April 2013, Volume 11 Number 2, p 1 - 2 [FREE]

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April 2013, Volume 11 Number 2 , p 1 - 2 [FREE]

- Kelley Miller Wilson MSN, RN

Nurses are often intimidated by the math that occurs in everyday practice. Patient safety depends on the practitioner's ability to calculate medications correctly and in a timely manner. This article will provide a simple and concise method for accurate computation using basic calculations (see Quick reference: Universal formulas).Even with the programmable I.V. pumps used in many clinical settings, it's advisable for the nurse to verify the correct dosage by calculation once during the shift; more often if a medication is being titrated or changed. Verification of correct dosages with another RN is also a widespread practice among many professionals and sometimes mandatory in institutions.Another resource that's present in many practice settings is the pharmacy. Pharmacists have an abundance of knowledge about medications, as well as an unparalleled proficiency with drug calculations; utilize their expertise if you're unsure of your computation.Knowing the therapeutic dosage for the desired

Nurses are often intimidated by the math that occurs in everyday practice. Patient safety depends on the practitioner's ability to calculate medications correctly and in a timely manner. This article will provide a simple and concise method for accurate computation using basic calculations (see *Quick reference: Universal formulas*).

Even with the programmable I.V. pumps used in many clinical settings, it's advisable for the nurse to verify the correct dosage by calculation once during the shift; more often if a medication is being titrated or changed. Verification of correct dosages with another RN is also a widespread practice among many professionals and sometimes mandatory in institutions.

Another resource that's present in many practice settings is the pharmacy. Pharmacists have an abundance of knowledge about medications, as well as an unparalleled proficiency with drug calculations; utilize their expertise if you're unsure of your computation.

Knowing the therapeutic dosage for the desired effect is as important as knowing the correct calculations for the drug. For example, dopamine at doses of 3 to 5 mcg/kg/minute provides a gentle dilatation of the renal arteries, increasing urine output with no effect on BP. At higher doses (up to 20 mcg/kg/minute), dopamine is used for BP support. Know the medication and what effect you're attempting to achieve, as well as the maximum recommended safe infusion dosage.

Next time you have a patient on I.V. medication, try the following simple methods for calculating in a systematic way. Patient medication safety is a goal that all practitioners have in common-it starts with doing the math!

The universal formula is:

**Example:**

Administer heparin 5,000 units I.V. push. Available is heparin 10,000 units/mL. How many mL will you need to administer to achieve a 5,000 unit dose?

Answer: X = 0.5 mL

Follow these four steps to easily calculate your patient's accurate drug dosage.

1. Find out what's in your I.V. bottle (drug concentration or number of mL of fluid).

2. Determine in which units your drug is measured (units/hour, mg/hour, or mcg/kg/minute).

3. Know the patient's weight in kg if your calculation is weight based.

4. Use the universal formula below and then divide your final answer by the patient's weight in kg to arrive at mcg/kg/minute.

**Example:**

Dopamine is infusing. The bottle states dopamine 800 mg, and it's mixed in 500 mL of D_{5}W. The I.V. pump in your patient's room is set at 15 mL, and the patient weighs 60 kg (60,000 g). At how many mcg/kg/minute is the patient's dopamine infusing?

Answer: X = 6.7 mcg/kg/minute

**Example:**

Dobutamine 200 mg in 250 mL of D_{5}W is ordered to run at 5 mcg/kg/minute. At how many mL/hour will you set the pump?

Answer: X = 22.5 mL/hour

To arrive at units/hour, the universal formula is:

**Example:**

Heparin 20,000 units in 500 mL D_{5}W is ordered to run at 1,000 units/hour. How will the I.V. pump be set?

Answer: X = 25 mL/hour

**Example:**

Heparin 20,000 units in 500 mL D_{5}W is infusing at 20 mL/hour. At how many units/hour is the heparin infusing?

Answer: X = 800 units/hour

Patient safety depends on accurate I.V. drug dosing; precise calculations are essential to this process. Nurses shouldn't be apprehensive when I.V. drug dosages are presented in practice. Use the simple calculations conveyed in this article as a first step!

Nurses are often intimidated by the math that occurs in everyday practice. Patient safety depends on the practitioner's ability to calculate medications correctly and in a timely manner. This article will provide a simple and concise method for accurate computation using basic calculations (see *Quick reference: Universal formulas*).

Even with the programmable I.V. pumps used in many clinical settings, it's advisable for the nurse to verify the correct dosage by calculation once during the shift; more often if a medication is being titrated or changed. Verification of correct dosages with another RN is also a widespread practice among many professionals and sometimes mandatory in institutions.

Another resource that's present in many practice settings is the pharmacy. Pharmacists have an abundance of knowledge about medications, as well as an unparalleled proficiency with drug calculations; utilize their expertise if you're unsure of your computation.

Knowing the therapeutic dosage for the desired effect is as important as knowing the correct calculations for the drug. For example, dopamine at doses of 3 to 5 mcg/kg/minute provides a gentle dilatation of the renal arteries, increasing urine output with no effect on BP. At higher doses (up to 20 mcg/kg/minute), dopamine is used for BP support. Know the medication and what effect you're attempting to achieve, as well as the maximum recommended safe infusion dosage.

Next time you have a patient on I.V. medication, try the following simple methods for calculating in a systematic way. Patient medication safety is a goal that all practitioners have in common-it starts with doing the math!

The universal formula is:

**Example:**

Figure. No caption available. |

Administer heparin 5,000 units I.V. push. Available is heparin 10,000 units/mL. How many mL will you need to administer to achieve a 5,000 unit dose?

Answer: X = 0.5 mL

Figure. No caption available. |

Follow these four steps to easily calculate your patient's accurate drug dosage.

1. Find out what's in your I.V. bottle (drug concentration or number of mL of fluid).

2. Determine in which units your drug is measured (units/hour, mg/hour, or mcg/kg/minute).

3. Know the patient's weight in kg if your calculation is weight based.

4. Use the universal formula below and then divide your final answer by the patient's weight in kg to arrive at mcg/kg/minute.

**Example:**

Figure. Quick reference: Universal formulas |

Figure. No caption available. |

Dopamine is infusing. The bottle states dopamine 800 mg, and it's mixed in 500 mL of D_{5}W. The I.V. pump in your patient's room is set at 15 mL, and the patient weighs 60 kg (60,000 g). At how many mcg/kg/minute is the patient's dopamine infusing?

Answer: X = 6.7 mcg/kg/minute

Figure. No caption available. |

**Example:**

Dobutamine 200 mg in 250 mL of D_{5}W is ordered to run at 5 mcg/kg/minute. At how many mL/hour will you set the pump?

Answer: X = 22.5 mL/hour

Figure. No caption available. |

To arrive at units/hour, the universal formula is:

**Example:**

Figure. No caption available. |

Heparin 20,000 units in 500 mL D_{5}W is ordered to run at 1,000 units/hour. How will the I.V. pump be set?

Answer: X = 25 mL/hour

Figure. No caption available. |

**Example:**

Heparin 20,000 units in 500 mL D_{5}W is infusing at 20 mL/hour. At how many units/hour is the heparin infusing?

Answer: X = 800 units/hour

Figure. No caption available. |

Patient safety depends on accurate I.V. drug dosing; precise calculations are essential to this process. Nurses shouldn't be apprehensive when I.V. drug dosages are presented in practice. Use the simple calculations conveyed in this article as a first step!

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