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  1. Article ; Online: Anuran amphibians as comparative models for understanding extreme dehydration tolerance: a unique negative feedback lymphatic mechanism for blood volume regulation.

    Hillman, Stanley S

    American journal of physiology. Regulatory, integrative and comparative physiology

    2018  Volume 315, Issue 4, Page(s) R790–R798

    Abstract: Anurans are the most terrestrial order of amphibians. Couple the high driving forces for evaporative loss in terrestrial environments and their low resistance to evaporation, dehydration is an inevitable stress on their water balance. Anurans have the ... ...

    Abstract Anurans are the most terrestrial order of amphibians. Couple the high driving forces for evaporative loss in terrestrial environments and their low resistance to evaporation, dehydration is an inevitable stress on their water balance. Anurans have the greatest tolerances for dehydration of any vertebrate group. Some species can tolerate evaporative losses up to 45% of their standard body mass. Anurans have remarkable capacities to regulate blood volume with hemorrhage and dehydration compared with mammals. Stabilization of blood volume is central to extending dehydration tolerance, since it avoids both the hypovolemic and hyperviscosity stresses on cardiac output and its consequential effects on aerobic capacity. Anurans, in contrast to mammals, seem incapable of generating a sufficient pressure difference, either oncotically or via interstitial compliance, to move fluid from the interstitium into the capillaries. Couple this inability to generate a sufficient pressure difference for transvascular uptake to a circulatory system with high filtration coefficients and a high rate of plasma turnover is the consequence. The novel lymphatic system of anurans is critical to a remarkable capacity for blood volume regulation. This review summarizes what is known about the anatomical and physiological specializations that are involved in explaining differential blood volume regulation and dehydration tolerance involving a true centrally mediated negative feedback of lymphatic function involving baroreceptors as sensors and lymph hearts, arginine vasotocin, pulmonary ventilation and specialized skeletal muscles as effectors.
    MeSH term(s) Adaptation, Physiological ; Animals ; Anura ; Blood Volume ; Dehydration/physiopathology ; Feedback, Physiological ; Humans ; Lymphatic System/physiopathology ; Models, Animal ; Models, Biological ; Species Specificity ; Water-Electrolyte Balance
    Language English
    Publishing date 2018-06-06
    Publishing country United States
    Document type Journal Article ; Lecture ; Research Support, U.S. Gov't, Non-P.H.S. ; Review
    ZDB-ID 603839-6
    ISSN 1522-1490 ; 0363-6119
    ISSN (online) 1522-1490
    ISSN 0363-6119
    DOI 10.1152/ajpregu.00160.2018
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  2. Article ; Online: A metabolic hypothesis for the evolution of temperature effects on the arterial

    Hillman, Stanley S / Hedrick, Michael S

    The Journal of experimental biology

    2018  Volume 221, Issue Pt 1

    Abstract: Body temperature increases in ectothermic vertebrates characteristically lead to both increases in ... ...

    Abstract Body temperature increases in ectothermic vertebrates characteristically lead to both increases in arterial
    MeSH term(s) Amphibians/physiology ; Animals ; Arteries/chemistry ; Arteries/physiology ; Blood Gas Analysis ; Body Temperature ; Carbon Dioxide/blood ; Carbon Dioxide/chemistry ; Carbon Dioxide/physiology ; Fishes/physiology ; Homeostasis ; Hydrogen-Ion Concentration ; Reptiles/physiology
    Chemical Substances Carbon Dioxide (142M471B3J)
    Language English
    Publishing date 2018-01-04
    Publishing country England
    Document type Journal Article
    ZDB-ID 218085-6
    ISSN 1477-9145 ; 0022-0949
    ISSN (online) 1477-9145
    ISSN 0022-0949
    DOI 10.1242/jeb.168955
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  3. Article ; Online: The spleen as an unlikely source of red blood cells during activity in fishes.

