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2019 | 75 | 07 |

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Specyfika zaopatrzenia w krew mózgowia przeżuwaczy

Warianty tytułu

EN
Brain blood supply in ruminants

Języki publikacji

PL

Abstrakty

EN
Domesticated ruminants play a key role in world livestock production, while some other ruminant species are important in the hunting economy. Non-farm species kept in zoological gardens pose a new challenge for veterinarians. In addition, cervids are increasingly often maintained under farm conditions, in which it may be necessary to undertake medical interventions. The pattern of the brain base arteries is one of specific morphological features of species from the suborder Ruminantia, including the domestic cattle, zebu, buffalos, sheep, goats, reindeer and other deer species, giraffes, musk deer and antelopes. A specific feature of the arteries of the brain base in ruminants is the presence of the arterial nasal epidural rete mirabile, and in some species also the caudal epidural rete mirabile. In addition, in these animals the extracranial segment of the internal carotid artery obliterates, and as a consequence, blood flows into the brain by an alternative route from the maxillary artery, via the vasculature of the nasal epidural rete mirabile. It is widely accepted that the retia mirabilia in the system of head arteries in mammals are the anatomical basis of the so-called selective brain cooling. Essentially, this mechanism consists in cooling the warm blood expelled from the left ventricle during the contraction of the heart, which flows to the brain, creating a vast vasculature of the rete mirabile. It is encircled by a cooler blood, returning from the nasal cavity via the cavernous sinus. Retia mirabilia located on the brain base are the main effectors of heat dissipation and protection of the brain from overheating. This mechanism fits into the very current topic of animal welfare.

Wydawca

-

Rocznik

Tom

75

Numer

07

Opis fizyczny

s.389-393,fot.,bibliogr.

Twórcy

autor
  • Centrum Weterynarii,Uniwersytet Mikołaja Kopernika w Toruniu, ul.Gagarina 7, 87-100 Toruń
  • Zakład Anatomii Zwierząt, Wydział Medycyny Weterynaryjnej i Nauk o Zwierzętach, Uniwersytet Przyrodniczy w Poznaniu, ul.Wojska Polskiego 71C, 60-625 Poznań

