One Lung Ventilation: Difference between revisions
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== <u>Recommended method for each age group</u> == | == <u>Recommended method for each age group</u> == | ||
A table listing the preferred method for lung isolation in each age group can be found in the Info sheet at the bottom of this page | |||
{{Stub Notice}} | {{Stub Notice}} | ||
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[https://pubmed.ncbi.nlm.nih.gov/33406307/ Inflation volume-balloon diameter and inflation pressure-balloon diameter characteristics of commonly used bronchial blocker balloons for single-lung ventilation in children] | [https://pubmed.ncbi.nlm.nih.gov/33406307/ Inflation volume-balloon diameter and inflation pressure-balloon diameter characteristics of commonly used bronchial blocker balloons for single-lung ventilation in children] | ||
[https://www.bjaed.org/article/S2058-5349(23)00079-3/fulltext Hypoxaemia during one lung ventilation] | |||
[https://www.bjaed.org/article/S2058-5349(23)00106-3/fulltext Double-lumen tubes and bronchial blockers] | |||
[https://pubmed.ncbi.nlm.nih.gov/34260559/ Individualized positive end-expiratory pressure (PEEP) during one-lung ventilation for prevention of postoperative pulmonary complications in patients undergoing thoracic surgery: A meta-analysis] | |||
[https://link.springer.com/article/10.1007/s12630-024-02709-1 Manual angulation of the Arndt endobronchial blocker to improve the ease of lung isolation] | |||
[https://link.springer.com/article/10.1007/s12630-024-02767-5 A novel maneuver to correct the position of an EZ-Blocker® endobronchial blocker] | |||
[https://www.cureus.com/articles/293539-effects-of-dexmedetomidine-in-improving-oxygenation-and-reducing-pulmonary-shunt-in-high-risk-pediatric-patients-undergoing-one-lung-ventilation-for-thoracic-surgery-a-double-blind-randomized-controlled-trial Effects of Dexmedetomidine in Improving Oxygenation and Reducing Pulmonary Shunt in High-Risk Pediatric Patients Undergoing One-Lung Ventilation for Thoracic Surgery: A Double-Blind Randomized Controlled Trial] | |||
[https://journals.lww.com/anesthesia-analgesia/fulltext/2024/12000/point_of_care_lung_ultrasound_to_evaluate_lung.24.aspx Point-of-Care Lung Ultrasound to Evaluate Lung Isolation During One-Lung Ventilation in Children: A Blinded Observational Feasibility Study] |
Latest revision as of 23:55, 18 November 2024
Introduction
- Pediatric thoracic anesthesia is more challenging than Adults
- DLT is gold standard for children > 8 Yrs
- Available devices for Peds OLV: DLT, BB, Uninvent Tubes, SLT
- Caution with BB due to high pressure balloon cuffs - Many surgical procedures in the chest need OLV, but some can be done without it
ABC”D” OF Pediatric Lung isolation
ABC"D" of Pediatric Lung Isolation | |
---|---|
A | Anatomy |
B | Bronchoscopy |
C | Chest imaging |
D | Diameter change with age |
Important measurements
- How to know if FOB fits in the Tube?
ODB/IDTT < 0.9
- To allow some ventilation during bronchoscopy
ODB/IDTT < 0.7
Example: smallest FOB in use has OD of 2.2 mm, placing this Scope through 2.5 SLT gives an ODB/IDTT ratio of 2.2/2.5 or 0.88
This ratio is <0.9 but >0.7, the bronchoscope will physically fit inside the TT, but no ventilation will be able to occur!
Tip: Bronchoscopes can become deformed from repeated use and cleaning, and the tip may have a larger diameter than documented
>>> It’s always a good idea to test the fit of the bronchoscope inside a TT before use in the patient
Pediatric Airway Diameters
- Average neonatal trachea has an AP diameter of about 4.3 mm for both males & females
- Trachea grows uniformly in males and females to about 14 mm at the age of 15 yrs old
- At this time, female trachea stops growing, but male trachea continues to grow to 16–18 mm by age of 19
- trachea is elliptical in shape, with the transverse diameter being larger than AP diameter Sizing of airway devices should be based on the smaller (anteroposterior) diameter.