    Hedrick, Michael S / Olson, Kenneth R / Hillman, Stanley S

    The Journal of experimental biology

    2020  Volume 223, Issue Pt 12

    MeSH term(s) Animals ; Antarctic Regions ; Erythrocyte Count ; Erythrocytes ; Fishes ; Spleen
    Language English
    Publishing date 2020-06-25
    Publishing country England
    Document type Letter ; Comment
    ZDB-ID 218085-6
    ISSN 1477-9145 ; 0022-0949
    ISSN (online) 1477-9145
    ISSN 0022-0949
    DOI 10.1242/jeb.223586
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  4. Article ; Online: Control of blood volume following hypovolemic challenge in vertebrates: Transcapillary versus lymphatic mechanisms.

    Hillman, Stanley S / Drewes, Robert C / Hedrick, Michael S

    Comparative biochemistry and physiology. Part A, Molecular & integrative physiology

    2020  Volume 254, Page(s) 110878

    Abstract: Anurans have an exceptional capacity for maintaining vascular volume compared with other groups of vertebrates. They can mobilize interstitial fluids via lymphatic return at rates that are ten-fold higher than mammals. This extraordinary capacity is the ... ...

    Abstract Anurans have an exceptional capacity for maintaining vascular volume compared with other groups of vertebrates. They can mobilize interstitial fluids via lymphatic return at rates that are ten-fold higher than mammals. This extraordinary capacity is the result of coordination of specialized skeletal muscles and pulmonary ventilation that vary volume and pressure of subcutaneous lymph sacs, thus moving lymph to dorsally located lymph hearts that return lymph to the vascular space. Variation in the capacity to mobilize lymph within anurans varies with the degree of terrestriality, development of skeletal muscles, lung volume and lung compliance, and lymph heart pressure development. This ability enable anurans, which have the highest rates of evaporative water loss among terrestrial vertebrates, to withstand levels of dehydration far exceeding that of other vertebrates, and to successfully occupy virtually all terrestrial environments during their evolution. Maintenance of vascular fluid volume for all vertebrates can be achieved primarily by moving fluid from the interstitial space to the vascular space by transcapillary uptake and mobilization of interstitial (lymphatic) fluid. Transcapillary fluid uptake at the capillary level has been analyzed historically by Krogh and others from a Starling perspective and involves a balance of hydrostatic and oncotic forces. A complete evaluation of blood volume homeostasis also incorporates pressures and compliances of the vascular and interstitial spaces, but has been applied to only a few species. In this review we outline the current understanding of how anurans and other vertebrates maintain blood volume during hypovolemic challenges such as dehydration and hemorrhage which is crucial for maintaining cardiac output.
    MeSH term(s) Amphibians ; Animals ; Anura ; Biological Transport ; Blood Volume/physiology ; Capillaries/physiology ; Fishes ; Hemorrhage ; Humans ; Hypovolemia/metabolism ; Lung/physiology ; Lymph/physiology ; Lymphatic System/physiology ; Muscle, Skeletal/metabolism ; Pulmonary Ventilation ; Ranidae ; Species Specificity ; Vertebrates ; Viscosity
    Language English
    Publishing date 2020-12-20
    Publishing country United States
    Document type Comparative Study ; Journal Article ; Research Support, U.S. Gov't, Non-P.H.S. ; Review
    ZDB-ID 121246-1
    ISSN 1531-4332 ; 0300-9629 ; 1095-6433
    ISSN (online) 1531-4332
    ISSN 0300-9629 ; 1095-6433
    DOI 10.1016/j.cbpa.2020.110878
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  5. Article: Control of blood volume following hypovolemic challenge in vertebrates: Transcapillary versus lymphatic mechanisms

    Hillman, Stanley S / Drewes, Robert C / Hedrick, Michael S

    Comparative biochemistry and physiology. 2021 Apr., v. 254

    2021  

    Abstract: Anurans have an exceptional capacity for maintaining vascular volume compared with other groups of vertebrates. They can mobilize interstitial fluids via lymphatic return at rates that are ten-fold higher than mammals. This extraordinary capacity is the ... ...