Bibliografia

  • Alsafy M. A. M., Kamal B., Elgendy S. A.: Morphological Configuration of the Brain Arterial Supply of the Goat (Capra hircus). J. Appl. Biol. Sci. 2017, 11, 39-43.
  • Ask-Upmark E.: The carotid sinus and the cerebral circulation. Acta Psych. Neurol. 1935, 6, 1-374.
  • Baker M., Hayward J.: Carotid rete and brain temperature of cats. Nature 1967, 216, 139-141.
  • Baldwin B.: The anatomy of the arterial supply to the cerebral region of the sheep and ox. Am. J. Anat. 1964, 115, 101-108.
  • Baldwin B. A., Bell F. R.: Effect of clamping carotid and vertebral arteries on the blood pressure in sheep. J Physiol. 1960, 151, 39-40.
  • Baldwin B. A., Bell F. R.: The anatomy of the cerebral circulation in the sheep and ox. J. Anat. 1963, 97, 203-215.
  • Baldwin B. A., Bell F. R.: The contribution of the carotid and cerebral arteries to the blood supply of the cerebral cortex of sheep and calves. J. Physiol. 1960, 151, 9-10.
  • Bamel S. S., Dhingra L. D., Sharma D.: Anatomical studies on the arteries of the brain of the buffalo (Bubalus bubalis). I. The rete mirabile cerebri. Anat. Anz. 1975, 137, 440-446.
  • Barnett C., Marsden C.: Functions of the mammalian carotid rete mirabile. Nature 1961, 191, 88-89.
  • Brudnicki W.: Basilar arteries of the brain in domestic goat (Capra hircus). EJPAU 2000, 3, 2.
  • Brudnicki W., Gielecki J.: Morfometryczna analiza tętnic podstawy mózgowia u płodów bydła. Budowa i zmienność tętnic podstawy mózgowia. Zesz. Nauk. ATR Bydgoszcz 1996, 204, 53-62.
  • Brzezińska K., Ziaja M.: Struktura i funkcje bariery krew–mózg. Post. Biol. Kom. 2012, 39, 84-99.
  • Bugge J.: The cephalic arterial system in carnivores, with special reference to the systematic classification. Acta Anat. 1978, 101, 45-61.
  • Caputa M.: Mechanizmy obrony mózgu przed przegrzaniem u człowieka i niektórych innych gatunków ssaków. Rozpr. Uniw. M. Kopernika, Toruń 1982.
  • Citters R., Kemper W., Franklin D.: Blood flow and pressure in the giraffe carotid artery. Comp. Biochem. Physiol. 1969, 24, 1035-1042.
  • Daniel P., Dawes J., Marjorie M., Prichard M.: Studies of the carotid rete and its associated arteries. Philos. T. Roy. Soc. B. 1953, 237, 173-208.
  • Dieguez G., Conde V., Gomez B., Iglesias J. R., Marin J., Lluch S.: Rete mirabile of goat: in vitro effects of adrenergic stimulation. Brain Res. 1983, 289, 281-284.
  • Dieguez G., García A. L., Conde M. V., Gomez B., Santamaría L., Lluch S.: In vitro studies of the carotid rete mirabile of Artiodactyla. Microvasc. Res. 1987, 33, 143-154.
  • Dieguez G., García-Villalón A., Gomez B., Lluch S.: Hemodynamic significance of the carotid rete during changes in arterial blood pressure. Am. J. Physiol. 1988, 254, 770-775.
  • Ding Y., Shao B., Wang J.: The arterial supply to the brain of yak (Bos Gruniens). Ann. Anat. 2007, 189, 31-38.
  • Edelman N. H., Epstein P., Cherniack N. S., Fishman A.: Control of cerebral blood flow in the goat; role of carotid rete. Amer. J. Physiol. 1972, 223, 615-619.
  • Frąckowiak H., Dębiński D., Komosa M., Zdun M.: The arterial circle of the brain, its branches and connections in selected representatives of the Antilopinae. J. Morphol. 2015, 276, 766-771.
  • Frąckowiak H., Zdun M., Kowalczyk K., Komosa M., Kiełtyka-Kurc A.: Comparison of cerebral base arteries in antelopes of Tragelaphus, Taurotragus and Boselaphus genera. Zoomorphology 2014, 133, 351-357.
  • Frąckowiak H.: Magistrale tętnicze głowy u niektórych rzędów ssaków. Rocz. AR, Poznań 2003, 336, 5-80.
  • Frąckowiak H., Giejdasz K.: Przebieg i zmienność tętnic na podstawie mózgowia u gatunków z rzędu Perissodactyla. Rocz. AR, Poznań 1998, 50, 109-117.
  • Frąckowiak H., Jakubowski H.: Arterial vascularization in the giraffe brain. Ann. Zool. Fenn. 2008, 45, 353-359.