Devices & Approaches
1- Single-Lumen Tracheal Tube
- Simplest option, can be used at any age but mostly used for the very young patients < 6 m.o.s
- Placing SLT in the right mainstem bronchus is easier than the left due to the less acute angle that it takes off from the trachea
- Pros: Simple/ Quick
- Cons: potential for inadequate collapse of operative lung / inability to suction the operative lung / inability to deliver (CPAP) to operative lung / Missing the RUL when doing right mainstem intubation
2- Bronchial Blockers
- Many types, include vascular balloon catheters, the Uniblocker (Fuji Systems), and Arndt endobronchial blocker, Cohen, EZ blocker
- Catheters may be placed either within (Coaxial) or external to the TT (Extra-axial)
- Use of Bronchoscope is imperative during placement of BB
- Deflation of the operative lung occurs by absorption atelectasis and requires a considerably longer period of time
Vascular Devices:
- Fogarty arterial embolectomy catheter, and Miller atrio-septostomy catheter
- No central channel for deflation or CPAP to the operative lung
- Both has angled tip which allows the user to direct the catheter to the desired bronchus.
- Balloon cuffs are high pressure, low volume and should be only inflated and positioned under FOB to avoid damaging bronchial mucosa
Arndt blockers:
- Has four-way adapter, and comes with swivel connector that allows ventilation during placement
- The blocker has a 2 ml cuff and lower inflation pressures.
- Has an inner lumen that contains a flexible nylon wire that extends along the length of the catheter and terminates as a flexible loop
- This loop slides over the bronchoscope and aids in positioning.
- Once the nylon guide is removed, it cannot be reattached, which may make repositioning attempts difficult should the blocker fall out of place.
- Once the nylon wire is removed, the central lumen may be used for suctioning and CPAP
Sizing of BB and FOB for SLTs
- Same sizing principles apply when using BB and FOB together as to when sizing FOB alone
- Typically in pediatrics, two sizes of bronchial blockers are used—5 and 7 Fr BB sized by Fr, divide by 3 to know the size in mm
- When using the coaxial technique, the Arndt bronchial blocker works well.
- However, when using the parallel technique, a bronchial blocker with a stiffer shaft and angled tip should be used.
- This can be accomplished with the 5 Fr Fuji Uniblocker, or a vascular device such as a 5 Fr Fogarty embolectomy catheter, or a 5 Fr Miller atrio-septostomy catheter
3- Univent Tubes
- TT that has a bronchial blocker within a separate lumen.
- If double-lung ventilation is required again, the bronchial blocker may be deflated and withdrawn into the tracheal lumen again
- Available Univent pediatric sizes: 3.5 and 4.5 mm ID
- Size of a Univent TT refers to the ID, where the OD will be much larger than the equivalent sized SLT
- Main disadvantage is that cross-sectional diameter of the ventilation lumen is smaller in order to accommodate the blocker lumen.
- This increases airway resistance and also limits the size of fiberoptic bronchoscope used to facilitate positioning
- Narrow age range where this method is the preferred: 6–8 yrs
4- Double Lumen Tubes
Considered Gold standard in ages > 8 yrs
The equation of Size =Age×1.5+14 can help to estimate the sizing needed
Smallest DLT size is a 26 Fr, which is generally suitable for children 8–10 yrs of age
Recommended method for each age group
A table listing the preferred method for lung isolation in each age group can be found in the Info sheet at the bottom of this page
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Relevant Article Depot:
Single-lung ventilation in infants and children
Hypoxemia in Young Children Undergoing One-lung Ventilation: A Retrospective Cohort Study
Anesthesia of thoracic surgery in children
Single lung ventilation with an endotracheal tube in a small child undergoing right thoracotomy
Error traps in pediatric one-lung ventilation
Radiographic Demonstration of Hypoxic Pulmonary Vasoconstriction during One-lung Ventilation
Cricoid and left bronchial diameter in the pediatric population
Hypoxaemia during one lung ventilation
Double-lumen tubes and bronchial blockers
Manual angulation of the Arndt endobronchial blocker to improve the ease of lung isolation
A novel maneuver to correct the position of an EZ-Blocker® endobronchial blocker