Diferencia entre revisiones de «The obese patient»
(minor change) |
|||
| Línea 1: | Línea 1: | ||
== Definitions | ==Definitions== | ||
*Overweight = BMI 25-29 | *Overweight = BMI 25-29 | ||
*Obesity = BMI 30-39 | *Obesity = BMI 30-39 | ||
| Línea 6: | Línea 5: | ||
*Super obesity = BMI >50 | *Super obesity = BMI >50 | ||
== Dosing Scalars | ==Dosing Scalars== | ||
*Total body weight '''(TBW)'''= Actual weight | *Total body weight '''(TBW)'''= Actual weight | ||
**May result in over dosing | **May result in over dosing | ||
| Línea 16: | Línea 14: | ||
*Adjusted body weight (ABW) = Scalar derived from aminoglycoside pharmacokinetics (PK) in obesity | *Adjusted body weight (ABW) = Scalar derived from aminoglycoside pharmacokinetics (PK) in obesity | ||
=== Estimating Patient Weight === | ===Estimating Patient Weight=== | ||
Multiple formulas to estimate weight, below are most common: | Multiple formulas to estimate weight, below are most common: | ||
| Línea 35: | Línea 32: | ||
**Http://www.medcalc.com/body.html | **Http://www.medcalc.com/body.html | ||
== Medication Adjustments in Obesity | ==Medication Adjustments in Obesity== | ||
''Obesity alters hepatic/renal clearance and volume of distribution (Vd) of many drugs'' | ''Obesity alters hepatic/renal clearance and volume of distribution (Vd) of many drugs'' | ||
{| class="wikitable" | {| class="wikitable" | ||
| Línea 83: | Línea 80: | ||
|} | |} | ||
== Airway Management == | ==Airway Management== | ||
Obesity associated with difficult bag-mask ventilation (BMV) and intubation | Obesity associated with difficult bag-mask ventilation (BMV) and intubation | ||
* Consider prolonged pre-oxygenation period and two provider BMV | * Consider prolonged pre-oxygenation period and two provider BMV | ||
| Línea 97: | Línea 94: | ||
*** Both may decrease CO so use cautiously in unstable pts | *** Both may decrease CO so use cautiously in unstable pts | ||
== [[Lumbar Puncture]] == | ==[[Lumbar Puncture]]== | ||
Obese pts have increased distance from skin to subarachnoid space | Obese pts have increased distance from skin to subarachnoid space | ||
* Upright pt positioning improves LP success | * Upright pt positioning improves LP success | ||
| Línea 103: | Línea 100: | ||
* Ultrasound may improve the ID of landmarks | * Ultrasound may improve the ID of landmarks | ||
== | ==References== | ||
Challenging & Emerging Conditions in EM by A. Venkat, Ingrande, J., and H. J. M. Lemmens. "Dose adjustment of anaesthetics in the morbidly obese." British journal of anaesthesia 105.suppl 1 (2010): i16-i23. | |||
[[Category:Misc/General]] | [[Category:Misc/General]] | ||
Revisión del 07:26 24 jul 2015
Definitions
- Overweight = BMI 25-29
- Obesity = BMI 30-39
- Morbid obesity = BMI 40-49
- Super obesity = BMI >50
Dosing Scalars
- Total body weight (TBW)= Actual weight
- May result in over dosing
- Ideal body weight (IBW)= Calc. based on height & weight
- May result in under dosing
- Lean body weight (LBW)= Difference between TBW and fat mass
- Technically best weight scalar for drug administration but difficult to accurately measure
- Adjusted body weight (ABW) = Scalar derived from aminoglycoside pharmacokinetics (PK) in obesity
Estimating Patient Weight
Multiple formulas to estimate weight, below are most common:
- Estimated male TBW = 93.2 + 3.29[arm circumference (cm)] + 0.43[height (cm)]
- Estimated female TBW = 64.6 + 2.15[arm circumference (cm)] + 0.54[height (cm)]
- Estimated male IBW in kg = height in cm - 100
- More accurate IBW estimate:
- IBW (male) in kg = 50kg + 2.3kg for each in. over 5ft
- More accurate IBW estimate:
- Estimated female IBW in kg = height in cm - 105
- More accurate IBW estimate:
- IBW (female) in kg = 45kg + 2.3kg for each in. over 5ft
- More accurate IBW estimate:
- Estimated LBW = 1.3 x IBW
- Estimated ABW = IBW + [C x(TBW-IBW)]
- C = correction factor ususally 0.2 to 0.4
- Apps/Online resources:
- Epocrates has IBW calculator
- Http://www.medcalc.com/body.html
Medication Adjustments in Obesity
Obesity alters hepatic/renal clearance and volume of distribution (Vd) of many drugs
| Medication | Dose Adjustment |
| Morphine | Dose by IBW |
| Fentanyl | Dose by LBW; Alternative: Initial dose TBW, subsequent dose by IBW (risk over dose when use TBW) |
| Midazolam | Initial dose TBW, subsequent dose by IBW |
| Propofol | Dose by LBW |
| Etomidate | Dose by LBW |
| Succinylcholine | Dose by TBW @ 1mg/kg |
| Rocuronium | Dose by IBW |
| Heparin | Same as non-obese pt (80U/kg followed by 18U/kg/h using TBW) |
| Vancomycin | 30 mg/kg TBW (then follow serum levels) |
| Aminoglycosides | Dose by ABW (C= 0.4; then follow serum levels) |
| Beta-lactams | No good data, may consider doubling dose |
| Carbapenems | No empiric change recommended |
| Antifungals | No empiric change recommended; use LBW when dosing weight-based agents |
Airway Management
Obesity associated with difficult bag-mask ventilation (BMV) and intubation
- Consider prolonged pre-oxygenation period and two provider BMV
- May improve lung function through use of pre-intubation period of NIPPV
- Obesity hypoventilation syndrome may cause chronic hypercapnia
- Place pt in "ramp" position
- Stack blankets behind pt's back to horizontally align external auditory meatus with sternal notch
- Consider Airtraq laryngoscope (shortened mean intubation time & desat episodes vs Mac DL in obese pts)
- Increased BMI associated with higher rate of developing ARDS
- Methods to improve oxygenation/ventilation:
- Use PEEP 10 to improve oxygenation if needed
- Place in reverse Trendelenburg ("beach chair" position) to improve ventilation
- Both may decrease CO so use cautiously in unstable pts
- Methods to improve oxygenation/ventilation:
Lumbar Puncture
Obese pts have increased distance from skin to subarachnoid space
- Upright pt positioning improves LP success
- Estimated lumbar puncture depth (cm) = 1 + 17[weight(kg)/height(cm)]
- Ultrasound may improve the ID of landmarks
References
Challenging & Emerging Conditions in EM by A. Venkat, Ingrande, J., and H. J. M. Lemmens. "Dose adjustment of anaesthetics in the morbidly obese." British journal of anaesthesia 105.suppl 1 (2010): i16-i23.