Page 260 - Fluid, Electrolyte, and Acid-Base Disorders in Small Animal Practice
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Introduction to Acid-Base Disorders  251



             8. Bleich HL, Berkman PM, Schwartz WB. The response of  canine and feline serum and blood. Am J Vet Res
               cerebrospinal fluid composition to sustained hypercapnia.  1997;58:343.
               J Clin Invest 1964;43:11.                        31. Kilborn SH, Bonnett BN, Pook HA. Comparison of three
             9. Burnell JM. Changes in bone sodium and carbonate in met-  different methods of total carbon dioxide measurement.
               abolic acidosis and alkalosis in the dog. J Clin Invest  Vet Clin Pathol 1995;24:22.
               1971;50:327.                                     32. King LG, Anderson JG, Rhodes WH, et al. Arterial blood
            10. Burnell JM, Villamil MF, Uyeno BT, et al. The effect in  gas tensions in healthy aged dogs. Am J Vet Res
               humans of extracellular pH change on the relationship  1992;53:1744.
               between serum potassium concentration and intracellular  33. Koeppen BM. The kidney and acid base regulation. Adv
               potassium. J Clin Invest 1956;35:935.                Physiol Educ 2009;33:275.
            11. Chew DJ, Leonard M, Muir WW. Effect of sodium bicar-  34. Madias NE, Adrogue JH, Cohen JJ. Effect of natural

               bonate  infusion  on  serum  osmolality,  electrolyte  variations in Paco 2 on plasma HCO 3 in dogs: a redefini-
               concentrations, and blood gas tensions in cats. Am J Vet  tion of normal. Am J Physiol 1979;236:F30.
               Res 1991;52:12.                                  35. Madias NE, Ayus JC, Adrogue HJ. Increased anion gap in
            12. Ching SV, Fettman MJ, Harnar DW, et al. The effect of  metabolic alkalosis: the role of plasma protein equivalency.
               chronic dietary acidification using ammonium chloride  N Engl J Med 1979;300:1421.
               on acid-base and mineral metabolism in the adult cat. J  36. Madias NE, Bossert WH, Adrogue HJ. Ventilatory
               Nutr 1989;119:902.                                   response to chronic metabolic acidosis and alkalosis in
            13. Christopher MM, Eckfeld JH, Eaton JW. Propylene glycol  the dog. J Appl Physiol 1984;56:1640.
               ingestion causes D-lactic acidosis. Lab Invest 1990;62:114.  37. Madias NE, Cohen JJ. Acid-base chemistry and buffering.
            14. Cohen JJ, Brackett NC, Schwartz WB. The nature of the  In: Cohen JJ, Kassirer JP, editors. Acid-base. Boston: Little,
               carbon dioxide titration curve in the normal dog. J Clin  Brown; 1982. p. 13.
               Invest 1964;43:777.                              38. Madias NE, Cohen JJ. Acid-base chemistry and buffering.
            15. Cohen RM, Feldman GM, Fernandez PC. The balance of  In: Cohen JJ, Kassirer JP, editors. Acid-base. Boston: Little,
               acid, base and charge in health and disease. Kidney Int  Brown; 1982. p. 17.
               1997;52:287.                                     39. Madias NE, Schwartz WB, Cohen JJ. The maladaptive
            16. Constable PD, Sta ¨mpfli HR. Experimental determination  renal response to secondary hypocapnia during chronic
               of net protein charge and A tot and K a of nonvolatile buffers  HCl acidosis in the dog. J Clin Invest 1977;60:1393.
               in canine plasma. J Vet Intern Med 2005;19:507.  40. Madiedo G, Sciacca R, Hause L. Air bubbles and tempera-
            17. Cornelius LM, Rawlings CA. Arterial blood gas and acid  ture effect on blood gas analysis. J Comp Pathol
               base values in dogs with various diseases and signs of dis-  1980;33:864.
               ease. J Am Vet Med Assoc 1981;178:992.           41. Magner PO, Robinson L, Halperin RM, et al. The plasma
            18. Emmett M, Narins RG. Clinical use of the anion gap.  potassium concentration in metabolic acidosis: a re-evalua-
               Medicine (Baltimore) 1977;56:38.                     tion. Am J Kidney Dis 1988;11:220.
