If your patients have ever asked, “Why aren’t you supposed to sleep after a concussion?”, they’re not alone, and the answer is more complex than it may seem. While sleep after concussion can support recovery, timing and context are important.
Generally, concussion specialists, sports neurologists, and other medical experts may suggest that patients avoid sleep directly after a concussion, and this may be a source of confusion. Research indicates that good sleep in both quality and quantity can help with concussion recovery, especially in the first week of injury post-concussion (VonDeylen et al., 2024). It's important to clarify the relationship between sleep and concussion to better inform patients.
A concussion patient needs professional medical assessment as soon as possible, and sleeping after a head impact can interfere with concussion diagnosis if it delays medical attention. When a concussion diagnosis is delayed, the patient may experience persistent symptoms and may be more vulnerable to recurring concussions via second impact syndrome.
In this article, we dive into exactly what happens to the brain when patients go to sleep immediately after a concussion, so physicians and patients can establish a shared understanding of why it's so important to get tested immediately after a head injury. We also discuss how digitized cognitive function tests can help speed up the concussion detection process, helping clinicians improve patient experience.
It is safe to sleep after a concussion after receiving medical attention and getting instructions from a healthcare provider to do so. It may even be a valid method of concussion treatment and recovery. But when it comes to sleeping during the acute stage versus the recovery stage, research shows that effects can be both negative and positive.
While sleep is considered an important part of the concussion recovery process, going to sleep immediately after a concussion may have repercussions. While no concussion is exactly the same, there is a possibility that patients may experience one or all of the following:
Additionally, patients may have trouble sleeping as sleep disruptions can occur as a symptom of concussion (Blake et al., 2019). Sleep problems like insomnia and hypersomnia may disrupt normal sleep patterns.
On the other hand, sleep after a patient has been diagnosed and given treatment can have possible benefits, particularly during the concussion recovery process:
A concussion occurs when a patient experiences a head injury, neck injury, or physical impact that causes the brain to move inside the skull, leading to a mild traumatic brain injury. This sudden movement can cause brain damage on the microscopic level. This is why concussions are difficult to detect with magnetic resonance imaging (MRI) or computerized tomography (CT) scans; they don't tend to appear through brain imaging (McCrory et al., 2012).
What makes detecting and diagnosing concussion so challenging is the heterogeneity of impacts. Since every impact affects each individual patient's brain differently, every concussion is a unique case. For example, some patients may experience hypersomnia and daytime sleepiness, while others may have difficulty falling asleep and have insomnia symptoms (Donahue et al., 2024).
The heterogeneity of concussions is why it's so important that patients receive immediate medical attention after an impact. Head injury patients can benefit greatly from personalized treatment options (Danielli et al., 2023) and patient-centered care, making reaching an accurate and quick diagnosis is so important.
A concussion patient may experience sleep disruptions or disorders connected to their mild traumatic brain injury before or during sleep. These conditions vary, but generally can lead to excessive sleepiness, difficulty falling or staying asleep, and an erratic sleep schedule (Raikes et al., 2016). They include:
Outside of sleep disruption, a concussion can give rise to a variety of other symptoms (CDC). Look for symptoms like:
For a more detailed examination of the signs and symptoms of traumatic brain injury, see our article on diagnosing concussion.
Having clear next steps for what to do after a concussion is not only helpful for physicians but for patients and caregivers, too. After all, there might not always be a medical professional nearby. While every concussion is different, the U.S. Centers for Disease Control and Prevention recommends that clinicians and patients generally follow this set of steps after a head injury:
Concussions can have serious complications, and recognizing the dangers of a concussion is important. There's no single reason why a concussion becomes more complex; it may be due to the patient's medical history, and complications may arise due to improper recovery management or a delayed diagnosis.
Regardless of the underlying reason for increased condition severity, medical attention is required if:
It's vital for the patient to receive medical attention immediately if any of these signs appear. As an untreated concussion can lead to second impact syndrome, it's important for patients to get medical attention as soon as possible.
