Don't sleep on your consumers' top unmet need - Better Sleep

Despite millions Googling ways to improve sleep, actionable guidance remains elusive. Over the last 20 years, sleep has become the most sought-after topic, surpassing even mental health, nutrition and fitness. SleepScore APIs offer a solution to this pressing need. Elevate your engagement and drive better health outcomes through hyper personalized sleep journeys and coaching - all grounded in the latest behavioral and circadian science and backed by studies & data.

Learn More About SleepScore APIs
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Trusted By

SleepScore APIs are pioneering the world's first (and still only) permanently reimbursed sleep improvement program for 74 million publicly insured people in Germany.

APIs

The only API's with 2 independent studies (one which is a randomized control trial) showcasing sleep improvement efficacy.

Proven results that supercharge growth

We're not just enhancing sleep outcomes; we're also driving engagement, bolstering retention, and optimizing health & wellness outcomes.

By utilizing user sleep data, including chronotype, behaviors, and motivations, we empower you to deliver better outcomes while simultaneously fueling your business growth.

Let's Connect
Consistent Engagement Icon

Consistent Engagement

3-4x

daily

Increase Retention Icon

Increased Retention

60-90%

after 30 days

More Exercise Icon

More Exercise

up to 48%

increase in fitness activity

Increase Sleep Icon

More Sleep

10-26

more hours of sleep per month*

* All objectively measured and statistically significant

Your consumers'
sleep is deeply personal
and we get that

That's why we're intentional about our robust data collection, analysis, and API delivery. Our APIs are precisely tailored to empower your consumers to confidently own their sleep journey through actionable lasting habits, constant learning, continuous improvement, and adaptive guidance.

Info

SleepScore APIs - the forefront of sleep innovation

SleepScore APIs empower you to guide and inspire your consumers towards transformative sleep habits and outcomes. Backed by 360+ million hours of contextual sleep data, 61 peer reviewed publications and conference abstracts, and 230+ intervention studies. Get to know our APIs.

API Diagram
  1. Sleep Data APIs: Seamless collection of sleep data measured through wearables and apps
  2. Sleep Insights APIs: Actionable sleep insights tailored per phenotype - demographics, lifestyle, environment, and activity
  3. Sleep Content APIs: Thousands of engaging sleep and well-being related content material
  4. Sleep Coaching APIs: Personalized and adaptive sleep coaching rooted in science and Cognitive Behavioral Therapy (CBT)
  5. Authentication APIs: Secure connections across diverse systems and platforms

Sleep is the superhero inside health & wellness outcomes

While improving sleep may not always be your primary goal, it's the essential pathway to delivering on your health and wellness promise. Below are just a few data points showcasing the detrimental effect of poor sleep.

Icon Weight Management
Weight Management / Loss:
  • 55% less fat loss1
  • 66% more lean body mass loss1
  • 15% impaired hormone regulation (Ghrelin, Leptin)2
Mental Wellness Icon
Mental health:
  • 2.5x higher risk of frequent mental distress3
  • 75% with mental health issues and depression affected4
Longevity Icon
Fitness / Athletics:
  • 30% less time to exhaustion5
  • 2x higher risk of injury6
  • 9% lower accuracy7
  • 8% longer reaction time8
Womens Health Icon
Women's Health:
  • 2x higher risk of menstrual irregularity9
  • 3.8x higher risk of miscarriage10
  • 20% reduced fertility11
Heart Icon
Longevity:
  • 26% higher risk of mortality12
  • 20-34% higher risk of heart attack13
  • 30% higher risk of dementia14
  • 40% higher neurodegeneration15
  • 40% lower glucose metabolism16
Mirror Icon
Skin Care / Appearance:
  • 18% lower hydration17
  • 17% lower blood flow17
  • 5% lower elasticity17
  • 4% lower translucency17
  • 2.9% lower desquamation17

A partner you won't lose any sleep over

Science icon
Science & data experts

across our team, advisory board, and academic partners we have solid scientific evidence in real-world settings

Trusted Icon
Trusted across industries

to set the standard for sleep performance across industries, revolutionizing sleep wellness

Data icon
Device & data agnostic

collecting, analyzing, and acting on the data you trust with hundreds of devices and apps already supported

Deliver icon
Deliver seamless integration

of sleep data, insights, coaching, content, and authentication APIs into your tech infrastructure, & journeys

Commitment icon
Unwavering commitment

so you can rely on our team for support and guidance every step of the way

Spun out of & backed by ResMed

the global leader in sleep medical devices, with a legacy of expertise & innovation, setting us apart as your partner

Seize the Zzz's with SleepScore APIs

Change your consumers' relationship with sleep and enable them with evidence-based health & wellness outcomes.

