References 597 vasopressin level and urine production in conscious dogs. Eur. J. Pharmacol. 136 , 279 – 286 . Helwig , M. , Khorooshi , R. M. , Tups , A. , Barrett , P. , Archer , Z. A. , Exner , C. , Rozman , J. , Braulke , L. J. , Mercer , J. G. , and Klingenspor , M. ( 2006 ). PC 1/3 and PC2 gene expression and post-translational endoproteolytic pro-opiomelanocortin processing is regulated by photoperiod in the seasonal Siberian hamster (Phodopus sungorus). J. Neuroendocrinol. 18 , 413 – 425 . Hesselink , J. W. , Taverne , M. A. , Bevers , M. M. , and van Oord , H. A. ( 1995 ). Serum prolactin concentration in pseudopregnant and normally reproducing goats. Vet. Rec. 137 , 166 – 168 . Himura , Y. , Liang , C. S. , Imai , N. , Delehanty , J. M. , Woolf , P. D. , and Hood , W. B. , Jr. ( 1994 ). Short-term effects <strong>of</strong> naloxone on hemodynamics and baroreflex function in conscious dogs with pacinginduced congestive heart failure. J. Am. Coll. Cardiol. 23 , 194 – 200 . Hinuma , S. , Habata , Y. , Fujii , R. , Kawamata , Y. , Hosoya , M. , Fukusumi , S. , Kitada , C. , Masuo , Y. , Asano , T. , Matsumoto , H. , Sekiguchi , M. , Kurokawa , T. , Nishimura , O. , Onda , H. , and Fujino , M. ( 1998 ). A prolactin-releasing peptide in the brain. Nature 393 , 272 – 276 . Ho , Y. , Elefant , F. , Liebhaber , S. A. , and Cooke , N. E. ( 2006 ). Locus control region transcription plays an active role in long-range gene activation. Mol. Cell 23 , 365 – 375 . Hollt , V. , and Haarmann , I. ( 1984 ). Corticotropin-releasing factor differentially regulates proopiomelanocortin messenger ribonucleic acid levels in anterior as compared to intermediate pituitary lobes <strong>of</strong> rats. Biochem. Biophys. Res. Commun. 124 , 407 – 415 . Horseman , N. D. , Zhao , W. , Montecino-Rodriguez , E. , Tanaka , M. , Nakashima , K. , Engle , S. J. , Smith , F. , Mark<strong>of</strong>f , E. , and Dorshkind , K. ( 1997 ). Defective mammopoiesis, but normal hematopoiesis, in mice with a targeted disruption <strong>of</strong> the prolactin gene. Embo. J. 16 , 6926 – 6935 . Houston , D. M. , Allen , D. G. , Kruth , S. A. , Pook , H. , Spinato , M. T. , and Keough , H. ( 1989 ). Syndrome <strong>of</strong> inappropriate antidiuretic hormone secretion in a dog. Can. Vet. J. 30 , 423 . Hullinger , R. ( 1993 ). The Endocrine System. In “ Miller’s Anatomy <strong>of</strong> the Dog ” ( H. E. Evans , Ed.) , p. 559 . Saunders , Philadelphia . Hunter , M. G. , Robinson , R. S. , Mann , G. E. , and Webb , R. ( 2004 ). Endocrine and paracrine control <strong>of</strong> follicular development and ovulation rate in farm species. Anim. Reprod. Sci. 82–83 , 461 – 477 . Hurty , C. A. , and Flatland , B. (2005 ). Feline acromegaly: a review <strong>of</strong> the syndrome. J. Am. Anim. Hosp. Assoc. 41 , 292 – 297 . Hydbring-Sandberg , E. , von Walter , L. W. , Hoglund , K. , Svartberg , K. , Swenson , L. , and Forkman , B. ( 2004 ). Physiological reactions to fear provocation in dogs. J. Endocrinol. 180 , 439 – 448 . Hyde , J. F. , Murai , I. , and Ben-Jonathan , N. ( 1987 ). The rat posterior pituitary contains a potent prolactin-releasing factor: studies with perifused anterior pituitary cells. Endocrinology 121 , 1531 – 1539 . Irvine , C. H. , and Alexander , S. L. ( 1994 ). The dynamics <strong>of</strong> gonadotrophin-releasing hormone, LH and FSH secretion during the spontaneous ovulatory surge <strong>of</strong> the mare as revealed by intensive sampling <strong>of</strong> pituitary venous blood. J. Endocrinol. 140 , 283 – 295 . Ishibashi , M. , and Yamaji , T. (1985). Functional heterogeneity <strong>of</strong> human prolactin-producing pituitary adenomas. In “Prolactin, Basic and <strong>Clinical</strong> Correlates” (R. M. MacLeod, M. O. Thorner, and U. Scapagini, Eds.), vol. 1, p. 693. Liviana Press, Padova . Iturriza , F. C. , Castro , M. G. , and Estivariz , F. E. ( 1986 ). On the stimulatory nature <strong>of</strong> the control <strong>of</strong> MSH secretion in ducks. Gen. Comp. Endocrinol. 64 , 440 – 445 . Ivell , R. , and Richter , D. ( 1985 ). The oxytocin gene and its expression in the hypothalamus and ovary. In “ Oxytocin, <strong>Clinical</strong> and Laboratory Studies ” ( J. A. Amico and A. G. Robinson , Eds.) , p. 115 . Elsevier , Amsterdam . Ivell , R. , Schmale , H. , and Richter , D. ( 1986 ). Biosynthesis <strong>of</strong> vasopressin. J. Cardiovasc. Pharmacol. 8 ( suppl 7 ) , S3 – S4 . Jacobson , L. , and Drouin , J. ( 1994 ). Regulation <strong>of</strong> proopiomelanocortin gene transcription. In “ The Pituitary Gland ” ( H. Imura , Ed.) , p. 117 . Raven , New York . Jacobson , L. , and Sapolsky , R. ( 1991 ). The role <strong>of</strong> the hippocampus in feedback regulation <strong>of</strong> the hypothalamic-pituitary-adrenocortical axis. Endocr. Rev. 12 , 118 – 134 . Janssens , L. A. ( 1981 ). [Bromocriptine (Parlodel) in the treatment <strong>of</strong> pseudo-pregnancy in bitches (author’s transl)]. Tijdschr. Diergeneeskd. 106 , 767 – 770 . Jard , S. ( 1983 ). Vasopressin: mechanisms <strong>of</strong> receptor activation. Prog. Brain. Res. 60 , 383 – 394 . Javadi , S. , Slingerland , L. I. , van de Beek , M. G. , Boer , P. , Boer , W. H. , Mol , J. A. , Rijnberk , A. , and Kooistra , H. S. ( 2004 ). Plasma renin activity and plasma concentrations <strong>of</strong> aldosterone, cortisol, adrenocorticotropic hormone, and alpha-melanocyte-stimulating hormone in healthy cats. J. Vet. Intern. Med. 18 , 625 – 631 . Jephcott , E. H. , McMillen , I. C. , Rushen , J. P. , and Thorburn , G. D. ( 1987 ). A comparison <strong>of</strong> the effects <strong>of</strong> electroimmobilisation and, or, shearing procedures on ovine plasma concentrations <strong>of</strong> beta-endorphin/beta-lipoprotein and cortisol. Res. Vet. Sci. 43 , 97 – 100 . Jorgensen , H. , Knigge , U. , Kjaer , A. , and Warberg , J. ( 2002 ). Serotonergic involvement in stress-induced vasopressin and oxytocin secretion. Eur. J. Endocrinol. 