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‘Elastic length’ of the female urethra—initial measurements (1980)

Beard, A. N. ; Edwards, L. E. ; Holbrook, M. C.

Springer

Medical & biological engineering & computing 18 (1980), S. 464-466

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ISSN: 1741-0444

Keywords: Distensibility of the urethra ; Elastic length of the urethra ; Spread of the urethral pressure prolile

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology , Medicine

Notes: Abstract An elasticity parameter known as the elastic length of the urethra was derived from a theory of flow presented in a previous article. The suggestion was made that a consideration of this parameter could be relevant to an understanding of the flow of urine through the urethra. The present short paper presents an account of initial measurements of the elastic length for two females. It seems likely that we cannot neglect the elastic length when considering flow through the urethra.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02443318

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Genome-Scale Methods Converge on Key Mitochondrial Genes for the Survival of Human Cardiomyocytes in Hypoxia [Original Articles] (2014)

Edwards, L. M., Sigurdsson, M. I., Robbins, P. A., Weale, M. E., Cavalleri, G. L., Montgomery, H. E., Thiele, I.

American Heart Association (AHA)

In: Circulation: Cardiovascular Genetics

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Publication Date: 2014-08-20

Description: Background— Any reduction in myocardial oxygen delivery relative to its demands can impair cardiac contractile performance. Understanding the mitochondrial metabolic response to hypoxia is key to understanding ischemia tolerance in the myocardium. We used a novel combination of 2 genome-scale methods to study key processes underlying human myocardial hypoxia tolerance. In particular, we hypothesized that computational modeling and evolution would identify similar genes as critical to human myocardial hypoxia tolerance. Methods and Results— We analyzed a reconstruction of the cardiac mitochondrial metabolic network using constraint-based methods, under conditions of simulated hypoxia. We used flux balance analysis, random sampling, and principal component analysis to explore feasible steady-state solutions. Hypoxia blunted maximal ATP (–17%) and heme (–75%) synthesis and shrank the feasible solution space. Tricarboxylic acid and urea cycle fluxes were also reduced in hypoxia, but phospholipid synthesis was increased. Using mathematical optimization methods, we identified reactions that would be critical to hypoxia tolerance in the human heart. We used data regarding single-nucleotide polymorphism frequency and distribution in the genomes of Tibetans (whose ancestors have resided in persistent high-altitude hypoxia for several millennia). Six reactions were identified by both methods as being critical to mitochondrial ATP production in hypoxia: phosphofructokinase, phosphoglucokinase, complex II, complex IV, aconitase, and fumarase. Conclusions— Mathematical optimization and evolution converged on similar genes as critical to human myocardial hypoxia tolerance. Our approach is unique and completely novel and demonstrates that genome-scale modeling and genomics can be used in tandem to provide new insights into cardiovascular genetics.

Keywords: Biochemistry and metabolism, Other heart failure, Quantitative modeling

Print ISSN: 1942-325X

Electronic ISSN: 1942-3268

Topics: Medicine

Published by American Heart Association (AHA)

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