Post-concussion syndrome (PCS) refers to the broad range of symptoms patients experience after a concussive impact (Permenter et al., 2023). Common concussion symptoms like headache, fatigue, vision changes, balance issues, confusion, dizziness, insomnia, and difficulty concentrating tend to last for about 10 to 14 days. However, when a concussion patient experiences these symptoms for months, they may have PCS.
If left unaddressed, PCS can significantly affect a patient's quality of life. One way to measure and track PCS symptoms and recovery is through computerized cognitive testing. Online cognitive tasks can be used remotely to eliminate the stress of travel and are more time-effective than neuropsychological exams, making testing more convenient. Creyos also offers the Rivermead Post-Concussion Symptoms Questionnaire (RPQ) as a digital assessment of self-reported symptoms, which can help quantify their presence and severity.
Traditionally, concussion detection has relied heavily on self-reported cognitive health tests using pen-and-paper. While useful, these evaluations require patients to attend appointments in person and can only capture subjective experiences, limiting their accuracy. Instead of solely relying on qualitative measures, studies show that implementing a variety of tests is the best way to evaluate for concussion (Feddermann-Demont, 2017).
Digital assessments, like Creyos, allow for more objective measurements and longitudinal data captured over a period of time, all while making the testing process more convenient for patients and physicians. The combination of behavioral health questionnaires for subjective self-reports and cognitive testing for objective measures has the potential to offer precise insights into a patient's overall cognition. It also supports baseline concussion testing and gives physicians more valuable data for making key medical decisions.
When it comes to concussion and sleep, Creyos offers the Pittsburgh Sleep Quality Index (PSQI). This cognitive test allows physicians to measure a patient's sleep quality, patterns, and disturbances over time. The PSQI can even distinguish between patients who have or haven't experienced a concussion, due to the effects of concussions on sleep quality (Donahue et al., 2025). This distinction makes the PSQI a viable tool for gathering longitudinal data on sleep quality in concussed patients, leading to more informed medical decisions for concussion treatment and recovery.
The Kerlan-Jobe Center for Sports Neurology used to refer out every concussion patient for neuropsychological testing. However, its original workflow meant longer wait times for patients and disrupted continuity of care. The referral appointment was usually scheduled long after the patient experienced signs of a concussion. After testing, the patient had to make another appointment days or weeks away for the interpretation of their cognitive testing results, and finally received treatment (or further appointments if the results were inconclusive) months after the impact.
The sports center found that this workflow led to difficulties retaining patients, and it sought to create a more accessible patient experience by partnering with Creyos. Kerlan-Jobe has been able to reduce its referrals by 10% and improve the health outcomes of its concussion patients with a workflow that only takes one or two appointments.
Essentially, what patients and physicians need to know about sleep and concussion is that while sleep can support concussion recovery, medical attention should always be the immediate priority. While some patients may choose to rest or sleep instead of travelling to the clinic after a concussion, most experts recommend seeking treatment as soon as possible to reduce the risk of further complications like second impact syndrome and PCS (McAllister & McCrea, 2017; Permenter et al., 2025).
Concussion diagnosis no longer needs to be an inconvenient process. Instead of relying solely on inaccurate self-reports and hours-long neuropsychological exams, computerized cognitive tests like Creyos can be a viable part of concussion assessment. As technology continues to evolve, digital assessments are not only more efficient than traditional pen-and-paper methods but also provide more accurate data, which aids in better patient care and can lead to more informed healthcare decisions.
Written by Lawrence Stewen
Lawrence Stewen is an SEO copywriter and content marketer based in Vancouver, Canada. Transforming complex, technical concepts into copy that’s simply human is what he does best. In his free time, you can find him hiking, reading at a local café, or working on his many creative writing projects. Learn more about his work at: www.lawrencestewen.com
Reviewed by Mike Battista, Director of Science & Research at Creyos
Mike Battista specializes in brain health, cognition, and neuropsychological testing. He received his PhD in personality and measurement psychology at Western University in 2010 and has been doing fun and useful stuff in the intersection between science and technology ever since.