Explore SleepScore APIs now

Sources

  1. Nedeltcheva, A. V., Kilkus, J. M., Imperial, J., Schoeller, D. A., & Penev, P. D. (2010). Insufficient sleep undermines dietary efforts to reduce adiposity. Annals of internal medicine, 153(7), 435-441.
  2. Taheri, S., Lin, L., Austin, D., Young, T., & Mignot, E. (2004). Short sleep duration is associated with reduced leptin, elevated ghrelin, and increased body mass index. PLoS medicine, 1(3).
  3. Blackwelder, A., Hoskins, M., & Huber, L. (2021). Effect of Inadequate Sleep on Frequent Mental Distress. In Preventing Chronic Disease (Vol. 18). Centers for Disease Control and Prevention (CDC).
  4. Nutt, D., Wilson, S., & Paterson, L. (2008). Sleep disorders as core symptoms of depression. Dialogues in clinical neuroscience, 10(3), 329-336.
  5. Azboy, O., & Kaygisiz, Z. (2009). Effects of sleep deprivation on cardiorespiratory functions of the runners and volleyball players during rest and exercise. Acta Physiologica Hungarica, 96(1), 29-36.
  6. von Rosen, P., Frohm, A., Kottorp, A., Fridén, C., & Heijne, A. (2017). Multiple factors explain injury risk in adolescent elite athletes: applying a biopsychosocial perspective. Scandinavian journal of medicine & science in sports, 27(12), 2059-2069.
  7. Mah CD, Mah KE, Kezirian EJ, Dement WC. The effects of sleep extension on the athletic performance of collegiate basketball players. Sleep. 2011 Jul 1;34(7):943-50
  8. Latiri, I., & Dogui, M. (2016). Effects of one-night sleep deprivation on selective attention and isometric force in adolescent karate athletes. The Journal of Sports Medicine and Physical Fitness, 57(6), 752-759.
  9. Nam, G. E., Han, K., & Lee, G. (2017). Association between sleep duration and menstrual cycle irregularity in Korean female adolescents. Sleep medicine, 35, 62-66.
  10. Samaraweera, Y., & Abeysena, C. (2010). Maternal sleep deprivation, sedentary lifestyle and cooking smoke: Risk factors for miscarriage: A case control study. Australian and New Zealand Journal of Obstetrics and Gynaecology, 50(4), 352-357.
  11. Ahlborg Jr, G., AXELSSON, G., & Bodin, L. (1996). Shift work, nitrous oxide exposure and subfertility among Swedish midwives. International journal of epidemiology, 25(4), 783-790.
  12. Hublin, C., Partinen, M., Koskenvuo, M., & Kaprio, J. (2007). Sleep and mortality: a population-based 22-year follow-up study. Sleep, 30(10), 1245-1253.
  13. Daghlas, I., Dashti, H. S., Lane, J., Aragam, K. G., Rutter, M. K., Saxena, R., & Vetter, C. (2019). Sleep duration and myocardial infarction. Journal of the American College of Cardiology, 74(10), 1304-1314.
  14. Sabia, S., Fayosse, A., Dumurgier, J., van Hees, V. T., Paquet, C., Sommerlad, A., ... & Singh-Manoux, A. (2021). Association of sleep duration in middle and old age with incidence of dementia. Nature Communications, 12(1), 2289.
  15. Gottlieb, E., Egorova, N., Khlif, M. S., Khan, W., Werden, E., Pase, M. P., ... & Brodtmann, A. (2020). Regional neurodegeneration correlates with sleep-wake dysfunction after stroke. Sleep, 43(9).
  16. Spiegel, K., Tasali, E., Leproult, R., & Van Cauter, E. (2009). Effects of poor and short sleep on glucose metabolism and obesity risk. Nature Reviews Endocrinology, 5(5), 253-261.
  17. Kim, M. A., Kim, E. J., Kang, B. BY., & Lee, H. K. (2017). The effects of sleep deprivation on the biophysical properties of facial skin. Journal of Cosmetics, Dermatological Sciences and Applications, 7(1), 34-47.