinical Chemistry 38, no. 12 (December 1, 1992): 2430–34. http://dx.doi.org/10.1093/clinchem/38.12.2430.

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Abstract We evaluated a new analyzer that measures lactate in undiluted whole blood by direct (or undiluted) amperometry [Nova Stat Profile 7 Analyzer (SP7); Nova Biomedical, Waltham, MA] by comparing it with two other analyzers, one for measuring lactate in whole blood by indirect (or diluted) amperometry [Model 2300; Yellow Springs Instrument Co. (YSI), Yellow Springs, OH] and another for measuring lactate in plasma by enzymatic colorimetry (aca; Du Pont Co., Wilmington, DE). All between-method comparisons of the three methods showed that the results for plasma were comparable (Sy/x = 0.24-0.33 mmol/L). Within-method comparisons by the YSI differed substantially between plasma and whole blood (Sy/x = 0.48 mmol/L), but within-method comparisons by the SP7 produced better agreement between plasma and whole blood (Sy/x = 0.18 mmol/L). The difference between whole blood and plasma by YSI is related to hematocrit, with the greatest differences noted for samples with the highest hematocrit. Serum lactate measured by SP7 had between-day imprecision (CV) ranging from 12% at 0.5 mmol/L to 4.2% at 3.7 mmol/L, showed a linear standard curve to at least 11.5 mmol/L, and was independent of hematocrit. There was a mean bias of approximately 0.4 mmol/L for results in the reference range for both plasma and whole blood by SP7 compared with plasma results by either aca or YSI.
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Ji, Linong, Xiaohui Guo, Lixin Guo, Qian Ren, Nan Yu, and Jie Zhang. "A Multicenter Evaluation of the Performance and Usability of a Novel Glucose Monitoring System in Chinese Adults With Diabetes." Journal of Diabetes Science and Technology 11, no. 2 (September 25, 2016): 290–95. http://dx.doi.org/10.1177/1932296816662884.

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Objective: Flash glucose monitoring is a new glucose sensing technique that measures interstitial glucose levels for up to 14 days and does not require any calibration. The aim of this study is to evaluate the performance of the new system in Chinese patients with diabetes. Methods: A multicenter, prospective, masked study was performed in a total of 45 subjects with diabetes. Subjects wore 2 sensors at the same time, for up to 14 days. The accuracy was evaluated against capillary blood glucose (BG) and venous Yellow Springs Instrument (YSI; Yellow Springs, OH) measurements. During all 14 days, subjects were asked to perform at least 8 capillary BG tests per day. Each subject attended 3 days of 8-hour clinic sessions to measure YSI and sensor readings every 15 minutes. Results: Forty subjects had evaluable glucose readings, with 6687 of 6696 (99.9%) sensor and capillary BG pairs within consensus error grid zones A and B, including 5824 (87.0%) in zone A. The 6969 sensor and venous YSI pairs resulted in 6965 (99.9%) pairs within zones A and B, including 5755 (82.6%) in zone A. The sensor pairs with BG and YSI result in mean absolute relative difference (MARD) of 10.0% and 10.7%, respectively. Overall between-sensor coefficient of variation (CV) was 8.0%, and the mean lag time was 3.1 (95% confidence interval 2.54 to 4.29) minutes. Conclusions: The system works well for people with diabetes in China, and it is easy to wear and use.
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Han, Julia, James H. Nichols, Mark Rice, and David C. Klonoff. "The End of the Road for the YSI 2300 Analyzer: Where Do We Go Now?" Journal of Diabetes Science and Technology 14, no. 3 (November 11, 2019): 595–600. http://dx.doi.org/10.1177/1932296819886603.