  • Fukuta K., Kudo H., Sasaki M., Kimura J., Ismail D., Endo H.: Absence of carotid rete mirabile in small tropic ruminants: implications for the evolution of the arterial system in artiodactyls. J. Anat. 2007, 210, 112-116.
  • García-Villalón A., Dieguez G., Gomez B., Nava, Eduardo Santamaría L., Lluch S.: Mechanics of arteries forming the carotid rete of goat and cattle. Microvasc. Res. 1989, 37, 204-217.
  • Gillilan L. A.: Blood supply to brains of ungulates with and without a rete mirabile caroticum. J. Comp. Neurol. 1974, 153, 275-290.
  • Godynicki S.: Morfologia porównawcza układu głównych tętnic u niektórych zwierząt parzystokopytnych (Artiodactyla). Rocz. AR, Poznań 1972, 36, 1-60.
  • Godynicki S., Frąckowiak H.: Arterial branches supplying the rostral and caudal retia mirabilia in artiodactyls. Folia Morphol. Warszawa 1979, 4, 505-510.
  • Godynicki S., Frąckowiak H., Jackowiak H.: Internal carotid artery in rostral epidural rete mirabile in animals of the suborder ruminantia. Folia Morphol. Warszawa 1996, 4, 231-237.
  • Godynicki S., Wiland C.: Tętnice podstawy mózgowia u jelenia. Rocz. WSR, Poznań 1970, 49, 45-51.
  • Godynicki S., Wiland C.: Tętnice podstawy mózgowia u sarny (Capreolus capreolus). Rocz. WSR, Poznań 1971, 53, 47-54.
  • Goetz R.: Preliminary observations on the circulation In the giraffe. Trans. Am. Coll. Cardiol. 1955, 5, 239-248.
  • Goetz R., Kenn E.: Some aspects of the cardiovascular system in the giraffe. Angiology 1957, 8, 542-564.
  • Goshal N.: Thermoregulatory role of the cranial circulation in cerebral temperature control. Vlaams Diergenm Tijd. 1985, 54, 264-261.
  • Habermebl K. H.: Zur Topographie der Gehirngefäße des Hundes. J. Vet. Med. C. 1973, 2, 327-353.
  • Hawkins T. D., Scott W. C.: Bilateral rete carotidis in man. Clin. Radiol. 1967, 18, 163-165.
  • Hayward J., Baker M.: A comparative study of the role of the cerebral blood in the regulation of brain temperature in five mammals. Brain Res. 1969, 16, 417-440.
  • Jabłoński R.: Variation in the pattern of arteries of the encephalon base in roe deer. Folia Biol. Kraków 2005, 53, 31-34.
  • Jabłoński R., Wiland C.: Variation of the arteries of the brain sheep. Folia Morphol. Warszawa 1973, 32, 339-347.
  • Jenke T.: Die Gehirnarterien des Pferdes, Hundes, Rindes und Schweines verglichen mit denen des Menschen. Inaug-Diss. Dresden 1919.
  • Johnsen H., Blix A., Jørgensen L., Mercer J.: Vascular basis for regulation of nasal heat exchange in reindeer. Am. J. Physiol. Regul. Integr. Comp. Physiol. 1985, 249, 617-623.
  • Johnsen H., Blix A., Mercer J., Bolz K.: Selective cooling of the brain in reindeer. Am. J. Physiol. Regul. Integr. Comp. Physiol. 1987, 253, 848-853.
  • Johnsen H., Folkow L.: Vascular control of brain cooling in reindeer. Am. J. Physiol. Regul. Integr. Comp. Physiol. 1988, 254, 730-739.
  • Kiełtyka-Kurc A., Frąckowiak H., Brudnicki W.: The Arteries of Brain Base in Species of the Cervid Family. Anat. Rec. 2015, 298, 735-740.
  • König H.: Anatomie und Entwicklung der Blutgefasse in Schadelhóhle der Hauswiederkauer (Rind, Schaf und Ziege). Ferdinand Enke Verl. Stuttgart 1979.
  • Krzymowski T., Skipor J., Grzegorzewski W.: Cavernous sinus and carotid rete of sheep and sows as a possible place for countercurrent exchange of some neuropeptides and steroid hormones. Anim. Reprod. Sci. 1992, 29, 225-240.
  • Layunta J., Roldan R.: Contribution to the anatomic knowledge of brain blood supply in the goat. Anat. Histol. Embryol. 1982, 11, 242-249.
  • Längle D.: Korrosionsanatomische Ütersuchungen am Blutgefäßsystem des Encephalon und der Meninges bei Capra hircus. Inaug Diss. München 1973.
  • Lluch S., Dieguez G., Garcia A. L., Gomez B.: Rete mirabile of goat: its flow-damping effect on cerebral circulation. Am. J. Physiol. 1985, 249, 482-489.
  • McKenna M., Bell S.: Classification of mammals above the species level. Columbia University Press, New York 1997.
