We use CT scanning in trauma care so much that we tend to take it (and its safety) for granted. I’ve written quite a bit about thoughtful use of radiographic studies to achieve a reasonable patient exposure to xrays. But another thing to think about is the use of IV contrast.
IV contrast is a hyperosmolar solution that contains some substance (usually an iodine compound) that is radiopaque to some degree. It has been shown to have a significant impact on short-term kidney function and in some cases can cause renal failure.
Here are some facts you need to know:
Contrast nephrotoxicity is defined as a 25% increase in serum creatinine, usually within the first 3 days after administration
There is usually normal urine output and minimal to no proteinuria
In most cases, renal function returns to normal after 3-4 days
Nephrotoxicity almost never occurs in people with normal baseline kidney function
Large or repeated doses given within 72 hours greatly increase risk for toxicity
Old age and pre-existing diabetic renal impairment also greatly increase risk
If you must give contrast to a patient who is at risk, make sure they are volume expanded (tough in trauma patients), or consider giving acetylcysteine or using isosmolar contrast (controversial, may still cause toxicity).
Bottom line: If you are considering contrast CT, try to get a history to see if the patient is at risk for nephrotoxicity. Also consider all of the studies that will be needed and try to consolidate your contrast dosing. For example, you can get CT chest/abdomen/pelvis and CT angio of the neck with one contrast bolus. Consider low dose contrast injection if the patient needs formal angiographic studies in the IR suite. Always think about the global needs of your patient and plan accordingly (and safely).
This is a bad time of year in much of the United States for striking animals on the road. Car vs animal can be challenging, and motorcycle vs animal is frequently deadly. What can our patients do to protect themselves?
Be especially vigilant when driving for the first few hours after sunset and just before sunrise. More animal activity occurs during these hours.
If one animal is spotted, look out for others.
Drive with high beams on as much as possible. In many animals, this will show reflections from their eyes. Some large animals, such as moose, don’t have glowing eyes.
Always where a seat belt in case an impact does occur.
If an animal is spotted, slow down quickly and blow the horn.
Most important! NEVER swerve or attempt to quickly change direction. This is one of the most common errors that results in serious injury or death. The driver swerves to avoid and begins to leave the roadway. They then over-correct in the opposite direction and begin a rollover. Always make gentle corrections, staying in the same lane.
For small animals, try to straddle them with the wheels. For larger ones, try to plan the impact so it is in front of the unoccupied front passenger seat. If occupied, plan the strike in the middle of the hood. The idea is to keep the car occupants safe, but to assist with natural selection and remove the animal from the gene pool.
Deep venous thrombosis (DVT) is always a concern in trauma patients. Patients with spine and spinal cord injury have been shown to be at higher risk for DVT than many other trauma patients, with a reported incidence ranging from 5% to 70%. However, a few studies have suggested that paraplegics are actually at higher risk than quadriplegics. This just doesn’t seem to make sense.
A NTDB study was done to look at this issue. A total of 18,000+ patients were reviewed, and correlations with spinal cord injury level, demographics, comorbidities and associated injuries were determined.
High cervical (C1-4) and lumbar cord injuries had the lowest DVT rates at about 3%. Lower cervical (C5-7) and high thoracic (T1-6) had the highest rates at 5% and 6.3%, respectively. The lower thoracic spine was about 4.5%. These differences were statistically significant, and the authors also confirmed the usual DVT suspects as being significant (increasing age, increasing injury severity, TBI, chest trauma, and male gender).
Bottom line: Yes, this study does confirm the suspicion that paraplegics are at higher risk for DVT than quadriplegics. Why? We don’t know. And although it is statistically significant, is it clinically significant? I’m not so sure. We’re talking another 1-2 spinal cord injured patients with DVT for every 100 quadriplegics treated. How many do you admit per year? At my institution, this means that there will be 1 additional DVT in this patient group every three to four years. It’s hard to justify making any changes to existing protocols based on these new facts. Always look at the practical side of what you read!
This is another one of those “everything you know is wrong” posts. Since forever, we’ve been taught that an emergent needle thoracostomy should be placed in the second intercostal space, mid-clavicular line. But how do we know?
Once again, the crew at USC+LAC has taken a new look at something we take for granted. They studied thoracostomy insertion in 20 cadavers, using both the classic insertion site as well as a fifth intercostal space, mid-axillary line position.
They found that only 58% of classically placed needles entered the chest cavity, while 100% of the 5th intercostal space catheters were successful. The success rate in the classic position in males was 75%, but in females was only 17%. The authors speculate that the perfect success rate with the lateral approach was due to the absence of extra tissue over the second intercostal space (pectoralis muscle, breast tissue).
Bottom line: Always question dogma. Granted, there are some limitations with this study (using dead people, age and weight not available). Nevertheless, this correlates with my experience, especially when shorter (5cm long) catheters are used. Although I will not necessarily change my practice immediately until there’s a little more literature, I will keep this in mind for obese patients or in those where traditional placement doesn’t seem to be having the desired effect.