            19. Gabow PA. Disorders associated with an altered anion gap.  42. Malnic G, Giebisch G. Mechanism of renal hydrogen ion
               Kidney Int 1985;27:472.                              secretion. Kidney Int 1972;1:280.
            20. Halperin ML. How much “new” bicarbonate is formed  43. Malnic G, Mellow Aires M. Kinetic study of bicarbonate
               in the distal nephron in the process of net acid excretion?  reabsorption in proximal tubule of the rat. Am J Physiol
               Kidney Int 1989;35:1277.                             1971;220:1759.
            21. Halperin ML, Jungas RL. Metabolic production and dis-  44. McAuliffe JJ, Lind LJ, Leith DE, et al. Hypoproteinemic
               posal of hydrogen ions. Kidney Int 1983;24:709.      alkalosis. Am J Med 1986;81:86.
            22. Harrington JT, Cohen JJ, Kassirer JP. Introduction to the  45. McCullough SM, Constable PD. Calculation of the total
               clinical acid-base disturbances. In: Cohen JJ, Kassirer JP,  plasma concentration of nonvolatile weak acids and the
               editors. Acid-base. Boston: Little, Brown; 1982. p. 119.  effective dissociation constant of nonvolatile buffers in
            23. Haskins SC. An overview of acid-base physiology. J Am Vet  plasma for use in the strong ion approach to acid-base
               Med Assoc 1977;170:423.                              balance in cats. Am J Vet Res 2003;64:1047–51.
            24. Haskins SC. Sampling and storage of blood for pH and  46. Middleton DJ, Ilkiw JE, Watson ADJ. Arterial and venous
               blood gas analysis. J Am Vet Med Assoc 1977;170:429.  blood gas tensions in clinically healthy cats. Am J Vet Res
            25. Haskins SC. Blood gases and acid-base balance: clinical  1981;42:1609.
               interpretation and therapeutic implications. In: Kirk RW,  47. Oh MS, Carrol JH. The anion gap. N Engl J Med
               editor. Current veterinary therapy VIII. Philadelphia: WB  1977;297:814.
               Saunders; 1983. p. 201.                          48. Oster JR, Perez GO, Castro A, et al. Plasma potassium
            26. Herbert DA, Mitchell RA. Blood gas tensions and acid-base  response to acute metabolic acidosis induced by mineral
               balance in awake cats. J Appl Physiol 1971;30:434.   and nonmineral acids. Miner Electrolyte Metab 1980;4:28.
            27. Hutchison AS, Ralston SH, Drybaugh FJ, et al. Too much  49. Oster JR, Perez GO, Vaamonde CA. Relationship between
               heparin: possible source of error in blood gas analysis. BMJ  blood pH and potassium and phosphorus during acute
               1983;287:1131.                                       metabolic acidosis. Am J Physiol 1978;235:F345.
            28. Ilkiw JE, Davis PE, Church DB. Hematologic, biochemi-  50. Polzin DJ, Stevens JB, Osborne CA. Clinical evaluation of
               cal, blood gas, and acid base values in greyhounds before  the anion gap in evaluation of acid-base disorders in dogs.
               and after exercise. Am J Vet Res 1989;50:583.        Compend Contin Educ Pract Vet 1982;4:102.
            29. Ilkiw JE, Rose RJ, Martin ICA. A comparison of simulta-  51. Pruden EL, Siggaard-Andersen O, Tietz NW. Blood gases
               neously collected arterial, mixed venous, jugular venous  and pH. In: Burtis CA, Ashwood ER, editors. Tietz
               and cephalic venous blood samples in the assessment of  fundamentals of clinical chemistry. Philadelphia: WB
               blood gas and acid base status in dogs. J Vet Intern Med  Saunders; 1996. p. 506.
               1991;5:294.                                      52. Rodkey WG, Hannon JP, Dramise JG, et al. Arterialized
            30. James KM, Polzin DJ, Osborne CA, et al. Effects of sample  capillary blood used to determine the acid-base and blood
               handling on total carbon dioxide concentrations in   gas status of dogs. Am J Vet Res 1978;39:459.
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