Literature DB >> 22031747

Static inflation and deflation pressure-volume curves from excised lungs of marine mammals.

Andreas Fahlman1, Stephen H Loring, Massimo Ferrigno, Colby Moore, Greg Early, Misty Niemeyer, Betty Lentell, Frederic Wenzel, Ruth Joy, Michael J Moore.   

Abstract

Excised lungs from eight marine mammal species [harp seal (Pagophilus groenlandicus), harbor seal (Phoca vitulina), gray seal (Halichoerus grypush), Atlantic white-sided dolphin (Lagenorhynchus acutus), common dolphin (Delphinus delphis), Risso's dolphin (Grampus griseus), long-finned pilot whale (Globicephala melas) and harbor porpoise (Phocoena phocoena)] were used to determine the minimum air volume of the relaxed lung (MAV, N=15), the elastic properties (pressure-volume curves, N=24) of the respiratory system and the total lung capacity (TLC). Our data indicate that mass-specific TLC (sTLC, l kg(-1)) does not differ between species or groups (odontocete vs phocid) and agree with that estimated (TLC(est)) from body mass (M(b)) by applying the equation: TLC(est)=0.135 M(b)(0.92). Measured MAV was on average 7% of TLC, with a range from 0 to 16%. The pressure-volume curves were similar among species on inflation but diverged during deflation in phocids in comparison with odontocetes. These differences provide a structural basis for observed species differences in the depth at which lungs collapse and gas exchange ceases.

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Year:  2011        PMID: 22031747      PMCID: PMC3202515          DOI: 10.1242/jeb.056366

Source DB:  PubMed          Journal:  J Exp Biol        ISSN: 0022-0949            Impact factor:   3.312


  19 in total

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  12 in total

1.  Phosphatidylcholine composition of pulmonary surfactant from terrestrial and marine diving mammals.

Authors:  Danielle B Gutierrez; Andreas Fahlman; Manuela Gardner; Danielle Kleinhenz; Marina Piscitelli; Stephen Raverty; Martin Haulena; Paul V Zimba
Journal:  Respir Physiol Neurobiol       Date:  2015-03-23       Impact factor: 1.931

2.  The use of Diagnostic Imaging for Identifying Abnormal Gas Accumulations in Cetaceans and Pinnipeds.

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Journal:  Front Physiol       Date:  2012-06-06       Impact factor: 4.566

3.  Estimated Tissue and Blood N(2) Levels and Risk of Decompression Sickness in Deep-, Intermediate-, and Shallow-Diving Toothed Whales during Exposure to Naval Sonar.

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4.  Inflation and deflation pressure-volume loops in anesthetized pinnipeds confirms compliant chest and lungs.

Authors:  Andreas Fahlman; Stephen H Loring; Shawn P Johnson; Martin Haulena; Andrew W Trites; Vanessa A Fravel; William G Van Bonn
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5.  Estimating energetics in cetaceans from respiratory frequency: why we need to understand physiology.

Authors:  A Fahlman; J van der Hoop; M J Moore; G Levine; J Rocho-Levine; M Brodsky
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6.  Respiratory Function in Voluntary Participating Patagonia Sea Lions (Otaria flavescens) in Sternal Recumbency.

Authors:  Andreas Fahlman; Johnny Madigan
Journal:  Front Physiol       Date:  2016-11-16       Impact factor: 4.566

7.  Response to 'On the importance of understanding physiology when estimating energetics in cetaceans'.

Authors:  A Fahlman; J van der Hoop; M J Moore; G Levine; J Rocho-Levine; M Brodsky
Journal:  Biol Open       Date:  2017-02-15       Impact factor: 2.422

8.  Resting Metabolic Rate and Lung Function in Wild Offshore Common Bottlenose Dolphins, Tursiops truncatus, Near Bermuda.

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Review 9.  Pulmonary ventilation-perfusion mismatch: a novel hypothesis for how diving vertebrates may avoid the bends.

Authors:  Daniel Garcia Párraga; Michael Moore; Andreas Fahlman
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10.  Modeling Tissue and Blood Gas Kinetics in Coastal and Offshore Common Bottlenose Dolphins, Tursiops truncatus.

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Journal:  Front Physiol       Date:  2018-07-17       Impact factor: 4.566
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