147 , 815 – 824 . Jorgensen , J. S. , Quirk , C. C. , and Nilson , J. H. (2004 ). Multiple and overlapping combinatorial codes orchestrate hormonal responsiveness and dictate cell-specific expression <strong>of</strong> the genes encoding Iuteinizing hormone. Endocr. Rev. 25 , 521 – 542 . Joudrey , E. M. , Lechniak , D. , Petrik , J. , and King , W. A. ( 2003 ). Expression <strong>of</strong> growth hormone and its transcription factor, Pit-1, in early bovine development. Mol. Reprod. Dev. 64 , 275 – 283 . Kantrowitz , L. B. , Peterson , M. E. , Melian , C. , and Nichols , R. ( 2001 ). Serum total thyroxine, total triiodothyronine, free thyroxine, and thyrotropin concentrations in dogs with nonthyroidal disease. J. Am. Vet. Med. Assoc. 219 , 765 – 769 . Keller-Wood , M. ( 1989 ). Control <strong>of</strong> canine ACTH by corticosteroids: an integral feedback effect <strong>of</strong> steroids. Am. J. Physiol. 257 , R427 – R430 . Keller-Wood , M. E. , and Dallman , M. F. ( 1984 ). Corticosteroid inhibition <strong>of</strong> ACTH secretion. Endocr. Rev. 5 , 1 – 24 . Kemppainen , R. J. , and Sartin , J. L. ( 1984 ). Evidence for episodic but not circadian activity in plasma concentrations <strong>of</strong> adrenocorticotrophin, cortisol and thyroxine in dogs. J. Endocrinol. 103 , 219 – 226 . Kemppainen , R. J. , and Sartin , J. L. ( 1986 ). In vivo evidence for dopaminergic regulation <strong>of</strong> the canine pituitary intermediate lobe. Acta Endocrinol. (Copenh.) 113 , 471 – 478 . Kemppainen , R. J. , and Sartin , J. L. ( 1987 ). Front. Horm. Res. 17 , 18 . Kemppainen , R. J. , and Sartin , J. L. ( 1987 b ). Differential Regulation <strong>of</strong> Peptide Release by the Canine Pars distalis and Pars intermedia . Front Horm. Res. 17 , 18 . Kidney , C. M. , Macdonald , J. M. , Angarano , D. W. , Insalaco , T. A. , Kempainnen , R. J. , and Sartin , J. L. ( 2004 ). Amplification <strong>of</strong> proopiomelanocortin mRNA in canine skin: preliminary results. Vet. Dermatol. 15 , 389 – 391 . Kim , J. K. , Summer , S. N. , Wood , W. M. , and Schrier , R. W. ( 2001 ). Role <strong>of</strong> glucocorticoid hormones in arginine vasopressin gene regulation. Biochem. Biophys. Res. Commun. 289 , 1252 – 1256 .
598 Chapter | 18 Pituitary Function King , L. S. , and Yasui , M. ( 2002 ). Aquaporins and disease: lessons from mice to humans. Trends Endocrinol. Metab. 13 , 355 – 360 . Kirpensteijn , J. , Timmermans-Sprang , E. P. , van Garderen , E. , Rutteman , G. R. , Lantinga-van Leeuwen , I. S. , and Mol , J. A. ( 2002 ). Growth hormone gene expression in canine normal growth plates and spontaneous osteosarcoma. Mol. Cell. Endocrinol. 197 , 179 – 185 . Koch , A. , Hoppen , H. O. , Dieleman , S. J. , Kooistra , H. S. , and Gunzel- Apel , A. R. ( 2006 ). Effects <strong>of</strong> the dopamine agonist cabergoline on the pulsatile and TRH-induced secretion <strong>of</strong> prolactin, LH, and testosterone in male beagle dogs. Theriogenology 65 , 1666 – 1677 . Koike , T. I. , Neldon , H. L. , McKay , D. W. , and Rayford , P. L. ( 1986 ). An antiserum that recognizes mesotocin and isotocin: development <strong>of</strong> a homologous radioimmunoassay for plasma mesotocin in chickens (Gallus domesticus). Gen. Comp. Endocrinol. 63 , 93 – 103 . Koohi , M. K. , Ivell , R. , and Walther , N. (2005 ). Transcriptional activation <strong>of</strong> the oxytocm promoter by oestrogens uses a novel non-classical mechanism <strong>of</strong> oestrogen receptor action. J. Neuroendocrinol. 17 , 197 –207 . Kooistra , H. S. , den Hertog , E. , Okkens , A. C. , Mol , J. A. , and Rijnberk , A. ( 2000 a ). Pulsatile secretion pattern <strong>of</strong> growth hormone during the luteal phase and mid-anoestrus in beagle bitches. J. Reprod. Fertil. 119 , 217 – 222 . Kooistra , H. S. , Diaz-Espineira , M. , Mol , J. A. , van den Brom , W. E. , and Rijnberk , A. (2000b ). Secretion pattern <strong>of</strong> thyroid-stimulating hormone in dogs during euthyroidism and hypothyroidism. Domest. Anim. Endocrinol. 18 , 19 – 29 . Kooistra , H. S. , Greven , S. H. , Mol , J. A. , and Rijnberk , A. ( 1997 a ). Pulsatile secretion <strong>of</strong> alpha-MSH and the differential effects <strong>of</strong> dexamethasone and haloperidol on the secretion <strong>of</strong> alpha-MSH and ACTH in dogs. J. Endocrinol. 152 , 113 – 121 . Kooistra , H. S. , and Okkens , A. C. ( 2001 a ). Role <strong>of</strong> changes in the pulsatile secretion pattern <strong>of</strong> FSH in initiation <strong>of</strong> ovarian folliculogenesis in bitches. J. Reprod. Fertil. Suppl. 57 , 11 – 14 . Kooistra , H. S. , and Okkens , A. C. ( 2001 b ). Secretion <strong>of</strong> prolactin and growth hormone in relation to ovarian activity in the dog. Reprod. Domest. Anim. 36 , 115 – 119 . Kooistra , H. S. , and Okkens , A. C. ( 2002 ). Secretion <strong>of</strong> growth hormone and prolactin during progression <strong>of</strong> the luteal phase in healthy dogs: a review. Mol. Cell. Endocrinol. 197 , 167 – 172 . Kooistra , H. S. , Okkens , A. C. , Bevers , M. M. , Popp-Snijders , C. , van Haaften , B. , Dieleman , S. J. , and Schoemaker , J. ( 1999 ). Concurrent pulsatile secretion <strong>of</strong> luteinizing hormone and follicle-stimulating hormone during different phases <strong>of</strong> the estrous cycle and anestrus in beagle bitches. Biol. Reprod. 