If acid-base status is available, dosages should be **calculated** as follows: 0.2 x weight (kg) x base deficit. Alternatively: HCO3 (mEq) required = 0.5 x weight (kg) x [24 – serum HCO3 (mEq/L)].

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[su_posts posts_per_page=”1″ tax_term=”2703″ order=”desc” orderby=”rand”] Keeping this in view, how do you calculate bicarbonate?

**Reference:**

- Bicarbonate deficit: The amount of bicarbonate req’d to correct a metabolic acidosis can be estimated from the following formula:
- Volume of distribution (Vd) = Total body weight (kg) x [0.4 + (2.4/[HCO3-])
- (Deficit) mEq of NaHCO3 = Vd x target change in [HCO3-]

how many mEq are in 8.4 sodium bicarbonate? Preparations

Dosage Forms | Strengths | Brand Names |
---|---|---|

Injection | 4.2% (0.5 mEq/mL) (2.5 or 5 mEq)* | Sodium Bicarbonate Injection |

5% (0.595 mEq/mL) (297.5 mEq)* | Sodium Bicarbonate Injection | |

7.5% (0.892 mEq/mL) (8.92 or 44.6 mEq)* | Sodium Bicarbonate Injection | |

8.4% (1 mEq/mL) (10 or 50 mEq)* | Sodium Bicarbonate Injection |

Moreover, how many mEq are in a Bicarb of amps?

8.4% Sodium **Bicarbonate** 1 **mEq**/mL Injection, USP 50 mL Single Dose Vial.

How do you dilute sodium bicarbonate?

**Dilute** the 8.4% **sodium bicarbonate** solution with an equal volume of water for injection. The resulting solution contains 0.5mmol/mL **sodium bicarbonate**.