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Coronavirus Updates
Normal life looks a lot different these days, especially in healthcare. But there is one thing that hasn’t changed at Children’s Colorado: Your child’s health and safety are our highest priority. Kids need great pediatric care as much now as ever, and it’s for that reason that we’re reactivating services we temporarily suspended due to the pandemic. We are here to deliver safe, thoughtful, high-quality care for kids who need it. Learn what to expect – and all the ways we’re keeping patients safe.
For ongoing updates, a list of open locations and how to get care virtually or in person, please see our coronavirus resources for parents and resources for healthcare professionals. For questions about visiting our locations, such as face covering requirements, inpatient visitation and outpatient appointments, please see our visitation policies.
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720-777-0123Send Postal Mail To:
Children’s Hospital Colorado
Anschutz Medical Campus
13123 East 16th Avenue
Aurora, CO 80045
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If you're concerned that you or your child may have been exposed to COVID-19, please do NOT visit an emergency or urgent care location. Instead, call your doctor or our free ParentSmart Healthline at 720-777-0123 for guidance.
In life-threatening emergencies, find the emergency room location nearest you. For non-life-threatening medical needs when your pediatrician is unavailable, visit one of our urgent care locations.
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Tobias Eckle, MD
- Core Director Grand Rounds Department of Anesthesiology
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We participate with most major health insurance plans and national transplant networks.
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My care philosophy
I strive to provide the best patient care possible.Get to know Tobias Eckle, MD
Languages spoken
- English
- German
Experience and background
Medical School 2001
Eberhard Karls University, Tübingen - Germany
For Patients:
My research interests are primarily focused on investigating the effect of daylight/sunlight on human metabolism.
My research interests are primarily focused on investigating the effect of daylight/sunlight on human metabolism.
For Referring Providers:
Our research has been directed towards identifying cellular adaptive mechanisms during hypoxic conditions such as myocardial ischemia – one of the leading causes of morbidity and mortality worldwide. Epidemiologic studies in humans indicate that susceptibility to hypoxic events such as ischemic myocardial tissue injury is time-of-the-day dependent, with more severe injury occurring in the early morning hours after a longer period without daylight. Current findings from my lab indicate that light-exposure could function to attenuate ischemic myocardial injury. In fact, we observed a time-dependent reduction in myocardial infarct size and troponin I release following light treatment. A search for light inducible circadian rhythm proteins revealed a robust induction of cardiac Period 2(Per2) protein levels upon intense light exposure. Based on these findings, we hypothesize that intense light therapy provides robust cardio-protection by stabilizing cardiac Per2, thereby leading to concomitant cardio-protection from ischemia by optimizing metabolism on a cellular level. The long-term goal of our studies is to introduce intense light therapy into the hospital to prevent or treat hypoxic conditions such as myocardial injury in patients, the leading cause of morbidity and mortality worldwide.
Our research has been directed towards identifying cellular adaptive mechanisms during hypoxic conditions such as myocardial ischemia – one of the leading causes of morbidity and mortality worldwide. Epidemiologic studies in humans indicate that susceptibility to hypoxic events such as ischemic myocardial tissue injury is time-of-the-day dependent, with more severe injury occurring in the early morning hours after a longer period without daylight. Current findings from my lab indicate that light-exposure could function to attenuate ischemic myocardial injury. In fact, we observed a time-dependent reduction in myocardial infarct size and troponin I release following light treatment. A search for light inducible circadian rhythm proteins revealed a robust induction of cardiac Period 2(Per2) protein levels upon intense light exposure. Based on these findings, we hypothesize that intense light therapy provides robust cardio-protection by stabilizing cardiac Per2, thereby leading to concomitant cardio-protection from ischemia by optimizing metabolism on a cellular level. The long-term goal of our studies is to introduce intense light therapy into the hospital to prevent or treat hypoxic conditions such as myocardial injury in patients, the leading cause of morbidity and mortality worldwide.
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