  • Mitchell G., Lust A.: The carotid rete and artiodactyl success. Biol. Lett. 2008, 4, 415-418.
  • Narębski J.: Wewnątrzmózgowy wzorzec temperatury “set point” zwierząt stałocieplnych. Acta Physiol. 1973, supl. 6, 77-89.
  • Nichelmann M.: Morphologische, functionelle und praktische Aspekte von Gegenstromsystem im tirischen Organismus. Mh. Vet. Med. 1985, 40, 494-498.
  • Nichelmann M.: Thermoregulatorische Bedeutung der Mund- und Nsaenhohle von Hund and Katze. Mh. Vet. Med. 1981, 36, 64-69.
  • O’Brien H.: Cranial arterial pattern of the Sri Lankan spotted chevrotain, Moschiola memmina, and comparative basicranial osteology of the Tragulidae. Peer J. 2015, 3, e1451.
  • O’Brein H. D., Bourke J.: Physical and computional fluid dynamics models for the hemodynamics of the artiodactyl carotid rete. J. Theor. Biol. 2015, 386, 122-131.
  • O’Brien H. D., Gignac P. M., Hieronymus T. L., Witmer L. M.: A comparison of postnatal arterial patterns in a growth series of giraffe (Artiodactyla, Giraffa camelopardalis). Peer J. 2016, 4, e1696.
  • Ocal M. K., Aslan K.: A quantitative study on the retial arteries in the bovine fetus. Ann Anat. 1994, 176, 151-153.
  • Rao K., Dayalu K., Puttannaiyah G.: A comparision of the circulus arterio sus of Bos indicus and Bos bubalus. Mysore J. Agric. Sci. 1968, 2, 35-37.
  • Rösslein C.: Angioarchitektonische Untersuchungen an den Arterien des Encephalon und der meninges beim Pferd. Inaug-Diss., München 1987.
  • Schramm U.: Zur funktionellen Morphologie des Rete caroticum der Hauskatze (Felis sylvestris f. catus). Anat. Anz. 1983, 153-239.
  • Shoshani J., McKenna M.: Higher taxonomic relationships among extant mammals based on morphology, with selected comparisons of results from molecular data. Mol. Phylogenet. Evol. 1998, 9, 572-584.
  • Simoens P., Lauwers H., De Geest J., De Schaepdrijver L.: Functional morphology of the cranial retia mirabilia in the domestic mammals. Schweiz. Arch. Tierh. 1987, 129, 295-307.
  • Simpson G.: The principles of classification and classification of mammals. Bull. Am. Mus. Nat. Hist. 1945.
  • Strauss W., Hetem R., Mitchell D., Maloney S., O’Brien H., Meyer L., Fuller A.: Body water conservation through selective brain cooling by the carotid rete: a physiological feature for surviving climate change? Conserv. Physiol. 2017, 5, 1-15.
  • Taylor C., Lyman C.: Heat storage in running antelopes: independence of brain and body temperatures. Am. J. Physiol. 1972, 222, 114-117.
  • Uehara M., Kudo N., Sugimura M.: Morphological studies on the rete mirabile epidurale in the calf. Jap. J. Vet. Res. 1978, 26, 11-18.
  • Wang X., Liu Y., Guo T., Wu J.: Anatomic peculiarities of the cerebral arterial system and blood supply in the yak (Bos grunniens). J. Anim. Vet. Adv. 2012, 11, 2533-2539.
  • Wang X., Liu Y., Zang L., Wang X., Wu J.: Comparative anatomical study of the epidural retia mirabile in the yak and cattle. Asian J. Anim. Vet. Adv. 2012, 7, 884-890.
  • Węgrzyn M., Roskosz T., Makowiecka M.: Brain arteries of the European bison (Bison bonasus). Ann. Warsaw Agric. Univ. SGGW 1983, 11, 9-16.
  • Wible J.: Transformations in the extracranial course of the internal carotid artery in mammalian phylogeny. J. Vertebr. Paleontol. 1986, 6, 313-325.
  • Zdun M., Frąckowiak H., Kiełtyka-Kurc A., Kowalczyk K., Nabzdyk M., Timm A.: The arteries of brain base in species of Bovini tribe. Anat. Rec. 2013, 296, 1677-1682.
  • Zdun M., Jabłoński R., Dębiński D., Frąckowiak H.: The Eurasian Elk’s (Alces alces) Brain Base Arteries in View of Vascular Variation. Anat. Rec. 2018, 345, 339-345.
  • Żedenov W.: Sosudistaja sistema Bovinae w sravnitelno-anatomiočeskom izučeni i voprosy specyfičnosti jeje morfołogii. IV. K voprosu obliteracji vnutrennoj sonnoj arterii u krupnogo rogatego skota. Arch. Anat. Gist. Embriol. 1937, 16, 490-508.

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