In our modern world, car crashes are a tragic but all-too-common occurrence. In Illinois alone, thousands of car accidents occur each year, leading to serious injuries and fatalities. As a plaintiff’s personal injury attorney, I’ve seen firsthand the devastating impact car accidents can have on people’s lives. This raises an intriguing question: what if humans evolved to survive car crashes? How might our bodies be different, and what can this thought experiment teach us about the dangers of car accidents and the importance of safety measures?
In this article, we’ll explore the concept of human evolution in the context of car crashes, discuss the types of injuries most commonly sustained in accidents, and consider how the human body might adapt to better withstand the violent forces of a collision. Understanding these factors can help us better appreciate the importance of injury prevention and how legal actions can hold negligent parties accountable.
The human body, as it exists today, is not equipped to handle the extreme forces generated by a car crash. Our ancestors evolved in environments where the greatest physical threats came from natural predators, falls, or other humans, not from traveling at speeds that can reach 60, 70, or even 80 miles per hour.
In a car crash, the body is suddenly exposed to immense forces that can cause serious injury or death. This mismatch between the human body’s design and the realities of modern transportation is why car accidents remain a leading cause of injury in the United States, including Illinois. These injuries often involve the head, neck, chest, and limbs, and the severity can range from minor scrapes to life-threatening trauma.
Before we imagine how humans might evolve to survive car wrecks, let’s first look at the types of injuries people commonly sustain in collisions:
- Traumatic brain injuries (TBIs) are among the most serious consequences of car crashes. These occur when the head strikes a hard surface or experiences a sudden jolt, causing the brain to collide with the skull. Concussions, brain swelling, and permanent cognitive impairments can result from even moderate impacts.
- The neck is particularly vulnerable in rear-end collisions, which can cause the head to snap forward and backward rapidly, leading to soft tissue injuries known as whiplash. This can result in long-term pain and stiffness in the neck and shoulders.
- The chest, particularly the ribs and internal organs, often bears the brunt of the impact in a car crash. Broken ribs, punctured lungs, and damage to the heart and other internal organs are common in high-speed collisions, especially if the airbag deploys or the individual is wearing a seatbelt.
- Spinal cord injuries can be devastating, leading to partial or complete paralysis. These injuries occur when the vertebrae are fractured or dislocated, damaging the nerves that run through the spinal cord.
- Broken bones, dislocations, and severe lacerations are common in the arms, legs, and hands during a crash. These injuries are often caused by the sudden impact or the body being thrown into hard surfaces within the car.
This question isn’t just the stuff of science fiction—it has sparked real-world conversations about the limitations of the human body in modern transportation. In fact, a thought-provoking road safety campaign in Australia explored what it might look like if humans evolved to withstand the violent forces of car accidents. The lifelike sculpture, commissioned by the Transport Accident Commission of Victoria, featured a sculpture named Graham, a creation designed to demonstrate the anatomical changes necessary to survive high-speed collisions.
Melbourne artist Patricia Piccinini, alongside trauma surgeon Christian Kenfield and crash investigation expert David Logan, welcomed viewers to meet Graham as a visual response to the harsh reality that cars have advanced far beyond what our bodies can handle. Logan summarized the challenge in a documentary about the project: "The truth is that cars have evolved a lot faster than we have." With seatbelts and airbags offering limited protection for the fragile human form, Graham was designed to explore what nature’s adaptations might look like if survival in crashes became a biological priority.
Graham was on display at the State Library of Victoria, showcasing exaggerated anatomical features—such as a larger, reinforced skull to protect the brain and airbag-like ribs to absorb impact. His unsettling design serves as both a warning and a conversation starter, highlighting just how far technology has outpaced human evolution. While the sculpture is only hypothetical, it raises important questions about the inherent risks of modern transportation and emphasizes the need for continued safety measures. The exhibit made it clear that while safety features may reduce injuries, they are no substitute for recognizing and addressing the limits of the human body.
If humans evolved to withstand car crashes, we would likely develop features that help protect us from the violent forces experienced during a collision. Here are a few possible adaptations that could make our bodies better suited to surviving car crashes:
- To prevent traumatic brain injuries, our skulls might become thicker, providing greater protection to the brain. The cranium could also evolve to cushion the brain more effectively, with layers of fatty tissue or fluid to absorb impact forces. This adaptation would reduce the risk of concussions, skull fractures, and brain damage.
- One of the key weaknesses in a car crash is the neck, which is relatively weak compared to the forces involved. Humans might evolve to have much stronger, thicker neck muscles to stabilize the head during an impact. Alternatively, a shorter neck might reduce the risk of whiplash by limiting the range of motion.
- The rib cage might evolve to function like a built-in airbag, expanding upon impact to absorb the force and protect the internal organs. This flexible rib cage could redistribute the energy of a crash, reducing the likelihood of broken ribs, lung punctures, and heart injuries.
