Selected parameters of renal function and hydro-electrolyte balance in pregnant goats

• Autorzy: Jankowiak D. , Sarelo K.
• Języki publikacji: EN

Abstrakty

EN

The experiment was carried out on 4 pregnant goats at age 2–3 years. Changes in basic indices of renal function were analysed in the scope of hydro–electrolyte management in the consecutive five months of gestation. Blood and urea samples were collected fortnightly during the first three months of gestation, and weekly during the remaining two months. The analyses included urea volume and glomerular filtration rate, as well as blood plasma concentration, clearance, tubular reabsorption and excretion of sodium, potassium, chlorides and total osmotically active substances.

Słowa kluczowe

EN

potassium concentration; pregnancy; goat; renal function; function parameter; animal physiology; concentration change; chloride concentration; hydroelectrolyte balance; pregnant goat

• Wydawca: -
• Czasopismo: Electronic Journal of Polish Agricultural Universities. Series Animal Husbandry
• Rocznik: 2002
• Tom: 05
• Numer: 1
• Opis fizyczny: http://www.ejpau.media.pl/series/volume5/issue1/animal/art-01.html

Twórcy

autor

Jankowiak D.

• Agricultural University of Szczecin, Doktora Judyma 6, 71-466 Szczecin, Poland

autor

Sarelo K.

