dosagesolutions.pptx

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# Dosage and Solutions

## Definition of Terms

- **Dosage:** Accurate and proper way of giving medicines in prescribed doses.
- **Dose:** Exact amount of medicine to be given or taken by the patient at one time or at stated intervals.

## Administration of Drugs

- **Oral Administration:**
- **Parenteral Administration:**
- Intramuscular
- Intravenous
- Subcutaneous

## Common Abbreviations

### By Route

- IM, IV, SC, SL, ID, p.o., p.r.

### Frequency

- od, bid, tid, qid, qh (q4h), ac/pc, prn, qd

## Drug Order

The drug order consists of seven parts:

- Name of the patient
- Name of the drug
- Dosage strength and form of the drug
- Route by which the drug is to be administered
- Frequency, time and special instructions related to administration
- Date and time when the order was written
- Signature of the person writing the order

**Example:** Naproxen 250mg/tab 1 tab p.o. b.i.d.

## Parenteral Administration

The maximum dosage volume to be administered per IM injection site for an average 150 lb adult is 3mL, for children ages 6-12 years is 2mL, and children from birth to age 5 years is 1mL. Parenteral drugs are in the form of ampules or vials.

## Oral and Parenteral Dosage Administration

- **To Solve Use:**
- Factor-Label Method
- Ratio and Proportion
- **Formula:**
$x = \frac{D (desired dosage)\times Q (quantity)}{S (stock available)}$

## Exercises

1. **Order:** Furosemide, 160 mg, od
**Available:** 40 mg tablets
*How many tablets should the patient receive?*
D/S = 160mg/40mg = 4 tablets

2. **Order:** Trisilate 1500mg, q12h for 5 days
**Available:** Trisilate liquid, 500mg/15mL
*a. How many mL should the patient receive?*
D/S = 1500mg ÷ 500mg/15mL = 45 mL
*b. How many mL is consumed all in all?*
45 mL x (2x a day) x 5 days = 450 mL

3. **Order:** Phenobarbital grss, PO, qid
**Available:** Phenobarbital 15 mg tablet
*a. How many tablets per dose?*
D/S = (1/2gr x 60mg/1gr) ÷ 15 mg = 2 tablets
*b. How many tablets per day?*
2 tablets/day x 4 times a day = 8 tablets/day

4. **Order:** Dicloxacillin 100mg, PO, q8h, for 7 days
**Available:** Dicloxacillin 62.5mg/5mL
*a. How many mL should the client receive?*
D/S = 100mg ÷ (62.5mg/5mL) = 8mL
*b. How many mL was actually consumed?*
8 mL x 3 times a day x 7 days = 168mL

5. **Order:** Atropine sulfate gr 1/200, SC
**Available:** Atropine sulfate 0.4mg/mL
*How many mL should the patient receive?*
D/S = (1/200gr x 60mg/1gr) ÷ 0.4mg/mL = 0.75 mL

6. **Order:** Aspirin grx, STAT
**Available:** Aspirin 325mg tablet
*How many tablets should the patient receive?*
D/S = (10gr x 60mg/1gr) ÷ 325mg = 2 tablets (1.8)

7. **Order:** Scopolamine 0.3mg, SC
**Available:** Scopolamine ampule in gr 1/200 per mL
*How many mL should the patient receive?*
D/S = 0.3 mg ÷ (1/200 gr/mL x 60mg/1gr) = 1 mL

8. **Order:** Cephalexin 40mg/kg/day, PO, q6h, 33 lb child
**Available:** Cephalexin 250mg/5mL
*a. How many mg should the child receive per day?*
33 lb = 15kg x 40mg = 600mg/day
*b. How many mL per dose?*
D/S = 600mg ÷ (250mg/5mL) ÷ 4 = 3mL/dose

9. **Order:** Allopurinol 450mg, PO, qid
**Available:** Allopurinol 300mg tablet
*How many tablets should the patient receive?*
D/S = 450mg ÷ 300mg = 1.5 tablets per dose/ 6 tablets per day

