Nursing

Intake and Output (I&O)

Last updated: March 2026 · Beginner

Educational Use Only

This content is for educational purposes only and does not substitute for clinical training, institutional protocols, or professional medical guidance. Always verify calculations with your facility's protocols and a licensed pharmacist before administering medications to patients.

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Adding Fractions Understanding Decimals and Place Value

Real-world applications

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Nursing

Medication dosages, IV drip rates, vital monitoring

Intake and output (I&O) monitoring is a fundamental nursing responsibility. Tracking how much fluid goes into and out of a patient helps the healthcare team assess kidney function, hydration status, cardiac function, and the effectiveness of treatments like diuretics or IV fluid therapy. The math is straightforward addition and subtraction — but accuracy matters, because clinical decisions depend on these numbers.

What Counts as Intake

Intake is all fluid that enters the patient’s body, measured in milliliters (mL).

Intake Source	Notes
Oral fluids	Water, juice, coffee, soup broth, gelatin, popsicles — anything liquid at room temperature
IV fluids	All IV infusions: maintenance fluids, IV piggybacks (IVPB), IV push medications mixed in fluid
IV medications	Fluid used to deliver IV meds (flush volumes, drip bags)
Tube feedings	Enteral nutrition via NG tube, G-tube, or J-tube; include water flushes
Blood products	Packed red blood cells (PRBCs), fresh frozen plasma (FFP), platelets
Ice chips	Counted at 50% of volume — 240 mL of ice chips = 120 mL of fluid intake
Bladder irrigation	See “Bladder Irrigation” note below — irrigation fluid is generally not counted as intake. Instead, instilled volume is subtracted from total drainage to determine true urine output

Bladder Irrigation Note: When continuous bladder irrigation (CBI) is running, the irrigant is instilled into the bladder and drains back out through the catheter. To calculate true urine output, subtract the total volume of irrigant instilled from the total catheter drainage:

$\text{True Urine Output} = \text{Total Drainage} - \text{Irrigant Instilled}$

For example, if 2,000 mL of irrigant was instilled and total catheter drainage was 2,350 mL, the true urine output is $2{,}350 - 2{,}000 = 350$ mL. The irrigant itself is not counted as intake. If total drainage is less than the volume instilled, this indicates retained fluid and should be reported to the provider, as it may signal catheter obstruction or other complications.

Important: Ice chips melt to approximately half their volume. This is a standard conversion used in clinical practice:

$\text{Ice chip intake (mL)} = \text{Volume of ice chips (mL)} \times 0.5$

What Counts as Output

Output is all fluid that leaves the patient’s body, also measured in mL.

Output Source	How to Measure
Urine	Measured from a urinal, bedpan, or Foley catheter drainage bag
Emesis (vomiting)	Estimated or measured in a graduated container
Drainage	From surgical drains (Jackson-Pratt, Hemovac, chest tube)
Diarrhea / loose stool	Estimated in mL if collected; document frequency if not measurable
Blood loss	Estimated during surgery or from wound drainage
Nasogastric (NG) suction	Measured from NG drainage container

Calculating Fluid Balance

Fluid balance is the difference between total intake and total output over a given time period (usually one shift or 24 hours):

$\text{Fluid Balance} = \text{Total Intake} - \text{Total Output}$

Positive fluid balance means the patient took in more than they put out (fluid retention)
Negative fluid balance means the patient put out more than they took in (fluid loss)

Worked Examples

Example 1: Simple Shift Calculation

During a 12-hour day shift, a patient has the following:

Intake:

Breakfast: 240 mL juice, 180 mL coffee
IV: Normal Saline running at 125 mL/hr for 12 hours
Lunch: 200 mL water, 120 mL soup broth
Snack: 150 mL of ice chips

Output:

Urine: 350 mL at 0800, 425 mL at 1200, 300 mL at 1600
Emesis: 150 mL at 1000

Step 1: Calculate total intake.

Oral fluids: $240 + 180 + 200 + 120 = 740$ mL

Ice chips: $150 \times 0.5 = 75$ mL

IV fluids: $125 \text{ mL/hr} \times 12 \text{ hr} = 1{,}500$ mL

$\text{Total Intake} = 740 + 75 + 1{,}500 = 2{,}315 \text{ mL}$

Step 2: Calculate total output.

Urine: $350 + 425 + 300 = 1{,}075$ mL

Emesis: $150$ mL

$\text{Total Output} = 1{,}075 + 150 = 1{,}225 \text{ mL}$

Step 3: Calculate fluid balance.

$\text{Fluid Balance} = 2{,}315 - 1{,}225 = +1{,}090 \text{ mL}$

Answer: The patient has a positive fluid balance of 1,090 mL for this shift.

Example 2: 24-Hour I&O with Multiple Sources

A post-surgical patient has the following over 24 hours:

Intake:

IV Lactated Ringer’s: 100 mL/hr for 24 hours = 2,400 mL
IVPB Cefazolin in 100 mL NS q8h = $100 \times 3 = 300$ mL
Oral fluids: 150 mL + 200 mL + 120 mL = 470 mL

Output:

Foley catheter: 1,850 mL over 24 hours
Jackson-Pratt (JP) drain: 85 mL + 70 mL = 155 mL
Emesis: 200 mL

$\text{Total Intake} = 2{,}400 + 300 + 470 = 3{,}170 \text{ mL}$

$\text{Total Output} = 1{,}850 + 155 + 200 = 2{,}205 \text{ mL}$

$\text{Fluid Balance} = 3{,}170 - 2{,}205 = +965 \text{ mL}$

Answer: Positive fluid balance of 965 mL over 24 hours.