60 , 65 – 71 . Kooistra , H. S. , Voorhout , G. , Mol , J. A. , and Rijnberk , A. ( 1997 b ). Correlation between impairment <strong>of</strong> glucocorticoid feedback and the size <strong>of</strong> the pituitary gland in dogs with pituitary-dependent hyperadrenocorticism. J. Endocrinol. 152 , 387 – 394 . Kooistra , H. S. , Voorhout , G. , Mol , J. A. , and Rijnberk , A. ( 2000 c ). Combined pituitary hormone deficiency in german shepherd dogs with dwarfism. Domest. Anim. Endocrinol. 19 , 177 – 190 . Kopchick , J. J. ( 2003 ). Discovery and mechanism <strong>of</strong> action <strong>of</strong> pegvisomant. Eur. J. Endocrinol. 148 ( suppl 2 ) , S21 – S25 . Kornalijnslijper , J. E. , Kemp , B. , Bevers , M. M. , van Oord , H. A. , and Taverne , M. A. ( 1997 ). Plasma prolactin, growth hormone and progesterone concentrations in pseudopregnant, hysterectomized and pregnant goats. Anim. Reprod. Sci. 49 , 169 – 178 . Krieger , D. T. ( 1983 ). Physiopathology <strong>of</strong> Cushing’s disease. Endocr. Rev. 4 , 22 – 43 . Lamolet , B. , Poulin , G. , Chu , K. , Guillemot , F. , Tsai , M. J. , and Drouin , J. ( 2004 ). Tpit-independent function <strong>of</strong> NeuroDl(BETA2) in pituitary corticotroph differentiation. Mol. Endocrinol. 18 , 995 – 1003 . Lamolet , B. , Pulichino , A. M. , Lamonerie , T. , Gauthier , Y. , Brue , T. , Enjalbert , A. , and Drouin , J. ( 2001 ). A pituitary cell-restricted T box factor, Tpit, activates POMC transcription in cooperation with Pitx homeoproteins. Cell 104 , 849 – 859 . Lamonerie , T. , Tremblay , J. J. , Lanctot , C. , Therrien , M. , Gauthier , Y. , and Drouin , J. ( 1996 ). Ptxl, abicoid-related homeo box transcription factor involved in transcription <strong>of</strong> the pro-opiomelanocortin gene. Genes Dev. 10 , 1284 – 1295 . Langouche , L. , Hersmus , N. , Papageorgiou , A. , Vankelecom , H. , and Denef , C. ( 2004 ). Melanocortin peptides stimulate prolactin gene expression and prolactin accumulation in rat pituitary aggregate cell cultures. J. Neuroendocrinology 16 , 695 – 703 . Lantinga-van Leeuwen , I. S. , Kooistra , H. S. , Mol , J. A. , Renier , C. , Breen , M. , and van Oost , B. A. ( 2000 a ). Cloning, characterization, and physical mapping <strong>of</strong> the canine Prop-1 gene (PROP1): exclusion as a candidate for combined pituitary hormone deficiency in German shepherd dogs. Cytogenet. Cell. Genet. 88 , 140 – 144 . Lantinga-van Leeuwen , I. S. , Mol , J. A. , Kooistra , H. S. , Rijnberk , A. , Breen , M. , Renier , C. , and van Oost , B. A. ( 2000 b ). Cloning <strong>of</strong> the canine gene encoding transcription factor Pit-1 and its exclusion as candidate gene in a canine model <strong>of</strong> pituitary dwarfism. Mamm. Genome 11 , 31 – 36 . Lantinga van Leeuwen , I. S. , Teske , E. , van Garderen , E. , and Mol , J. A. ( 2000 ). Cloning and characterization <strong>of</strong> the 5 -flanking region <strong>of</strong> the canine growth hormone gene. Anticancer Res. 20 , 2371 – 2376 . Lantinga-van Leeuwen , I. S. , Timmermans-Sprang , E. A. , and Mol , J. A. ( 2002 ). Growth hormone gene expression in normal lymph nodes and lymphomas <strong>of</strong> the dog. Mol. Cell. Endocrinol. 197 , 133 – 141 . Lean , A. D. , Ferland , L. , Drouin , J. , Kelly , P. A. , and Labrie , F. ( 1977 ). Modulation <strong>of</strong> pituitary thyrotropin releasing hormone receptor levels by estrogens and thyroid hormones. Endocrinology 100 , 1496 – 1504 . Lee , C. Y. , Chung , C. S. , and Simmen , F. A. (1993 ). Ontogeny <strong>of</strong> the porcine insulin-like growth factor system. Mol. Cell. Endocrinol. 93 , 71 – 80 . Lee , H. G. , Choi , Y. J. , Lee , S. R. , Kuwayama , H. , Hidari , H. , and You , S. K. ( 2005 ). Effects <strong>of</strong> dietary protein and growth hormone-releasing peptide (GHRP-2) on plasma IGF-1 and IGFBPs in Holstein steers. Domest. Anim. Endocrinol. 28 , 134 – 146 . Lee , W. M. , Diaz-Espineira , M. , Mol , J. A. , Rijnberk , A. , and Kooistra , H. S. (2001 ). Primary hypothyroidism in dogs is associated with elevated GH release. J. Endocrinol. 168 , 59 – 66 . Lee , W. M. , Kooistra , H. S. , Mol , J. A. , Dieleman , S. J. , and Schaefers- Okkens , A. C. ( 2006 ). Ovariectomy during the luteal phase influences secretion <strong>of</strong> prolactin, growth hormone, and insulin-like growth factor-I in the bitch. Theriogenology 66 , 484 – 490 . Lee , W. M. , Meij , B. P. , Bhatti , S. F. , Mol , J. A. , Rijnberk , A. , and Kooistra , H. S. ( 2003 ). Pulsatile secretion pattern <strong>of</strong> growth hormone in dogs with pituitary-dependent hyperadrenocorticism. Domest. Anim. Endocrinol. 24 , 59 – 68 . Li , W. I. , and Chen , C. L. ( 1987 ). Running and shipping elevate plasma levels <strong>of</strong> beta-endorphin-like substance (B-END-LI) in thoroughbred horses. Life. Sci. 40 , 1411 – 1421 . Liard , J. F. ( 1986 ). Effects <strong>of</strong> intra-arterial arginine-vasopressin infusions on peripheral blood flows in conscious dogs. Clin. Sci. (Lond.) 71 , 713 – 721 . Lilly , M. P. , Engeland , W. C. , and Gann , D. S. ( 1983 ). Responses <strong>of</strong> cortisol secretion to repeated hemorrhage in the anesthetized dog. Endocrinology 112 , 681 – 688 . Lincoln , G. A. , and Clarke , I. J. ( 1994 ). Photoperiodically-induced cycles in the secretion <strong>of</strong> prolactin in hypothalamo-pituitary disconnected rams: evidence for translation <strong>of</strong> the melatonin signal in the pituitary gland. J. Neuroendocrinol. 6 , 251 – 260 .