10. **Order:** Sulfisoxazole 50mg/kg/day, PO, q6h, 44 lb child
*a. How many mg per day?*
44 lb = 20kg x 50mg/kg/day = 1,000 mg/day
*b. How many mg per dose?*
1000mg/day ÷ 4 doses/day = 250mg/dose

## Pediatric Dosages - Based on Age

- **Fried's Rule - newborn to 2 y/o**
$\frac{Age in months \times Normal adult dose}{150}$

**Example:** The physician prescribed Dolanex elixir for a 15-month-old. The normal adult dose is 325 mg q4h to q6h. Dolanex elixir is available as 325mg/5mL.

- **Young's Rule - ages 1 to 12 y/o**
$\frac{Age in years \times Normal adult dose}{Age in years + 12}$

**Example:** The physician prescribed Milk of Magnesia for an 8-year-old patient. The normal adult dose is 30mL.

## Pediatric Dosages - Based on Weight

- **Clark's Rule - 2 y/o and older children**
$\frac{Weight in pounds \times Normal adult dose}{150}$

**Example:** The physician prescribed Dolanex elixir for a 4-year-old who weighs about 30 lbs. The normal adult dose is 325 mg q4h to q6h. Dolanex elixir is available as 325 mg/5mL.

## Insulin Administration

**Formula:**
$\frac{Desired}{Stock \div 16 minims}$

**Sample Problem:**
The patient needs 30U of Insulin but the available stock is 80U.
*f. How much of the 80U will be given?*
*g. If the stock is 100U, how much should be given to meet the patient's needs?*

## Intravenous Infusion

- **Calculating mL/hour**
$\frac{Total volume to be infused (mL)}{Total time (hours)}$

**Sample Problem:**
A patient is to receive 1 liter of Ringer's solution over a 6-hour period. The patient would receive [insert the calculated value] mL/hour.

- **Calculating mL/min:**
$\frac{Total volume to be infused (mL)}{Total time (in minutes)}$

**Sample Problem:**
A patient is to receive 500mL of NSS over a period of 4 hours. The patient would receive [insert the calculated value] mL/min.

- **Calculating gtt/min:**
$\frac{Total volume to be infused (mL) \times SDF (15)}{Total time (in minutes)}$

**Sample Problem:**
Administer 1 liter of D5W over 8 hours. Calculate the gtt/min.

## Exercises

- The physician prescribed 800mL of RL to infuse over 12 hrs. You would give [insert the calculated value] mL/h.
- The physician prescribed an IV of 100mL of DW to run at 100mL/h. The drop factor is 10. Set the flow rate at [insert the calculated value] gtt/min.
- Order: 1000mL to be infused at 150 mL/h. The drop factor is 20. How many gtt/min is this?
- Order: 2000mL to be infused for 12 h. The drop factor is 20.
*a. How many mL/h is this?*
*b. How many gtt/min is this?*

## Solutions

- **Factor-Label Method**
- **Ratio and Proportion:**
Desired sol'n: Available sol'n:: Amount of solute: Total amount
- **Formula Method:**
Amount of solute = $\frac{Desired Strength \times Total amount}{On-hand strength}$

- **To Calculate the Quantity of Water or Diluent Used:**
Quantity of diluent = quantity (soln) - quantity (solute)

## Sample Problems

- To prepare 400mL of a 2% sodium bicarbonate solution from a pure drug, you would need [insert the calculated value] g of solute.
- To make 1.5L of a 5% solution from a 25% solution, you would need [insert the calculated value] mL of solute. Add [insert the calculated value] mL of water to make 1.5L.
- There is 500mL of 40% magnesium sulfate solution available for a soak. To make 30% solution you would need [insert the calculated value] mL of solute. Add [insert the calculated value] mL of water to make 500mL.