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Production of the YSI 2300 STAT PLUS Glucose and l-Lactate Analyzer (YSI Incorporated, Yellow Springs, OH, United States) has been discontinued. This benchtop instrument is the most widely used device for determining the accuracy of products that measure blood glucose and interstitial fluid glucose. An alternate comparator instrument must now be identified by the diabetes diagnostics industry. The available products should be reviewed by parties interested in accurate, fast, low-cost comparator benchtop, or portable (nonstrip) methods using small sample volumes with good ease-of-use and human factors. Stakeholders include glucose monitor manufacturers, test labs, clinical chemists, diabetes clinicians, professional organizations, and regulators. This article presents features of eleven possible alternative instruments to be considered as comparator methods for measuring the accuracy of glucose monitors.
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4

Linn, Patricia L., Jane Ferguson, and Katie Egart. "Career exploration via cooperative education and lifespan occupational choice1This study was supported by research awards from the Pierson Lovelace Foundation, Cooperative Education and Internship Association, Midwest Cooperative Education and Internship Association, Cooperative Education Division of the American Society for Engineering Education, National Association of Student Employment Administrators, Antioch College Faculty Fund, and a MacArthur Foundation grant to Antioch College. Thanks to the graduates who participated, Bob Devine, Nina Myatt, Scott Sanders, Charlene Templeman, Jonah Liebert, Rachel Fischer, Toni Severance, and Antioch’s Cooperative Education Faculty. Correspondence concerning this article should be addressed to Patricia L. Linn, J.D. Dawson Professor of Cooperative Education, Antioch College, Yellow Springs, OH 45387. Electronic mail may be sent via Internet to plinn@antioch-college.edu.1." Journal of Vocational Behavior 65, no. 3 (December 2004): 430–47. http://dx.doi.org/10.1016/j.jvb.2003.10.002.

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5

"Rosenfeld, S.R. (2008).A Critical History of Hypnotism: The Unauthorized Story. NP: Xlibris. Reviewed by Rubin Battino, MS, Yellow Springs OH." American Journal of Clinical Hypnosis 52, no. 1 (July 2009): 75–76. http://dx.doi.org/10.1080/00029157.2009.10401696.

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6

"Yapko, M.D. (Ed.). (2006).Hypnosis and Treating Depression.New York: Routledge (Taylor & Francis Group). Reviewed by Rubin Battino, M.S., Yellow Springs, OH." American Journal of Clinical Hypnosis 49, no. 3 (January 2007): 232–33. http://dx.doi.org/10.1080/00029157.2007.10401589.

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7

Link, Manuela, Ulrike Kamecke, Delia Waldenmaier, Stefan Pleus, Arturo Garcia, Cornelia Haug, and Guido Freckmann. "Comparative Accuracy Analysis of a Real-time and an Intermittent-Scanning Continuous Glucose Monitoring System." Journal of Diabetes Science and Technology, December 17, 2019, 193229681989502. http://dx.doi.org/10.1177/1932296819895022.

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Background: Currently, two different types of continuous glucose monitoring (CGM) systems are available: real time (rt) CGM systems that continuously provide glucose values and intermittent-scanning (is) CGM systems. This study compared accuracy of an rtCGM and an isCGM system when worn in parallel. Methods: Dexcom G5 Mobile (DG5) and FreeStyle Libre (FL) were worn in parallel by 27 subjects for 14 days including two clinic sessions with induced glucose excursions. The percentage of CGM values within ±20% or ±20 mg/dL of the laboratory comparison method results (YSI 2300 STAT Plus, YSI Inc., Yellow Springs, OH, United States; glucose oxidase based) or blood glucose meter values and mean absolute relative difference (MARD) were calculated. Consensus error grid and continuous glucose error grid analyses were performed to assess clinical accuracy. Results: Both systems displayed clinically accurate readings. Compared to laboratory comparison method results during clinic sessions, DG5 had 91.5% of values within ±20%/20 mg/dL and a MARD of 9.5%; FL had 82.5% of scanned values within ±20%/20 mg/dL and an MARD of 13.6%. Both systems showed a lower level of performance during the home phase and when using the blood glucose meter as reference. Conclusion: The two systems tested in this study represent two different principles of CGM. DG5 generally provided higher accordance with laboratory comparison method results than FL.
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8