- Page 1 and 2:
Preface It has been more than a dec
- Page 3 and 4:
viii Contributors Björn P. Meij (5
- Page 5 and 6:
2 Chapter | 1 Concepts of Normality
- Page 7 and 8:
4 Chapter | 1 Concepts of Normality
- Page 9 and 10:
6 Chapter | 1 Concepts of Normality
- Page 11 and 12:
8 Chapter | 1 Concepts of Normality
- Page 13 and 14:
10 Chapter | 1 Concepts of Normalit
- Page 15 and 16:
12 Chapter | 1 Concepts of Normalit
- Page 17 and 18:
14 Chapter | 1 Concepts of Normalit
- Page 19 and 20:
16 Chapter | 1 Concepts of Normalit
- Page 21 and 22:
18 Chapter | 1 Concepts of Normalit
- Page 23 and 24:
20 Chapter | 1 Concepts of Normalit
- Page 25 and 26:
22 Chapter | 1 Concepts of Normalit
- Page 27 and 28:
24 Chapter | 1 Concepts of Normalit
- Page 29 and 30:
Chapter 2 Comparative Medical Genet
- Page 31 and 32:
I. Introduction 29 Green Red Green
- Page 33 and 34:
I. Introduction 31 A1 genetic map d
- Page 35 and 36:
I. Introduction 33 of genomes of va
- Page 38 and 39:
36 Chapter | 2 Comparative Medical
- Page 40 and 41:
38 Chapter | 2 Comparative Medical
- Page 42 and 43:
40 Chapter | 2 Comparative Medical
- Page 44 and 45:
42 Chapter | 2 Comparative Medical
- Page 46 and 47:
44 Chapter | 2 Comparative Medical
- Page 48 and 49:
46 Chapter | 3 Carbohydrate Metabol
- Page 50 and 51:
48 Chapter | 3 Carbohydrate Metabol
- Page 52 and 53:
50 Chapter | 3 Carbohydrate Metabol
- Page 54 and 55:
52 Chapter | 3 Carbohydrate Metabol
- Page 56 and 57:
54 Chapter | 3 Carbohydrate Metabol
- Page 58 and 59:
56 Chapter | 3 Carbohydrate Metabol
- Page 60 and 61:
58 Chapter | 3 Carbohydrate Metabol
- Page 62 and 63:
60 Chapter | 3 Carbohydrate Metabol
- Page 64 and 65:
62 Chapter | 3 Carbohydrate Metabol
- Page 66 and 67:
64 Chapter | 3 Carbohydrate Metabol
- Page 68 and 69:
66 Chapter | 3 Carbohydrate Metabol
- Page 71 and 72:
IX. Disorders of Carbohydrate Metab
- Page 73 and 74:
IX. Disorders of Carbohydrate Metab
- Page 75 and 76:
IX. Disorders of Carbohydrate Metab
- Page 77 and 78:
X. Disorders of Ruminants Associate
- Page 79 and 80:
X. Disorders of Ruminants Associate
- Page 81 and 82:
References 79 Kaneko , J. J. , Luic
- Page 83 and 84:
Chapter 4 Lipids and Ketones Michae
- Page 85 and 86:
II. Long Chain Fatty Acids 83 FIGUR
- Page 87 and 88:
II. Long Chain Fatty Acids 85 Plasm
- Page 89 and 90:
IV. Phospholipids 87 The regulation
- Page 91 and 92:
V. Cholesterol 89 V. CHOLESTEROL A.
- Page 93 and 94:
VI. Lipoproteins 91 TABLE 4-1 Compo
- Page 95 and 96:
VI. Lipoproteins 93 TABLE 4-2 Apoli
- Page 98 and 99:
96 Chapter | 4 Lipids and Ketones B
- Page 100 and 101:
98 Chapter | 4 Lipids and Ketones
- Page 102 and 103:
100 Chapter | 4 Lipids and Ketones
- Page 104 and 105:
102 Chapter | 4 Lipids and Ketones
- Page 106 and 107:
104 Chapter | 4 Lipids and Ketones
- Page 108 and 109:
106 Chapter | 4 Lipids and Ketones
- Page 110 and 111:
108 Chapter | 4 Lipids and Ketones
- Page 112 and 113:
110 Chapter | 4 Lipids and Ketones
- Page 114 and 115:
112 Chapter | 4 Lipids and Ketones
- Page 116 and 117:
114 Chapter | 4 Lipids and Ketones
- Page 118 and 119:
Chapter 5 Proteins, Proteomics, and
- Page 120 and 121:
III. Metabolism of Proteins 119 C .
- Page 122 and 123:
IV. Plasma Proteins 121 NH 4 HCO
- Page 124 and 125:
V. Methodology 123 molecule. The gl
- Page 126 and 127:
V. Methodology 125 has occurred wil
- Page 128 and 129:
V. Methodology 127 Although attempt
- Page 130 and 131:
V. Methodology 129 kD 94 67 43 2 2
- Page 132 and 133:
V. Methodology 131 D . Specific Pro
- Page 134 and 135:
VI. Normal Plasma and Serum Protein
- Page 136 and 137:
VI. Normal Plasma and Serum Protein
- Page 138 and 139:
VI. Normal Plasma and Serum Protein
- Page 140 and 141:
VI. Normal Plasma and Serum Protein
- Page 142 and 143:
VI. Normal Plasma and Serum Protein
- Page 144 and 145:
VII. Interpretation of Serum Protei
- Page 146 and 147:
VII. Interpretation of Serum Protei
- Page 148 and 149:
VII. Interpretation of Serum Protei
- Page 150 and 151:
References 149 Andersson , M. , Ste
- Page 152 and 153:
References 151 response of haptoglo
- Page 154 and 155:
References 153 dogs with metastasiz
- Page 156 and 157:
References 155 Watson , T. D. G. (
- Page 158:
158 Chapter | 6 Clinical Veterinary
- Page 163 and 164:
V. Methods for Evaluation of the Im
- Page 165 and 166:
V. Methods for Evaluation of the Im
- Page 167 and 168:
V. Methods for Evaluation of the Im
- Page 169:
VI. Laboratory Diagnosis of Disease
- Page 173 and 174:
Chapter 7 The Erythrocyte: Physiolo
- Page 175 and 176:
II. Hematopoiesis 175 progenitor ce
- Page 177 and 178:
III. Developing Erythroid Cells 177
- Page 179 and 180:
III. Developing Erythroid Cells 179
- Page 181 and 182:
III. Developing Erythroid Cells 181
- Page 183 and 184:
III. Developing Erythroid Cells 183
- Page 185 and 186:
IV. Mature RBC 185 immune-mediated
- Page 187 and 188:
IV. Mature RBC 187 TABLE 7-3 Erythr
- Page 189 and 190:
IV. Mature RBC 189 TABLE 7.5 Erythr
- Page 191 and 192:
IV. Mature RBC 191 Echinocyte forma
- Page 193 and 194:
IV. Mature RBC 193 Pig RBC isoantig
- Page 195 and 196:
IV. Mature RBC 195 occurs in chicke
- Page 197 and 198:
IV. Mature RBC 197 inorganic phosph
- Page 199 and 200:
IV. Mature RBC 199 (a) FIGURE 7-6 T
- Page 201 and 202:
IV. Mature RBC 201 RBC 2,3DPG incre
- Page 203 and 204:
IV. Mature RBC 203 mechanisms would
- Page 205 and 206:
IV. Mature RBC 205 released during
- Page 207 and 208:
IV. Mature RBC 207 reduced by ascor
- Page 209 and 210:
V. Determinants of RBC Survival 209
- Page 211 and 212:
V. Determinants of RBC Survival 211
- Page 213 and 214:
VI. Inherited Disorders of RBCs 213
- Page 215 and 216:
VI. Inherited Disorders of RBCs 215
- Page 217 and 218:
VI. Inherited Disorders of RBCs 217
- Page 219 and 220:
described in people. They include a
- Page 221 and 222:
References 221 Boas , F. E. , Forma
- Page 223 and 224:
References 223 Della Rovere , F. ,
- Page 225 and 226:
References 225 Gedde , M. M. , Davi
- Page 227 and 228:
References 227 phosphofructokinase-
- Page 229 and 230:
References 229 Knight , A. P. , Las
- Page 231 and 232:
References 231 Martinovich , D. , a
- Page 233 and 234:
References 233 Pearson , W. , Boerm
- Page 235 and 236:
References 235 Shadduck , R. K. ( 1
- Page 237 and 238:
References 237 Tennant , B. , Dill
- Page 239 and 240:
References 239 Williams , D. M. , L
- Page 241 and 242:
Chapter 8 Porphyrins and the Porphy
- Page 243 and 244:
II. Porphyrins 243 two vinyl groups
- Page 245 and 246:
II. Porphyrins 245 TABLE 8-2 Nomenc
- Page 247 and 248:
IV. Porphyrias 247 6. Uroporphyrins
- Page 249 and 250:
IV. Porphyrias 249 i . Urine It is
- Page 251 and 252:
IV. Porphyrias 251 to localize the
- Page 253 and 254:
IV. Porphyrias 253 FIGURE 8-6 Metab
- Page 255 and 256:
IV. Porphyrias 255 estrogens. The d
- Page 257 and 258:
References 257 and hexachlorobenzen
- Page 259 and 260:
Chapter 9 Iron Metabolism and Its D
- Page 261 and 262:
II. Iron Distribution 261 plasma of
- Page 263 and 264:
IV. Plasma Iron Transport 263 pathw
- Page 265 and 266:
VI. Iron Metabolism in Cells 265 of
- Page 267 and 268:
VI. Iron Metabolism in Cells 267 in
- Page 269 and 270:
VII. Tests for Evaluating Iron Meta
- Page 271 and 272:
VII. Tests for Evaluating Iron Meta
- Page 273 and 274:
VIII. Disorders of Iron Metabolism
- Page 275 and 276:
VIII. Disorders of Iron Metabolism
- Page 277 and 278:
VIII. Disorders of Iron Metabolism
- Page 279 and 280:
References 279 ( Norrdin et al ., 2
- Page 281 and 282:
References 281 Fresco , R. ( 1981 )
- Page 283 and 284:
References 283 Moore , C. V. , Duba
- Page 285 and 286:
References 285 Weiden , P. L. , Hac
- Page 287 and 288:
288 Chapter | 10 Hemostasis TABLE 1
- Page 289 and 290:
290 Chapter | 10 Hemostasis TABLE 1
- Page 291 and 292:
292 Chapter | 10 Hemostasis The pro
- Page 293 and 294:
294 Chapter | 10 Hemostasis exhibit
- Page 295 and 296:
296 Chapter | 10 Hemostasis TABLE 1
- Page 297 and 298:
298 Chapter | 10 Hemostasis that is
- Page 299 and 300:
300 Chapter | 10 Hemostasis TABLE 1
- Page 301 and 302:
302 Chapter | 10 Hemostasis However
- Page 303 and 304:
304 Chapter | 10 Hemostasis 2. Comp
- Page 305 and 306:
306 Chapter | 10 Hemostasis is a re
- Page 307 and 308:
308 Chapter | 10 Hemostasis 2. Asse
- Page 309 and 310:
310 Chapter | 10 Hemostasis necessi
- Page 311 and 312:
312 Chapter | 10 Hemostasis disease
- Page 313 and 314:
314 Chapter | 10 Hemostasis concent
- Page 315 and 316:
316 Chapter | 10 Hemostasis the rol
- Page 317 and 318:
318 Chapter | 10 Hemostasis proport
- Page 319 and 320:
320 Chapter | 10 Hemostasis a consi
- Page 321 and 322:
322 Chapter | 10 Hemostasis Bakhtia
- Page 323 and 324:
324 Chapter | 10 Hemostasis Dowd ,
- Page 325 and 326:
326 Chapter | 10 Hemostasis Kier ,
- Page 327 and 328:
328 Chapter | 10 Hemostasis Nielsen
- Page 329 and 330:
330 Chapter | 10 Hemostasis Tablin