Bibliografia

• Baddouri K., Ouyou A., 1991. Osmolality and secretion of vasopressin during pregnancy in Meriones crassus. Reprod. Nutr. Dev., 31, 535–539.
• Baranow–Baranowski S., Skrzypczak W., Jankowiak D., 1984. Metoda pobierania krwi żylnej od cieląt w krótkich odstępach czasu [Method of venal blood collections in short intervals from calves]. Med. Wet., 11, 605 [in Polish].
• Baudet J., Bonnaud F., Picherau D., Zago J., 1990. Choroby niepołożnicze u ciężarnych [Non–obsterical diseases in the pregnant]. PZWL, Warszawa [in Polish].
• Berry D.D., Jaekle R.K., Rose J.C., 1994. Effect of atrial natriuretic factor on release of arginine vasopressin and renin in fetal lambs. Am. J. Physiol., 267, 984–989.
• Bolton L.M., Thomas T.H., Dunlop W., 1996. Erythrocyte ion and water balance and membrane potential in the puerperium of normal pregnancy. Br. J. Obstet. Gynaecol., 103, 547–551.
• Brochu M., Roy–Clavel E., Picard S., St–Louis J., 1998. In vivo regulation of enzymes controlling aldosterone synthesis in pregnant rats. Endocrinol. Res., 24, 575–579.
• Carvalho E.G., Franci C.R., Antunes–Rodriques J., Gutkowska J., Favaretto A.L., 1998. Salt overload does not modify plasma atrial natriuretic peptide or vasopressin during pregnancy in rats. Exp. Physiol., 83, 503–511.
• Chamienia A., Manitius J., 1990. Pozanerkowa regulacja gospodarki potasowej w warunkach fizjologicznych i w przewlekłej niewydolności nerek [Extrarenal regulation of potassium metabolism in physiological conditions and in chronic kidney failure]. Pol. Arch. Med., 83, 80–85 [in Polish].
• Davison J.M., 1997. Edema in pregnancy. Kidney Int. Suppl., 59, 90–96.
• Davison J.M., Shiells E.A., Philips P.R., Lindheimer M.D., 1988. Serial evaluation of vasopressin release and thirst in human pregnancy. Role of human chorionic gonadotropin in the osmoregulatory changes of gestation. J. Clin. Invest., 81, 798–806.
• Davison J.M., Vallotton M.B., Lindheimer M.D., 1981. Plasma osmolality and urinary concentration and dilution during and after pregnancy: evidence that lateral recumbency inhibits maximal urinary concentrating ability. Br. J. Obstet. Gynaecol., 88, 472–479.
• Deloof S., Seze C., Montel V., Chatelain A., 2000. Atrial natriuretic peptide and aldosterone secretions, and atrial natriuretic peptide–binding sites in kidneys and adrenal glands of pregnant and fetal rats in late gestation in response to a high–salt diet. Eur. J. Endocrinol., 42, 524–532.
• Dickson K.A., Harding R., 1997. Fetal and maternal fluid balance in sheep during hyperthermia with and without water deprivation. Exp. Physiol., 82, 777–789.
• Dorr H.G., Heller A., Versmold H.T., Sippell W.G., Herrmann M., Bidlingmaier F., Knorr D., 1989. Longitudinal study of progestins, mineralocorticoids, and glucocorticoids throughout human pregnancy. J. Clin. Endocrinol. Metab., 68, 863–868.
• Elsheikh A., Creatsas G., Mastorakos G., Milingos S., Loutradis D., Michalas S., 2001. The renin–aldosterone system during normal and hypertensive pregnancy, Arch. Gynecol. Obstet., 264, 182–185.
• Gibson K.J., Lumbers E.R., 1996. The effects of continuous drainage of fetal fluids on salt and water balance in fetal sheep. J. Physiol. Lond., 494, 443–450.
• Husain S.M., Mughal M.Z., Sibley C.P., 2000. Effects of acute maternal hyperglycaemia and hyperosmolality on maternofetal transfer of calcium and magnesium across the situ perfused rat placenta. Magnes. Res., 13, 239–247.
• Jankowiak D., 1998. Wpływ krótkotrwałego stosowania spironolaktonu na zmiany wybranych wskaźników czynności nerek i wielkość przestrzeni wodnych u cielat we wczesnym okresie postnatalnym [The influence of short–term application of spironolactone on the changes of chosen renal function parameters and on the values of water spaces at calves in their early postnatal period]. Rozpr. AR Szczec., 187 [in Polish].
• Ketz H.A., 1960. Vergleichende Betrachtungen zur Nierenfunktion bei den Haustieren. [Comparative studies on kidney function in domestic animals]. Arch. Exp. Vet. Med., 14, 411–419 [in German].
• Khraibi A.A., 2000. Renal interstitial hydrostatic pressure and pressure natriuresis in pregnant rats. Am. J. Physiol., 279, 353–357.
• Knock C.A., Poston L., 1996. Bradykinin–mediated relaxation on isolated maternal resistance arteries in normal pregnancy and preeclamsia. Am. J. Obstet. Gynecol., 175, 1668–1674.
• Knotek M., Rogachev B., Ohara M., Schrier R.W., 2000. Mechanisms of renal retention of sodium and water in heart failure, cirrhosis and pregnancy. Lijec. Vjesn., 122, 20–26.
• Kokot F., 1998. Rola akwaporyn w stanach fizjologii i patologii [Role of aquaporins in physiology and pathology]. Nefrologia Dalizot. Pol., 2, 9–12 [in Polish].
• Lindheimer M.D., Davison J.M., 1995. Osmoregulation, the secretion of arginine vasopressin and its metabolism during pregnancy. Eur. J. Endocrinol., 132, 133–137.
• Lindheimer M.D., Katz A.I., 1992. Renal physiology and disease in pregnancy. In: The Kidney: Physiology and Pathophysiology, edited by Seladin D.W. and Giebisch G. Raven Press New York, 3371–3432.