    Abstract Anurans have an exceptional capacity for maintaining vascular volume compared with other groups of vertebrates. They can mobilize interstitial fluids via lymphatic return at rates that are ten-fold higher than mammals. This extraordinary capacity is the result of coordination of specialized skeletal muscles and pulmonary ventilation that vary volume and pressure of subcutaneous lymph sacs, thus moving lymph to dorsally located lymph hearts that return lymph to the vascular space. Variation in the capacity to mobilize lymph within anurans varies with the degree of terrestriality, development of skeletal muscles, lung volume and lung compliance, and lymph heart pressure development. This ability enable anurans, which have the highest rates of evaporative water loss among terrestrial vertebrates, to withstand levels of dehydration far exceeding that of other vertebrates, and to successfully occupy virtually all terrestrial environments during their evolution. Maintenance of vascular fluid volume for all vertebrates can be achieved primarily by moving fluid from the interstitial space to the vascular space by transcapillary uptake and mobilization of interstitial (lymphatic) fluid. Transcapillary fluid uptake at the capillary level has been analyzed historically by Krogh and others from a Starling perspective and involves a balance of hydrostatic and oncotic forces. A complete evaluation of blood volume homeostasis also incorporates pressures and compliances of the vascular and interstitial spaces, but has been applied to only a few species. In this review we outline the current understanding of how anurans and other vertebrates maintain blood volume during hypovolemic challenges such as dehydration and hemorrhage which is crucial for maintaining cardiac output.
    Keywords Anura ; biochemistry ; blood volume ; cardiac output ; evolution ; heart ; hemorrhage ; homeostasis ; lung function ; lungs ; lymph
    Language English
    Dates of publication 2021-04
    Publishing place Elsevier Inc.
    Document type Article
    Note NAL-AP-2-clean
    ZDB-ID 121246-1
    ISSN 1531-4332 ; 0300-9629 ; 1095-6433
    ISSN (online) 1531-4332
    ISSN 0300-9629 ; 1095-6433
    DOI 10.1016/j.cbpa.2020.110878
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  6. Article ; Online: What drove the evolution of endothermy?

    Hedrick, Michael S / Hillman, Stanley S

    The Journal of experimental biology

    2016  Volume 219, Issue Pt 3, Page(s) 300–301

    MeSH term(s) Animals ; Biological Evolution ; Body Temperature Regulation
    Language English
    Publishing date 2016-02
    Publishing country England
    Document type Journal Article
    ZDB-ID 218085-6
    ISSN 1477-9145 ; 0022-0949
    ISSN (online) 1477-9145
    ISSN 0022-0949
    DOI 10.1242/jeb.128009
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  7. Article ; Online: A meta-analysis of in vivo vertebrate cardiac performance: implications for cardiovascular support in the evolution of endothermy.

    Hillman, Stanley S / Hedrick, Michael S

    The Journal of experimental biology

    2015  Volume 218, Issue Pt 8, Page(s) 1143–1150

    Abstract: Endothermy in birds and mammals is associated with high body temperatures, and high rates of metabolism that are aerobically supported by elevated rates of cardiovascular O2 transport. The purpose of this meta-analysis was to examine cardiovascular data ... ...