- The human spine is vulnerable to fractures and damage in high-impact crashes. If humans evolved to survive such events, the spine might become more flexible, allowing it to bend and twist without breaking. Additional padding around the spinal cord could protect the nerves from injury.
- Joints, especially the knees, are often damaged in crashes when they collide with the dashboard or other hard surfaces. To prevent this, humans might develop thicker padding around the joints, or even a shock-absorbing mechanism built into the skeletal structure, to reduce the impact on limbs.
- Humans could develop a natural reflex to brace for impact moments before a crash occurs. This could involve automatically tensing certain muscles or adjusting body positioning to minimize injury, much like how cats twist their bodies mid-fall to land on their feet. While some instinctual responses already exist, they are not always effective at protecting us from severe injury.
- In severe accidents, damage to vital organs often leads to fatal outcomes. An evolutionary adaptation might involve the development of redundant or secondary organs. For example, kidneys could help mitigate the risk of fatal organ failure in the event of severe trauma. This would give the body more resilience, allowing it to function even if one organ were damaged in a car crash.
- Humans might develop thicker, more elastic skin with layers of shock-absorbing tissue beneath it, designed to cushion the body from impact. This could help reduce the severity of lacerations, bruises, and broken bones during a collision, much like how certain animals have evolved padding to protect themselves from injury.
- Another possible adaptation could involve heightened sensory perception, allowing humans to better anticipate and avoid dangerous situations. Enhanced vision or an improved ability to detect motion might help drivers react faster to oncoming hazards, reducing the likelihood of an accident in the first place.
- Humans might evolve to have stronger, more flexible hands, feet, or even prehensile tails (similar to those of some primates), allowing for better grip and control of the steering wheel or car interior in the moments leading up to a crash. This increased control could help minimize the severity of a collision by allowing for better control over the vehicle.
While it’s fascinating to imagine how the human body might evolve to withstand the rigors of a car crash, this thought experiment also sheds light on just how poorly adapted our current physiology is to the forces involved in a high-speed collision. Modern vehicles, with their advanced safety features like airbags, seat belts, and crumple zones, are designed to absorb much of the impact energy and protect the human body as much as possible. However, even with these technological advancements, the human body remains vulnerable.
Car crashes often result in severe injuries because of the rapid deceleration or acceleration forces involved. When a car suddenly stops or is hit, the body inside the vehicle continues moving at the same speed until something—like a seatbelt, airbag, or dashboard—stops it. This violent stop can cause internal organs to shift, bones to break, and muscles and ligaments to tear.
Injuries happen because the body’s soft tissues, organs, and bones are not equipped to handle the rapid and extreme forces exerted during a crash. The thought of evolving stronger bones or built-in airbags highlights the importance of external safety measures in modern vehicles. But even with these measures, injuries can and do happen because of human limitations.
As a plaintiff’s personal injury attorney, one of my roles is to help clients navigate the aftermath of a car accident by holding negligent drivers or other responsible parties accountable for the injuries they’ve caused. The current legal system provides an avenue for injured victims to recover compensation for medical expenses, lost wages, and pain and suffering. But even though the law provides remedies, it cannot undo the physical damage caused by an accident.
In car crash injury cases, proving negligence is key. Whether it’s distracted driving, speeding, or failure to maintain a vehicle, holding the responsible party accountable is critical for ensuring that victims are made whole again. The process involves collecting evidence, consulting medical experts, and demonstrating the full extent of the injuries and their impact on the victim’s life.
While human evolution isn’t likely to make us crash-proof anytime soon, there are many practical steps we can take to reduce the risk of injury in a car accident. These include:
While imagining how humans might evolve to survive car crashes is an interesting exercise, the reality is that our bodies are not equipped to handle the forces involved in a high-speed collision. In Illinois, car accidents remain a significant cause of injury and death, and personal injury law plays a crucial role in ensuring that victims are compensated for their losses.
If you’ve been injured in a car accident, it’s essential to work with an experienced personal injury attorney who understands the complexities of car crash injury claims. The legal process is designed to provide financial compensation for medical bills, lost wages, and other damages, helping victims recover after a traumatic accident. While we may not evolve to become crash-proof, the law offers a critical safety net for those who are injured due to the negligence of others.
In the absence of evolutionary adaptations to protect us, legal protections, vehicle safety features, and responsible driving remain our best defenses against the dangers of car accidents.
When it comes to car wrecks, even minor crashes can result in serious injuries that have lasting physical, emotional, and financial consequences. If you or someone you know has been injured in a car accident, you don’t have to navigate the aftermath alone. The experienced attorneys at Palermo Law Group are here to help you get the compensation you deserve. Contact Palermo Law Group today to discuss your case and take the first step toward recovery and justice.
For a free consultation with Palermo Law Group, contact our law firm by calling (630) 684-2332 or visit our website at https://www.palermolawgroup.com/.