Sharpe, Kassidy, Hala El Mikati, Julie Pike, Lisa Smith, Carol Boushey, Fengqing Zhu, Edward Delp, Tamara Hannon, and Nana Gletsu-Miller. "Associations Between Dietary Added Sugars, Glycemia, and BMI (P21-066-19)." Current Developments in Nutrition 3, Supplement_1 (June 1, 2019). http://dx.doi.org/10.1093/cdn/nzz041.p21-066-19.

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Abstract Objectives American adolescents have a nutrient-poor diet pattern, which is particularly high in added sugars, putting them at risk for obesity and type 2 diabetes (T2D). We aimed to assess dietary intake of added sugars in adolescents and relationships with glycemia and body mass index (BMI). Methods Cross-sectional, baseline measures were obtained from an ongoing, randomized controlled behavioral intervention to prevent adolescent T2D. Participants, using the Technology Assisted Dietary Assessment system (TADA), created a mobile, imaged-based, four-day food record which the Nutrition Data System for Research (NDSR, University of Minnesota, Minneapolis, MN) analyzed. Glucose dynamics were measured at fasting and during an oral glucose tolerance test (OGTT), using point of care instruments (DCA Analyzer, Siemens Medical Solutions, Malvern, PA; YSI Analyzers, Xylem Inc., Yellow Springs, OH). High added sugar intake was defined as consuming above the recommendation of 10% of calories from the US Dietary Guidelines. Independent sample T-tests assessed the differences between groups consuming high versus recommended amounts of added sugars. Values are expressed as mean ± standard deviation. Results Thirty-one adolescents, ages 15.5 ± 2.4 years, were screened. The sample was composed of 12 boys and 19 girls, and 45% had prediabetes. The BMI of the sample was 34.3 ± 6.8 kg/m2 with no differences between normal status and prediabetes groups. Similarly, normal status (11.2 ± 4.6%) and prediabetes (11.3 ± 5.0%) groups each consumed excess amounts of added sugars with no differences between groups. There were no significant differences between glycated hemoglobin (HbA1c, 5.5 ± 0.5% and 5.3 ± 0.2%), 2 hour glucose concentrations (125.4 ± 28.7 mg/dL and 111.9 ± 22.0 mg/dL), or BMI (33.9 ± 6.0 kg/m2 and 34.9 ± 8.2 kg/m2) between the groups with high versus recommended intakes of added sugar, respectively. The fasting plasma glucose concentrations in the group with high intakes of added sugar tended to be higher compared to the group with recommended intake of added sugar (94.6 ± 5.7 mg/dL versus 90.8 ± 5.1 mg/dL, P = 0.095). Conclusions Fasting glucose may be higher in adolescents consuming excess compared to recommended amounts of added sugars. This research highlights the need for additional research to clarify the metabolic consequences of high amounts of added sugars in the diets of adolescents with obesity and a risk for developing type 2 diabetes. Funding Sources McKinley Foundation, Indiana CTSI Project Development Team UL1TR002529.
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Books on the topic "Yellow Springs Library (Yellow Springs, OH)"

1

Ohio Yellow Springs Library Association. Yellow Springs. Loving's love: Program with Neal Loving. Yellow Springs, OH, 1996.

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2

Ohio Yellow Springs Historical Society. Yellow Springs. Yellow Springs first annual community-wide homecoming, July 5-6, 1991: Part 2 : Saturday's activities. Yellow Springs, OH, 1991.

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Ohio Yellow Springs Historical Society. Yellow Springs. Yellow Springs first annual community-wide homecoming, July 5-6, 1991: Part 1 : Friday's activities. Yellow Springs, OH, 1991.

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Denman, Al. Conservation easements : local stories: Program October 16, 1996. Yellow Springs, OH, 1996.

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