    Abstract Endothermy in birds and mammals is associated with high body temperatures, and high rates of metabolism that are aerobically supported by elevated rates of cardiovascular O2 transport. The purpose of this meta-analysis was to examine cardiovascular data from ectothermic and endothermic vertebrates, at rest and during exercise, with the goal of identifying key variables that may have contributed to the role of the cardiovascular system in supporting high rates of O2 transport associated with endothermy. Vascular conductance, cardiac power and stroke work were summarized and calculated from a variety of studies at rest and during exercise for five classes of vertebrates where data were available. Conductance and cardiac power were linearly related to cardiac output from rest to exercise and also interspecifically. Exercise cardiac power and stroke work were greater in the endothermic species, owing to increased flow resulting from increased heart rate and increased pressure. Increased relative ventricle mass (RVM) was related to increased stroke volume in both groups. However, the increased RVM of endotherms was related to the increased pressure, as stroke work per gram of ventricle during exercise was equivalent between the groups. Cardiac power was linearly related to aerobic metabolic power, with 158 mW aerobic power output achieved per mW of cardiac power input. This analysis indicates that the greatly increased heart rate and cardiac stroke work leading to increased blood flow rate and blood pressure was necessary to support the metabolic requirements of endothermy.
    MeSH term(s) Animals ; Basal Metabolism ; Biological Evolution ; Blood Pressure ; Cardiac Output ; Energy Metabolism ; Heart/physiology ; Stroke Volume ; Thermogenesis/physiology ; Vertebrates/physiology
    Language English
    Publishing date 2015-04-15
    Publishing country England
    Document type Journal Article ; Meta-Analysis
    ZDB-ID 218085-6
    ISSN 1477-9145 ; 0022-0949
    ISSN (online) 1477-9145
    ISSN 0022-0949
    DOI 10.1242/jeb.118372
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  8. Article ; Online: Commentary on: "Vascular distensibilities have minor effects on intracardiac shunt patterns in reptiles" by Filogonio et al. (2017).

    Hillman, Stanley S / Hedrick, Michael S / Kohl, Zachary F

    Zoology (Jena, Germany)

    2017  Volume 122, Page(s) 52–54

    Abstract: The recent study by Filogonio et al. (2017) suggested that net cardiac shunt patterns in two species of reptiles (Trachemys scripta and Crotalus durissus) were not significantly influenced by the vascular distensibilities of the systemic and pulmonary ... ...

    Abstract The recent study by Filogonio et al. (2017) suggested that net cardiac shunt patterns in two species of reptiles (Trachemys scripta and Crotalus durissus) were not significantly influenced by the vascular distensibilities of the systemic and pulmonary vasculatures. This is in contrast to a previously published study (Hillman et al., 2014) in the toad (Rhinella marina) in which net cardiac shunts were predicted primarily by the physical properties of vascular distensibility rather than physiological control of resistance of the systemic and pulmonary vasculature. We analyze the data and conclusions reached by Filogonio et al. (2017) regarding the role of vascular distensibilities in determining net cardiac shunt patterns in reptiles in comparison with toads. In our view, the conclusions reached by Filogonio et al. (2017) are not supported by the data primarily because vascular distensibilities were not measured in the reptiles analyzed in their study.
    MeSH term(s) Animals ; Crotalus ; Heart ; Reptiles ; Turtles
    Language English
    Publishing date 2017-06
    Publishing country Germany
    Document type Journal Article
    ZDB-ID 1191401-4
    ISSN 1873-2720 ; 0944-2006
    ISSN (online) 1873-2720
    ISSN 0944-2006
    DOI 10.1016/j.zool.2017.05.004
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  9. Book ; Audio / Video ; Thesis: Some aspects of the physiology of desiccation and physiological correlates of differential desiccation tolerance in anuran amphibians

    Hillman, Stanley S.

    1977  

    Author's details Stanley Severin Hillman
    Size 1 Mikrofilm (99 S.) 35 mm
    Publishing country United States
    Document type Book ; Audio / Video ; Thesis
    Thesis / German Habilitation thesis Los Angeles, Calif., Univ. of California, Diss., 1977
    HBZ-ID HT002147101
    Database Catalogue ZB MED Medicine, Health

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    Shelf markLoan statusLocation
    F 77-23872 order for loan Magazin

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  10. Book: Ecological and environmental physiology of amphibians

    Hillman, Stanley S

    (Oxford biology ; Ecological and environmental physiology series ; vol. 1)

    2009  

    Author's details Stanley S. Hillman ... [et al.]
    Series title Oxford biology
    Ecological and environmental physiology series ; vol. 1
    Keywords Amphibians/Ecology. ; Amphibians/Ecophysiology.
    Language English
    Size xii, 469 p. :, ill., maps ;, 25 cm.
    Publisher Oxford University Press
    Publishing place Oxford ; New York
    Document type Book
    ISBN 9780198570325 ; 0198570325 ; 9780198570318 ; 0198570317
    Database NAL-Catalogue (AGRICOLA)

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