• Madej E., Stec A., Filar J., 1993. Okołoporodowe zaburzenia metaboliczne u krów pierwistek o genetycznie dużej wyżej wydajności mlecznej [Perinatal metabolic disturbances in primiparous heifers of high milk productivity]. Med. Wet., 49, 403–407 [in Polish].
• Mahaney J., Felton C., Taylor D., Fleming W., Kong J.Q., Baylis C., 1998. Renal cortical Na+–K+–ATPase activity and abundance is decreased in normal pregnant rats. Am. J. Physiol., 275, 812–817.
• Manitius J., Sulikowska B., Rutkowski B., 1994. Udział układu adrenergicznego w pozanerkowej regulacji potasu w ostrej niewydolności nerek – niejasny problem patofizjologiczny i kliniczny [The role of the adrenergic system in control of extrarenal potassium disposal in acute renal failure – unclear pathophysiological and clinical problem]. Pol. Arch. Med. Wewn., 92, 261–264 [in Polish].
• Masilamini S., Baylis C., 1994. Pregnant rats are refractory to the natriuretic action on ANP. Am. J. Physiol., 267, 1611–1616.
• Masilammani S., Hobbs G.R., Baylis C., 1998. The acute pressure natriuresis response blunted and the blood pressure response reset in the normal pregnant rat. Am. J. Obstet. Gynecol., 179, 486–491.
• Matteucci E., Giampietro O., 1997. Na+–H+ exchange activity throughout pregnancy: the proper experimental approach. Ann. Ist. Super. Sanita., 33, 371–374.
• Mulay S., D’Sylva S., Varma D.R., 1993. Inhibition of aldosterone suppressant activity of atrial natriuretic factor by progesterone and pregnancy in rats. Life Sci., 52: 1121–1128.
• Muszczyński Z., 1995. Badania nad czynnością nerek kóz w aspekcie chronobiologicznym [Studies on function of kidneys in goats in chronobiological aspect]. PhD Thesis. AR, Szczecin [in Polish].
• Myles K., Funder J.W., 1996. Progesterone binding to mineralocorticoid receptors: in vitro and in vivo studies. Am. J. Physiol., 270, 601–607.
• Ohara M., Martin P.Y., Xu D.L., John J.S., Pattison T.A., Kim J.K., Schrier R.W., 1998. Upregulation of aguaporin 2 water channel expression in pregnant rats. J. Clin. Invest., 101, 1076–1083.
• Ożgo M., Skrzypczak W.F., 1999. Układ renina–angiotensyna–aldosteron w okresie okołoporodowym i neonatalnym [Renin–angiotensin–aldosterone system in the perinatal and neonatal period. Med. Wet., 55, 737–741 [in Polish].
• Patel K.P., Zhang P.L., 1993. Role of renal nerves in renal responses to acute volume expansion during pregnancy in rats. Proc. Soc. Exp. Biol. Med., 203, 150–156.
• Peracoli J.C., Rudge M.V., Sartori M.S., Franco R.J., 2001. Effects of hypertension on maternal adaptations to pregnancy: experimental study on spontaneously hypertensive rats. Sao Paulo Med. J., 111, 54–58.
• Pickering E.R., 1965. The role of kidney in sodium and potassium balance at cows. Proc. Natr. Soc., 24, 73–78.
• Platts J.K., Meadows P., Jones R., Harvey J.N., 2000. The relation between tissue kallkrein excretion rate, aldosterone and glomerular filtration rate in human pregnancy. BJOG, 107, 278–281.
• Quinkler M., Johanssen S., Grossmann C., Bahr V., Muller M., Oelkers W., Diederich S., 1999. Progesterone metabolism in the human kidney and inhibition of 11–beta–hydroxsteroid dehydrogenase type 2 by progesterone and its metabolites. J. Clin. Endocrinol. Metab., 84, 4165–4171.
• Quinkler M., Johasssen S., Bumke–Vogt C., Oelkers W., Bahr V., Diederich S., 2001. Enzyme–mediated protection of mineralocorticoid receptor against progesterone in the human kidney. Mol. Cell. Endocrinol., 22, 21–24.
• Roberts T.J., Nikland M.J., Williams L., Ross M.G., 1999. Fetal diuretic responses to maternal hyponatremia: contribution of placental sodium gradient. J. Appl. Physiol., 87, 1440–1446.
• Salas S.P., Rosso P., 1998. Reduced plasma volume and changes in vasoactive hormones in underweight pregnant women. Rev. Med. Chil., 126, 504–510.
• Sicińska J., 1999. Nerki a ciaża. In: Choroby nerek. Red. T. Orłowski [Kidneys and pregnancy. In: Renal Diseases. Ed. T. Orłowski ]. PZWL, Warszawa [in Polish].
• Spruce B.A., Baylis P.H., Burd J., Watson M.J., 1985. Variation in osmoregulation of arginine vasopressin during the human menstrual cycle. Clin. Endocrinol., 22, 37–42.
• Verkeste C.M., Slangen B.F., Dubelaar M.L., van Kreel B.K., Peeters L.L., 1998. Mechanism of volume adaptation in the awake early pregnant rat. Am. J. Physiol., 274, 1662–1666.
• Vogel G., 1962. Beitrage zur Kenntius der Nierenphysiologic einiger Haussaugetiere [Contribution to the knowledge on kidney physiology in some domestic mammals]. Zentl. Vet. Med. Beiheft., 3 [in German].
• Vokes T.J., Weiss N.M., Schreiber J., Gaskill M.D., Robertson G., 1988. Osmoregulation of thirst and vasopressin during normal menstrual cycle. Am. J. Physiol., 254, 641–647.
• Watanabe H., Lau D.C., Guyn H.I., Wong N.L., 1997. Effect of progesterone therapy on arginine vasopressin and atrial natriuretic factor in premenstrual syndrome. Clin. Invest. Med., 20, 211–223.
• Weeb J.C., Bayliss P., 1997. Pregnancy complicated by primary aldosteronism. South Med. J., 90, 243–245.