- Page 331 and 332:
332 Chapter | 11 Neutrophil Functio
- Page 333 and 334:
334 Chapter | 11 Neutrophil Functio
- Page 335 and 336:
336 Chapter | 11 Neutrophil Functio
- Page 337 and 338:
338 Chapter | 11 Neutrophil Functio
- Page 339 and 340:
340 Chapter | 11 Neutrophil Functio
- Page 341 and 342:
342 Chapter | 11 Neutrophil Functio
- Page 343 and 344:
344 Chapter | 11 Neutrophil Functio
- Page 345 and 346:
346 Chapter | 11 Neutrophil Functio
- Page 347 and 348:
348 Chapter | 11 Neutrophil Functio
- Page 349 and 350:
350 Chapter | 11 Neutrophil Functio
- Page 351 and 352:
352 Chapter | 12 Diagnostic Enzymol
- Page 353 and 354:
354 Chapter | 12 Diagnostic Enzymol
- Page 355 and 356:
356 Chapter | 12 Diagnostic Enzymol
- Page 357 and 358:
358 Chapter | 12 Diagnostic Enzymol
- Page 359 and 360:
360 Chapter | 12 Diagnostic Enzymol
- Page 361 and 362:
362 Chapter | 12 Diagnostic Enzymol
- Page 363 and 364:
364 Chapter | 12 Diagnostic Enzymol
- Page 365 and 366:
366 Chapter | 12 Diagnostic Enzymol
- Page 367 and 368:
368 Chapter | 12 Diagnostic Enzymol
- Page 369 and 370:
370 Chapter | 12 Diagnostic Enzymol
- Page 371 and 372:
372 Chapter | 12 Diagnostic Enzymol
- Page 373 and 374:
374 Chapter | 12 Diagnostic Enzymol
- Page 375 and 376:
376 Chapter | 12 Diagnostic Enzymol
- Page 377 and 378:
378 Chapter | 12 Diagnostic Enzymol
- Page 379 and 380:
380 Chapter | 13 Hepatic Function L
- Page 381 and 382:
382 Chapter | 13 Hepatic Function e
- Page 383 and 384:
384 Chapter | 13 Hepatic Function p
- Page 385 and 386:
386 Chapter | 13 Hepatic Function m
- Page 387 and 388:
388 Chapter | 13 Hepatic Function s
- Page 389 and 390:
390 Chapter | 13 Hepatic Function f
- Page 391 and 392:
392 Chapter | 13 Hepatic Function T
- Page 393 and 394:
394 Chapter | 13 Hepatic Function 2
- Page 395 and 396:
396 Chapter | 13 Hepatic Function u
- Page 397 and 398:
398 Chapter | 13 Hepatic Function 2
- Page 399 and 400:
400 Chapter | 13 Hepatic Function c
- Page 401 and 402:
402 Chapter | 13 Hepatic Function F
- Page 403 and 404:
404 Chapter | 13 Hepatic Function A
- Page 405 and 406:
406 Chapter | 13 Hepatic Function E
- Page 407 and 408:
408 Chapter | 13 Hepatic Function K
- Page 409 and 410:
410 Chapter | 13 Hepatic Function R
- Page 411 and 412:
412 Chapter | 13 Hepatic Function W
- Page 413 and 414:
414 Chapter | 14 Gastrointestinal F
- Page 415 and 416:
416 Chapter | 14 Gastrointestinal F
- Page 417 and 418:
418 Chapter | 14 Gastrointestinal F
- Page 419 and 420:
420 Chapter | 14 Gastrointestinal F
- Page 421 and 422:
422 Chapter | 14 Gastrointestinal F
- Page 423 and 424:
424 Chapter | 14 Gastrointestinal F
- Page 425 and 426:
426 Chapter | 14 Gastrointestinal F
- Page 427 and 428:
428 Chapter | 14 Gastrointestinal F
- Page 429 and 430:
430 Chapter | 14 Gastrointestinal F
- Page 431 and 432:
432 Chapter | 14 Gastrointestinal F
- Page 433 and 434:
434 Chapter | 14 Gastrointestinal F
- Page 435 and 436:
436 Chapter | 14 Gastrointestinal F
- Page 437 and 438:
438 Chapter | 14 Gastrointestinal F
- Page 439 and 440:
440 Chapter | 14 Gastrointestinal F
- Page 441 and 442:
442 Chapter | 14 Gastrointestinal F
- Page 443 and 444:
444 Chapter | 14 Gastrointestinal F
- Page 445 and 446:
446 Chapter | 14 Gastrointestinal F
- Page 447 and 448:
448 Chapter | 14 Gastrointestinal F
- Page 449 and 450:
450 Chapter | 14 Gastrointestinal F
- Page 451 and 452:
452 Chapter | 14 Gastrointestinal F
- Page 453 and 454:
454 Chapter | 14 Gastrointestinal F
- Page 455 and 456:
456 Chapter | 14 Gastrointestinal F
- Page 457 and 458:
Chapter 15 Skeletal Muscle Function
- Page 459 and 460:
II. Specialization of the Sarcolemm
- Page 461 and 462:
II. Specialization of the Sarcolemm
- Page 463 and 464:
III. Heterogeneity of Skeletal Musc
- Page 465 and 466:
III. Heterogeneity of Skeletal Musc
- Page 467 and 468:
V. Exercise and Adaptations to Trai
- Page 469 and 470:
VI. Diagnostic Laboratory Methods f
- Page 471 and 472:
VI. Diagnostic Laboratory Methods f
- Page 473 and 474:
IX. Selected Neuromuscular Disorder
- Page 475 and 476:
IX. Selected Neuromuscular Disorder
- Page 477 and 478:
References 479 and, recently, there
- Page 479 and 480:
References 481 Engel , A. G. ( 2004
- Page 481 and 482:
References 483 Paciello , O. , Maio
- Page 483 and 484:
Chapter 16 Kidney Function and Dama
- Page 485 and 486:
II. Kidney Morphology and Function
- Page 487 and 488:
II. Kidney Morphology and Function
- Page 489 and 490:
III. Tests of Kidney Function 491 (
- Page 491 and 492:
III. Tests of Kidney Function 493 T
- Page 493 and 494:
III. Tests of Kidney Function 495 B
- Page 495 and 496:
6 5 4 3 2 1 0 Dog Cat Equine Cattle
- Page 497 and 498:
III. Tests of Kidney Function 499 d
- Page 499 and 500:
IV. Tests of Kidney Damage 501 1000
- Page 501 and 502:
IV. Tests of Kidney Damage 503 and
- Page 503 and 504:
IV. Tests of Kidney Damage 505 Enzy
- Page 505 and 506:
V. Biochemical Changes in Kidney Di
- Page 507 and 508:
V. Biochemical Changes in Kidney Di
- Page 509 and 510:
References 511 were reported to occ
- Page 511 and 512:
References 513 Bovee , K. C. ( 1969
- Page 513 and 514:
References 515 Deguchi , E. , and A
- Page 515 and 516:
References 517 Fleming , S. A. , Hu
- Page 517 and 518:
References 519 Harvey , D. G. ( 197
- Page 519 and 520:
References 521 Kühl , S. , Mischke
- Page 521 and 522:
References 523 creatinine measureme
- Page 523 and 524:
References 525 Reusch , C. , Vochez
- Page 525 and 526:
References 527 Terry , R. , Hawkins
- Page 527 and 528:
Chapter 17 Fluid, Electrolyte, and
- Page 530 and 531:
532 Chapter | 17 Fluid, Electrolyte
- Page 534 and 535:
536 Chapter | 17 Fluid, Electrolyte
- Page 536 and 537:
538 Chapter | 17 Fluid, Electrolyte
- Page 538 and 539:
540 Chapter | 17 Fluid, Electrolyte
- Page 540 and 541:
542 Chapter | 17 Fluid, Electrolyte
- Page 542 and 543:
544 Chapter | 17 Fluid, Electrolyte
- Page 544 and 545: 546 Chapter | 17 Fluid, Electrolyte
- Page 546 and 547: 548 Chapter | 17 Fluid, Electrolyte
- Page 548 and 549: 550 Chapter | 17 Fluid, Electrolyte
- Page 551 and 552: VIII. Clinicopathological Indicator
- Page 553 and 554: References 555 plasma water, electr
- Page 555 and 556: References 557 Krzywanek , H. ( 197
- Page 557 and 558: References 559 Strombeck , D. R. (1
- Page 559 and 560: 562 Chapter | 18 Pituitary Function
- Page 561 and 562: 564 Chapter | 18 Pituitary Function
- Page 563 and 564: 566 Chapter | 18 Pituitary Function
- Page 565 and 566: 568 Chapter | 18 Pituitary Function
- Page 567 and 568: 570 Chapter | 18 Pituitary Function
- Page 569 and 570: 572 Chapter | 18 Pituitary Function
- Page 571 and 572: 574 Chapter | 18 Pituitary Function
- Page 573 and 574: 576 Chapter | 18 Pituitary Function
- Page 575 and 576: 578 Chapter | 18 Pituitary Function
- Page 577 and 578: 580 Chapter | 18 Pituitary Function
- Page 579 and 580: 582 Chapter | 18 Pituitary Function
- Page 581 and 582: 584 Chapter | 18 Pituitary Function
- Page 583 and 584: 586 Chapter | 18 Pituitary Function
- Page 585 and 586: 588 Chapter | 18 Pituitary Function
- Page 587 and 588: 590 Chapter | 18 Pituitary Function
- Page 589 and 590: 592 Chapter | 18 Pituitary Function
- Page 591 and 592: 594 Chapter | 18 Pituitary Function
- Page 593: 596 Chapter | 18 Pituitary Function
- Page 597 and 598: 600 Chapter | 18 Pituitary Function
- Page 599 and 600: 602 Chapter | 18 Pituitary Function
- Page 601 and 602: 604 Chapter | 18 Pituitary Function
- Page 603 and 604: 606 Chapter | 19 Adrenocortical Fun
- Page 605 and 606: 608 Chapter | 19 Adrenocortical Fun
- Page 607 and 608: 610 Chapter | 19 Adrenocortical Fun
- Page 609 and 610: 612 Chapter | 19 Adrenocortical Fun
- Page 611 and 612: 614 Chapter | 19 Adrenocortical Fun
- Page 613 and 614: 616 Chapter | 19 Adrenocortical Fun
- Page 615 and 616: 618 Chapter | 19 Adrenocortical Fun
- Page 617 and 618: 620 Chapter | 19 Adrenocortical Fun
- Page 619 and 620: 622 Chapter | 19 Adrenocortical Fun
- Page 621 and 622: 624 Chapter | 20 Thyroid Function a
- Page 623 and 624: 626 Chapter | 20 Thyroid Function t
- Page 625 and 626: 628 Chapter | 20 Thyroid Function A
- Page 627 and 628: 630 Chapter | 20 Thyroid Function S
- Page 629 and 630: 632 Chapter | 20 Thyroid Function a
- Page 631 and 632: 634 Chapter | 20 Thyroid Function O
- Page 633 and 634: 636 Chapter | 21 Clinical Reproduct
- Page 635 and 636: 638 Chapter | 21 Clinical Reproduct
- Page 637 and 638: 640 Chapter | 21 Clinical Reproduct
- Page 639 and 640: 642 Chapter | 21 Clinical Reproduct
- Page 641 and 642: 644 Chapter | 21 Clinical Reproduct
- Page 643 and 644: 646 Chapter | 21 Clinical Reproduct
- Page 645 and 646:
648 Chapter | 21 Clinical Reproduct
- Page 647 and 648:
650 Chapter | 21 Clinical Reproduct
- Page 649 and 650:
652 Chapter | 21 Clinical Reproduct
- Page 651 and 652:
654 Chapter | 21 Clinical Reproduct
- Page 653 and 654:
656 Chapter | 21 Clinical Reproduct
- Page 655 and 656:
658 Chapter | 21 Clinical Reproduct
- Page 657 and 658:
660 Chapter | 21 Clinical Reproduct
- Page 659 and 660:
662 Chapter | 21 Clinical Reproduct
- Page 661 and 662:
664 Chapter | 22 Trace Minerals the
- Page 663 and 664:
666 Chapter | 22 Trace Minerals the
- Page 665 and 666:
668 Chapter | 22 Trace Minerals P i
- Page 667 and 668:
670 Chapter | 22 Trace Minerals be
- Page 669 and 670:
Copper Cuproreductase Cytochromes C
- Page 671 and 672:
674 Chapter | 22 Trace Minerals 2 .
- Page 673 and 674:
676 Chapter | 22 Trace Minerals Cor
- Page 675 and 676:
678 Chapter | 22 Trace Minerals inf
- Page 677 and 678:
680 Chapter | 22 Trace Minerals tis
- Page 679 and 680:
682 Chapter | 22 Trace Minerals VI
- Page 681 and 682:
684 Chapter | 22 Trace Minerals red
- Page 683 and 684:
686 Chapter | 22 Trace Minerals of
- Page 685 and 686:
688 Chapter | 22 Trace Minerals Per
- Page 687 and 688:
690 Chapter | 22 Trace Minerals In
- Page 689 and 690:
692 Chapter | 22 Trace Minerals Liu
- Page 691 and 692:
Chapter 23 Vitamins Robert B. Rucke
- Page 693 and 694:
III. Fat-Soluble Vitamins 697 TABLE
- Page 695 and 696:
III. Fat-Soluble Vitamins 699 Carot
- Page 697 and 698:
III. Fat-Soluble Vitamins 701 Major
- Page 699 and 700:
III. Fat-Soluble Vitamins 703 doses
- Page 701 and 702:
III. Fat-Soluble Vitamins 705 Diet
- Page 703 and 704:
III. Fat-Soluble Vitamins 707 conta
- Page 705 and 706:
III. Fat-Soluble Vitamins 709 immun
- Page 707 and 708:
IV. Water-Soluble Vitamins 711 are
- Page 709 and 710:
IV. Water-Soluble Vitamins 713 abil
- Page 711 and 712:
IV. Water-Soluble Vitamins 715 5’
- Page 713 and 714:
IV. Water-Soluble Vitamins 717 H 2
- Page 715 and 716:
IV. Water-Soluble Vitamins 719 Enzy
- Page 718 and 719:
722 Chapter | 23 Vitamins When biot
- Page 720 and 721:
724 Chapter | 23 Vitamins Cyanocoba
- Page 722 and 723:
726 Chapter | 23 Vitamins V . VITAM
- Page 724 and 725:
728 Chapter | 23 Vitamins nature, r
- Page 726 and 727:
730 Chapter | 23 Vitamins Stites ,
- Page 728 and 729:
732 Chapter | 24 Lysosomal Storage
- Page 730 and 731:
734 Chapter | 24 Lysosomal Storage
- Page 732 and 733:
736 Chapter | 24 Lysosomal Storage
- Page 734 and 735:
738 Chapter | 24 Lysosomal Storage
- Page 736 and 737:
740 Chapter | 24 Lysosomal Storage
- Page 738 and 739:
742 Chapter | 24 Lysosomal Storage
- Page 740 and 741:
744 Chapter | 24 Lysosomal Storage
- Page 742 and 743:
746 Chapter | 24 Lysosomal Storage
- Page 744 and 745:
748 Chapter | 24 Lysosomal Storage
- Page 746 and 747:
Chapter 25 Tumor Markers Michael D.
