Today we’re going to talk about what to do when it seems like the chest tube is not functioning properly. (Everything here applies to any type of chest tube placed, not just large bore).

The biggest thing to take away from this is how to manage an air leak and only clamp the tubing when necessary and for a few seconds (not routinely and not for extended periods otherwise it can cause a tension pneumothorax).

Let’s start by talking about how you can tell the chest tube is functioning properly (aside from drainage and confirmed CXR). 

You should see tidaling occur (as seen in graphic below) which demonstrates the water in the chamber moving according to a patient’s respirations. 

There are multiple things that can indicate the chest tube is not working appropriately so let’s talk about what you would see and how to approach some of them.

There may be an air leak which you can find by looking for constant or intermittent bubbling in the water-seal chamber. (it is common to have some bubbling upon initial placement of the chest tube but watch for constant and a large amount of bubbling). 

To find the source of the air leak, clamp the chest tube (only for a few seconds) starting from where it enters the chest and moving toward the pleur-evac. If the bubbling stops when you clamp the chest tube where it enters the chest, the problem is more likely internal and the chest tube might need to be completely replaced. 

If the bubbling stops when any site more distal, along the tubing, is clamped, the tubing might need to be replaced. 

If the bubbling stops close to where the tube enters the pleur-evac, the chamber itself might need to be replaced. 

Subcutaneous emphysema at the site of the chest tube dressing could indicate a worsening air leak within the chest cavity and potentially even development of a tension pneumothorax so immediately obtain an x-ray to assess progression. 

Drainage may stop → check for any kinks in the tubing and reposition the patient so they are upright. Always make sure the pleur-evac is below the level of the patient to allow proper drainage.

If the tubing accidentally gets disconnected, clamp the chest tube at the site closest to the dressing only briefly until the tubing can be replaced OR place the distal end of the chest tube in a bottle of sterile water so everything can continue draining until the equipment is replaced. 

The list of things that can go wrong with a chest tube is never-ending but I wanted to mention some of the more common ones we may see while the patient is still in our ER. 

Here’s another video to help with visualization (more helpful around 10:40 mark): https://www.youtube.com/watch?v=YOpzcWc3yrw&t=1139s

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https://www.ncbi.nlm.nih.gov/books/NBK594490/#:~:text=If%20drainage%20suddenly%20stops%20in,blockage%20in%20a%20dependent%20loop%3A&text=Assess%20the%20drainage%20system%20and%20the%20client.&text=Inspect%20for%20kinks%20and%20straighten,connection%20with%20the%20collection%20device.

https://opentextbc.ca/clinicalskills/chapter/10-7-chest-drainage-systems/

https://www.perplexity.ai/search/when-is-it-191OyTWbRqSV3.KHzmoORg#0

Hi everyone and welcome to our new interns! (And cheers to our new senior class and new resus residents! 😍) I’m Ambica and I’ll be the admin resident for the month. Part of this includes writing POTDs aka pearls of the day. For my first POTD, I’m going to talk about using IO needles for a crashing patient and I’m highlighting in blue the biggest take-aways.

It’s helpful to obtain IO access for a crashing patient because the placement can be safe and quick to place (<60 seconds) and can deliver medications at basically the same rate as an IV (which takes more time to place). There’s also a lower risk of bloodstream infections. It’s also been found to have a higher first pass success rate compared to placing a crash central line. 

Here are the optimal locations for needle placement (there are more but I’m listing the common ones and to quickly measure, just use fingerbreadths in place of cm):

- Proximal humerus - greater tubercle, about 2 cm above the surgical neck; helpful if arm is adducted but this is hard to do with chest compressions or the LUCAS machine on; due to the depth, typically should use yellow IO (45 mm) **not preferred in pediatric patients < 6 years old

- Proximal tibia - about 2 cm inferior to the patella and 1-2 cm medial to the tibial tuberosity; preferred option for obese patients

- Distal tibia - 2-3 cm superior to medial malleolus 

- Distal femur - 1 cm superior to patella and 1-2 cm medially

Hold the needle at a 90 degree angle for all insertions except for the proximal humerus location where you hold it at a 45 degree angle

Which size needle do I use? 

- Pink - pediatrics aka infants / toddlers

- Blue - most commonly used for adults and larger pediatric patients

- Yellow - patients with more subcutaneous tissue 

When can I NOT place one: 

1. Fractured bone proximal to IO insertion - absolute contraindication 

2. Recent IO attempt at that site within 24 hours - absolute contraindication 

3. Overlying skin infection

4. Burns

5. Prosthetic limb

6. Underlying bone disease like osteogenesis imperfecta

Here’s a link for an EMRAP video on how to do the procedure. 

https://www.youtube.com/watch?v=KHXSfh2ZRDM

~~

Ambica

https://rebelem.com/dont-forget-about-the-io-in-the-critically-ill-patient/

https://naemsp.org/2023-1-4-iv-vs-io-does-your-site-of-access-matter-in-cardiac-arrest/#:~:text=%5B6%5D%20In%20terms%20of%20flow,rates%20at%20the%20humeral%20site.

https://litfl.com/intraosseous-access/

This VOTW was brought to you by Dr. Nguyen-Phuoc.

A 32 yoF with recent fertility treatment presented to the Bay Ridge ED with severe right pelvic pain associated with nausea and vomiting. The transvaginal ultrasound showed:

- Video 1: an enlarged, edematous right ovary with no color flow and free fluid around it

- Video 2: enlarged left ovary but with color flow

- Image 1: venous flow in L ovary

- Image 2: arterial flow in L ovary

The patient was transferred to MMC, where she was seen by GYN and consented for a diagnostic laparotomy. Intraoperatively, the right ovary was noted to be twisted 3 times and was successfully un-twisted.

Note: Fertility treatments can cause ovarian hyperstimulation syndrome (OHSS), where the ovaries become pathologically enlarged due to capillary leak and third spacing of fluid. The increase in ovarian size from OHSS predisposes patients to ovarian torsion.

Note: Ultrasound is not 100% sensitive for torsion. Doppler findings may be normal as the ovary has a dual blood supply (both ovarian and uterine arteries). If you have a high clinical suspicion despite a negative ultrasound, OBGYN should be consulted.

 Happy Scanning! 

- Ariella Cohen M.D.

References: 

https://coreem.net/core/ovarian-hyperstimulation-syndrome/

https://www.saem.org/about-saem/academies-interest-groups-affiliates2/cdem/for-students/online-education/m4-curriculum/group-m4-genitourinary/ovarian-torsion