Results 261 to 270 of about 7,117,050 (308)
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2013
Body cavity fluid specimens come from the mesothelium-lined pleural, peritoneal, and pericardial cavities and have much in common with one another. These specimens can pose unique challenges for the cytologist. Although the specimens are relatively simple to obtain, diagnosis is often rendered difficult by the very abundance of material provided for ...
Michael J. Thrall, Michael J. Thrall
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Body cavity fluid specimens come from the mesothelium-lined pleural, peritoneal, and pericardial cavities and have much in common with one another. These specimens can pose unique challenges for the cytologist. Although the specimens are relatively simple to obtain, diagnosis is often rendered difficult by the very abundance of material provided for ...
Michael J. Thrall, Michael J. Thrall
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PROTEOMICS - Clinical Applications, 2018
Body fluid is considered a rich source of disease biomarkers. Proteins in many body fluids have potential clinical applications for disease diagnostic and prognostic predictions.
Mindi Zhao +14 more
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Body fluid is considered a rich source of disease biomarkers. Proteins in many body fluids have potential clinical applications for disease diagnostic and prognostic predictions.
Mindi Zhao +14 more
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Annual Review of Physiology, 1977
The volume and the distribution ofthe body fluids are determined ultimately by the amounts of body water and sodium. However, the regulation of water and salt turnover is highly complex, involving multiple factors which operate both indepen dently and in conjunction with each other.
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The volume and the distribution ofthe body fluids are determined ultimately by the amounts of body water and sodium. However, the regulation of water and salt turnover is highly complex, involving multiple factors which operate both indepen dently and in conjunction with each other.
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Determination of Lewis Secretions in Body Fluids and Dried Stains of Body Fluids
Journal of the Forensic Science Society, 1977The following text describes a method for the determination of the water soluble Lewis glycoproteins in body fluids and body fluid stains as an aid to the determination of secretor status.
P.D. Martin, Margaret Pereira
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, 2013 Water is the most abundant component of the body. It is essential for life in all human beings and animals. Water is the only solvent of the body in which electrolytes and other nonelectrolyte solutes are dissolved. An electrolyte is a substance that dissociates in water into charged particles called ions.
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Pediatrics in Review, 2015
Body fluid composition is maintained in a normal physiologic range by regulatory mechanisms that control sodium and water metabolism. A detailed knowledge of the homeostatic mechanisms will help in understanding the pathogenesis and management of disorders of sodium and water balance.After completing this article, readers should be able to: 1 ...
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Body fluid composition is maintained in a normal physiologic range by regulatory mechanisms that control sodium and water metabolism. A detailed knowledge of the homeostatic mechanisms will help in understanding the pathogenesis and management of disorders of sodium and water balance.After completing this article, readers should be able to: 1 ...
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UF-1000i: validation of the body fluid mode for counting cells in body fluids
Clinical Chemistry and Laboratory Medicine (CCLM), 2014Abstract: We evaluated the new body fluid mode on the UF-1000: We collected 154 body fluid samples, and compared the results of the UF-1000: Method comparison results showed acceptable WBC agreement between UF-1000: The UF ...
Fleming, Chérina +4 more
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Anaesthesia and Intensive Care, 1977
The terms mole, molality, molarity, osmole, osmolality, osmolarity, osmolar gap and anion gap are defined and their clinical usefulness indicated. The following body fluid compartments are described: total body water ( TBW), extracellular fluid ( ECF), intracellular fluid ( ICF), transcellular fluid ( TCF), plasma volume, red cell volume and ...
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The terms mole, molality, molarity, osmole, osmolality, osmolarity, osmolar gap and anion gap are defined and their clinical usefulness indicated. The following body fluid compartments are described: total body water ( TBW), extracellular fluid ( ECF), intracellular fluid ( ICF), transcellular fluid ( TCF), plasma volume, red cell volume and ...
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Osmotic Regulation of Body Fluids
American Journal of Physiology-Legacy Content, 1956Page 86: George D. Zuidema, Neville P. Clarke and Mary F. Minton, "Osmotic Regulation of Body Fluids." Lines 2 and 3, column 2: 2400, 3620, 2950 and 3750 Pitressin units should read 2400 µ, 3620 µ, 2950 µ and 3750 µ Pitressin units.
Mary F. Minton +2 more
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Physiology of Body Fluid Compartments and Body Fluid Movements
2013The human body is divided into two main compartments: intracellular space (ICS) and extracellular space (ECS). The ECS is divided into three additional compartments: intravascular space (IVS, plasma), interstitial space (ISS), and transcellular space (TCS) (Fig. 1.1).
Marialuisa Vennari, Felice Eugenio Agrò
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