- Page 748 and 749:
II. Serum Tumor Markers 753 also be
- Page 750 and 751:
III. Flow Cytometry 755 cancer of t
- Page 752 and 753:
V. Immunohistochemistry/Immunocytoc
- Page 754 and 755:
V. Immunohistochemistry/Immunocytoc
- Page 756 and 757:
References 761 analysis will facili
- Page 758 and 759:
References 763 Fernandez , N. J. ,
- Page 760 and 761:
References 765 Meinecke , B. , and
- Page 762 and 763:
References 767 Walter , J. ( 2000 )
- Page 764 and 765:
770 Chapter | 26 Cerebrospinal Flui
- Page 766 and 767:
772 Chapter | 26 Cerebrospinal Flui
- Page 768 and 769:
774 Chapter | 26 Cerebrospinal Flui
- Page 770 and 771:
776 Chapter | 26 Cerebrospinal Flui
- Page 772 and 773:
778 Chapter | 26 Cerebrospinal Flui
- Page 774 and 775:
TABLE 26-7 Continued Constituent Ro
- Page 776 and 777:
782 Chapter | 26 Cerebrospinal Flui
- Page 778 and 779:
784 Chapter | 26 Cerebrospinal Flui
- Page 780 and 781:
786 Chapter | 26 Cerebrospinal Flui
- Page 782 and 783:
788 Chapter | 26 Cerebrospinal Flui
- Page 784 and 785:
790 Chapter | 26 Cerebrospinal Flui
- Page 786 and 787:
792 Chapter | 26 Cerebrospinal Flui
- Page 788 and 789:
794 Chapter | 26 Cerebrospinal Flui
- Page 790 and 791:
796 Chapter | 26 Cerebrospinal Flui
- Page 792 and 793:
798 Chapter | 26 Cerebrospinal Flui
- Page 794 and 795:
800 Chapter | 26 Cerebrospinal Flui
- Page 796 and 797:
802 Chapter | 26 Cerebrospinal Flui
- Page 798 and 799:
804 Chapter | 26 Cerebrospinal Flui
- Page 800 and 801:
806 Chapter | 26 Cerebrospinal Flui
- Page 802 and 803:
808 Chapter | 26 Cerebrospinal Flui
- Page 804 and 805:
810 Chapter | 26 Cerebrospinal Flui
- Page 806 and 807:
812 Chapter | 26 Cerebrospinal Flui
- Page 808 and 809:
814 Chapter | 26 Cerebrospinal Flui
- Page 810 and 811:
816 Chapter | 26 Cerebrospinal Flui
- Page 812 and 813:
818 Chapter | 26 Cerebrospinal Flui
- Page 814 and 815:
Chapter 27 Clinical Biochemistry in
- Page 816 and 817:
II. Hepatotoxicity 823 Therefore, A
- Page 818 and 819:
III. Nephrotoxicity 825 suggested a
- Page 820 and 821:
IV. Toxins Affecting Skeletal and C
- Page 822 and 823:
VII. Toxins Affecting Erythrocytes
- Page 824 and 825:
VIII. Toxins Affecting Hemoglobin a
- Page 826 and 827:
IX. Toxins Affecting the Nervous Sy
- Page 828 and 829:
References 835 Plants classified as
- Page 830 and 831:
References 837 Solaiman , S. G. , M
- Page 832 and 833:
840 Chapter | 28 Avian Clinical Bio
- Page 834 and 835:
842 Chapter | 28 Avian Clinical Bio
- Page 836 and 837:
844 Chapter | 28 Avian Clinical Bio
- Page 838 and 839:
846 Chapter | 28 Avian Clinical Bio
- Page 840 and 841:
848 Chapter | 28 Avian Clinical Bio
- Page 842 and 843:
850 Chapter | 28 Avian Clinical Bio
- Page 844 and 845:
Budgerigar ALAT (IU/g tissue) Budge
- Page 846 and 847:
854 Chapter | 28 Avian Clinical Bio
- Page 848 and 849:
856 Chapter | 28 Avian Clinical Bio
- Page 850 and 851:
858 Chapter | 28 Avian Clinical Bio
- Page 852 and 853:
860 Chapter | 28 Avian Clinical Bio
- Page 854 and 855:
862 Chapter | 28 Avian Clinical Bio
- Page 856 and 857:
864 Chapter | 28 Avian Clinical Bio
- Page 858 and 859:
866 Chapter | 28 Avian Clinical Bio
- Page 860 and 861:
868 Chapter | 28 Avian Clinical Bio
- Page 862 and 863:
870 Chapter | 28 Avian Clinical Bio
- Page 864 and 865:
872 Chapter | 28 Avian Clinical Bio
- Page 866 and 867:
874 Appendix | I SI Units TABLE E S
- Page 868 and 869:
Appendix II Conversion Factors of S
- Page 870 and 871:
Appendix IV Stability of Serum Enzy
- Page 872 and 873:
Appendix VI Nomogram for Computing
- Page 874 and 875:
t0100 Appendix VIII Blood Analyte R
- Page 876 and 877:
884 Appendix | VIII Blood Analyte R
- Page 878 and 879:
886 Appendix | VIII Blood Analyte R
- Page 880 and 881:
888 Appendix | VIII Blood Analyte R
- Page 882 and 883:
890 Appendix | IX Blood Analyte Ref
- Page 884 and 885:
892 Appendix | IX Blood Analyte Ref
- Page 886 and 887:
894 Appendix | IX Blood Analyte Ref
- Page 888 and 889:
Appendix X Blood Analyte Reference
- Page 890 and 891:
Appendix XI Blood Analyte Reference
- Page 892 and 893:
Appendix XII Urine Analyte Referenc
- Page 894 and 895:
902 Appendix | XIII Cerebrospinal F
- Page 896:
904 Appendix | XIV Cerebrospinal Fl