Example 3: Negative Fluid Balance

A patient receiving Furosemide 40 mg IV BID (a diuretic) has the following during a 12-hour shift:

Intake: IV D5W at 50 mL/hr for 12 hours = 600 mL; oral fluids = 360 mL. Total intake = 960 mL.

Output: Urine = 1,450 mL. Total output = 1,450 mL.

$\text{Fluid Balance} = 960 - 1{,}450 = -490 \text{ mL}$

Answer: Negative fluid balance of 490 mL — expected with diuretic therapy. The medication is working as intended.

Sample I&O Record

Time	Intake Source	Intake (mL)	Output Source	Output (mL)
0700	Coffee	180	—	—
0800	IV NS @ 125 mL/hr (ongoing)	—	Urine	350
0900	Juice	240	—	—
1000	—	—	Emesis	150
1100	Ice chips (200 mL volume)	100	—	—
1200	Water, soup	320	Urine	425
1400	IVPB Medication in 50 mL NS	50	—	—
1600	—	—	Urine	300
1800	Gelatin	120	JP drain	45
Shift Total
	IV (125 mL/hr x 12 hr)	1,500
	IVPB	50
	Oral + ice chips	960
	Total Intake	2,510	Total Output	1,270

Fluid balance: $2{,}510 - 1{,}270 = +1{,}240$ mL

When to Report Imbalances

Alert the provider when you observe:

Urine output below 30 mL/hr (or below 0.5 mL/kg/hr) for two or more consecutive hours — may indicate renal impairment or dehydration
Large positive fluid balance (over 1,000 mL per shift) in patients with heart failure or renal disease — risk of fluid overload
Large negative fluid balance not explained by diuretic therapy — may indicate dehydration or hemorrhage
Sudden increase in drainage from surgical drains — may indicate internal bleeding
No urine output (anuria) — report immediately

Practice Problems

Test your understanding with these problems. Click to reveal each answer.

Problem 1: A patient drinks 8 fl oz of water, 6 fl oz of juice, and 4 fl oz of broth. What is the total oral intake in mL? (1 fl oz = 30 mL)

$8 + 6 + 4 = 18 \text{ fl oz}$

$18 \times 30 = 540 \text{ mL}$

Answer: Total oral intake is 540 mL.

Problem 2: A patient is given 300 mL of ice chips. How much should you record as fluid intake?

$300 \times 0.5 = 150 \text{ mL}$

Answer: Record 150 mL as intake. Ice chips are counted at 50% of their volume.

Problem 3: A patient has the following over an 8-hour shift: IV fluids 750 mL, oral fluids 480 mL, tube feeding 250 mL. Output: urine 600 mL, NG drainage 120 mL. What is the fluid balance?

$\text{Total Intake} = 750 + 480 + 250 = 1{,}480 \text{ mL}$

$\text{Total Output} = 600 + 120 = 720 \text{ mL}$

$\text{Fluid Balance} = 1{,}480 - 720 = +760 \text{ mL}$

Answer: Positive fluid balance of 760 mL.

Problem 4: A patient on IV Lactated Ringer’s at 75 mL/hr has it running for a full 24-hour period. What is the total IV intake?

$75 \text{ mL/hr} \times 24 \text{ hr} = 1{,}800 \text{ mL}$

Answer: Total IV intake is 1,800 mL.

Problem 5: A patient has a 24-hour urine output of 1,100 mL. The patient weighs 80 kg. Is the hourly urine output adequate? (Minimum is 0.5 mL/kg/hr.)

Step 1: Calculate hourly urine output.

$\frac{1{,}100 \text{ mL}}{24 \text{ hr}} \approx 45.8 \text{ mL/hr}$

Step 2: Calculate minimum acceptable output for this patient.

$0.5 \text{ mL/kg/hr} \times 80 \text{ kg} = 40 \text{ mL/hr}$

Step 3: Compare: 45.8 mL/hr > 40 mL/hr.

Answer: Yes, the urine output of 45.8 mL/hr exceeds the minimum of 40 mL/hr. This is adequate.

Common Mistakes to Avoid

Forgetting to halve ice chips. Recording the full volume of ice chips instead of 50% is one of the most common I&O errors.
Missing IV piggyback volumes. IVPB antibiotics and other medications delivered in small bags (50–250 mL) are intake and must be included.
Not recording flush volumes. Saline flushes used before and after IV medications add up over a shift. Per INS (Infusion Nurses Society) standards, typical flush volumes are 3-5 mL for peripheral lines and 10 mL for central lines.
Miscounting bladder irrigation. Irrigation fluid is not recorded as intake. Instead, subtract the instilled irrigant volume from total catheter drainage to calculate true urine output (see the Bladder Irrigation Note above). If you instill 500 mL and 650 mL drains out, the true urine output is 150 mL. If drainage is less than the instilled volume, report the deficit to the provider.
Forgetting to convert household measures. If a patient drinks “a cup” of water, that is 240 mL — not an unmeasured amount. Use the standard conversions.

Key Takeaways

Intake includes all oral fluids, IV fluids, tube feedings, blood products, and ice chips (at 50%)
Output includes urine, emesis, drainage, diarrhea, NG suction, and blood loss
Fluid balance = Total Intake $-$ Total Output; positive means retention, negative means loss
Report urine output below 0.5 mL/kg/hr, unexplained large positive or negative balances, or sudden changes in drainage
Accurate I&O tracking depends on measuring (not estimating) whenever possible, converting household volumes to mL, and documenting every source

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Last updated: March 28, 2026