Traditionally, hemothorax and pneumothorax in trauma has been treated with chest tubes. I’ve previously written about some of the debate regarding using smaller tubes or catheters. A paper that will be presented at the EAST meeting in January looked at pain and failure rates using 14Fr pigtail catheters vs 28Fr chest tubes.
This was a relatively small, prospective study, and only 40 of 74 eligible patients were actually enrolled over 20 months at a Level I trauma center in the US. Pain was measured using a standard Visual Analog Scale, as was complication and failure rate, tube duration and hospital stay.
The following interesting findings were noted:
Chest wall pain was similar. This is expected because the underlying cause of the pneumothorax, most likely rib fractures, is unchanged.
Tube site pain was significantly less with the pigtail
The failure rate was the same (5-10%)
Complication rate was also the same (10%)
Time that the tube was in, and hospital stay was the same
Bottom line: There may be some benefit in terms of tube site pain when using a smaller catheter instead of a chest tube. But remember, this is a very small study, so be prepared for different results if you try it for your own trauma program. If you do choose to use a smaller tube or catheter, remember to do so only in patients with a pure pneumothorax. Clotted blood from a hemothorax will not be completely evacuated.
Reference: A prospective randomized study of 14-French pigtail catheters vs 28F chest tubes in patients with traumatic pneumothorax: impact on tube-site pain and failure rate. EAST Annual Surgical Assembly, Oral paper 12, 2013.
It happens all the time. You get that initial chest and/or pelvic xray in the resuscitation room while evaluating a blunt trauma patient. A few minutes later the tech returns with another armful of xray plates to repeat them. Why? The patient was not centered properly and part of the image is clipped.
Do you really need to go through the process of setting up again, moving the xray unit in, watching people run out of the room (if they are not wearing lead, and see my post below about how much radiation they are really exposed to), and shooting another image? The answer to the question lies in what you are looking for. Let’s address the two most common (and really the only necessary) images needed during early resuscitation of blunt trauma.
First, the chest xray. You are really looking for 3 things:
Big air (pneumothorax)
Big blood (hemothorax)
Big mediastinum (hinting at aortic injury)
Look at the clipped xray above. A portion of the left chest wall is off the image. If there were a large pneumothorax on the left, would you be able to see it? What about a large hemothorax? And the mediastinum is fully included, so no problem there. So in this case, no need to repeat immediately.
The same thing goes for the pelvis. You are looking for gross disruption of the pelvic ring, especially posteriorly because this will cause you to intervene in the ED (order blood, consider wrapping the pelvis). So if parts of the edges or top and bottom are clipped, no big deal.
Bottom line: Don’t let the xray tech disrupt the team again by reflexively repeating images that are not technically perfect. See if you can use what you already have. And how do you decide if you need to repeat it later, if at all? Consider the mechanism of injury and the physical exam. Then ask yourself if there is anything you could possibly see that was not imaged the first time that would change your management in any way. If not, you don’t need it. But it certainly will irritate the radiologists!
Worldwide, the population is aging. Currently in the US, about 1 in 8 people are considered elderly (age >= 65). In 15 years, this number is expected to double to 1 in 4.
But as every trauma professional knows, there are the elderly, and then there are the elderly. What do I mean by this? I’ve seen 50 year olds who look and act like they are 80, with a medication list 10 deep. And I’ve also seen 90 year olds who are still ballroom dancing with the ladies.
Can we tell these cohorts apart, and do we need to? Sure, you can apply the “eyeball” test, but it’s not always accurate. Well, there are a number of frailty indexes that have been developed that try to make this process a bit more objective. The trauma group in Tucson looked at frailty index as a predictor of hospital disposition to see if it could offer any assistance in discharge planning.
Here are the factoids:
100 consecutive patients aged 65 or more were studied over a one year period at a Level I trauma center
Frailty was calculated using the Canadian Study of Health and Aging Frailty Index, using 50 of the demographic, comorbidity, medication, social history, activities of daily living, and general mood variables
Overall, patients had moderate injury with average ISS 14, AIS-Head 2, and GCS 3
69% of patients had a favorable outcome (discharged to home or rehab) vs 31% unfavorable outcome (skilled nursing facility or death)
Frailty index was highly and significantly correlated with unfavorable outcome
Age 65 or more alone was not predictive of unfavorable outcome
Bottom line: Just the fact that a patient is older does not mean that they are more likely to do poorly. The frailty index (FI) used in this study includes 50 variables, which indicates how complex this concept is. This scale has been used in non-trauma patients, and is now validated for trauma. Although somewhat complicated due to the sheer number of variables, it appears that this tool may be valuable in predicting discharge disposition if applied soon after admission. And it also raises the interesting question of whether hospital interventions may be able to change a predicted unfavorable outcome into a favorable one.
Hematuria ranges from microscopic to gross. Microscopic means blood that can only be seen with a microscope, and gross means visible to the naked eye. In trauma, we only care about gross hematuria, which ranges from the faintest of pink to the deepest red.
In trauma, gross hematuria is a result of an injury to kidney, ureter or bladder. Blunt injury to the ureter is so rare it’s reportable, so you can pretty much forget that one unless the mechanism is extreme. So you really just need to focus on kidney and bladder.
Any victim of blunt trauma that presents with visible hematuria needs to be evaluated by CT of the abdomen and pelvis with an added CT cystogram. Standard CT technique is done without a urinary catheter, or with the catheter clamped. Only 50% of bladder injuries show up with this technique.
CT cystogram is an add-on to the standard CT, and consists of the administration of contrast into the bladder which is then kept under pressure while the scan is done. Delayed slices through the pelvis after the bladder is depressurized and emptied is routine. Nearly 100% of bladder injuries are detected using this technique.
If the CT shows a renal laceration or hematoma, the patient should be admitted and managed according to your solid organ injury protocol. Kidney injuries fare better that livers and spleens, and only rarely require surgery. If no kidney or bladder injury is seen, the default diagnosis of a renal contusion is the culprit. No treatment is needed, and the patient can be discharged if no other injuries are present. The blood will clear over a few days, but may disappear and reappear a few times in the process. The patient can followup with their primary care physician in a week or two.