Postpartum hemorrhage (PPH) means heavy bleeding after a woman gives birth. It is a main reason some mothers get very sick or die. PPH can happen quickly and without warning. Medical staff need to act fast to help. Usual ways of spotting risk, like checklists, do not always work well. This is because many things affect PPH. These include a patient’s health before birth, how labor goes, and changes happening in the body right then. Sometimes, young and healthy women can hide blood loss until it suddenly becomes serious. This makes it hard to catch early signs.
In the United States, hospitals and leaders want to lower the number of mothers who die and keep mothers safer. The Joint Commission, which checks healthcare quality, says hospitals must use tools based on real evidence to find risks during childbirth. The National Partnership for Maternal Safety has a plan with four parts for PPH care: being ready, knowing the signs and preventing PPH, reacting to it, and learning from what happened. The part about seeing and stopping PPH early needs good and accurate ways to predict risk.
At Cedars-Sinai Medical Center, new machine learning (ML) programs have shown they can look at big amounts of health data to better predict serious PPH than usual methods. These programs use electronic health records (EHR) gathered during admission, labor, and delivery. They find patterns that humans might miss.
One study looked at information from 12,807 women. Out of these, 386 had severe PPH. The AI model got better at predicting risk as labor went on. A measure called AUC ROC showed how well the model worked: 0.7 when women were admitted, 0.8 during labor, and 0.88 after birth. A higher number means better accuracy.
Things that helped the model predict risk included the patient’s age, type of insurance, and a Social Vulnerability Index based on their ZIP code, showing links to social factors. During labor, factors like length of labor, average diastolic blood pressure, and blood orders mattered. After birth, the type of anesthesia and the highest heart rate were important.
Machine learning looks at data over time, not just a single moment. It watches how vital signs like blood pressure and heart rate change. These changes can warn that the body is failing before clear symptoms appear.
Being able to predict high-risk PPH cases as they happen gives healthcare teams time to prepare. Knowing the risk is rising can lead to readying blood transfusions, calling surgical teams, or giving medicines fast.
At Cedars-Sinai, they want to use AI in real hospital settings, not just research labs. Dr. Cecilia B. Leggett said many women can handle blood loss during labor. AI helps find the few who will get worse quickly and need emergency care. This could lower the number of serious problems, like unexpected surgery to remove the uterus, ICU stays, and many blood transfusions.
With rising maternal deaths in the U.S., hospital leaders should think about using systems with machine learning. These can alert doctors and nurses, helping them act fast and possibly save lives.
Research shows AI can help reduce unequal care. Sometimes, traditional practices do not treat all racial and social groups equally. For example, AI was used to find pregnant women at risk for preeclampsia, which is dangerous high blood pressure during pregnancy. The AI helped doctors give aspirin to the right patients. This reduced racial differences in care and helped Black women who often get less support.
In PPH prediction, AI also includes social factors using tools like the Social Vulnerability Index. This helps doctors notice how social conditions affect pregnancy results. Hospital leaders should keep this in mind when setting up fair care systems and choosing AI tools.
AI can do more than find risks. It can help hospitals run better by automating tasks in office and clinical work. For example, companies like Simbo AI use AI for phone answering and office work during labor and delivery.
AI tools in PPH care can:
For hospital managers and IT staff, using AI automation means better use of staff time, fewer mistakes, and a smoother experience for patients. Combining clinical AI with office automation can create complete systems that respond fast during labor emergencies while managing patient contacts well.
Adding machine learning and AI to hospitals needs careful planning. Healthcare in the U.S. changes a lot from place to place in how it is set up and what rules apply. Hospital leaders should think about these steps:
Machine learning algorithms are changing how hospitals find and treat postpartum hemorrhage in the U.S. By studying complicated data from admission to birth, AI helps predict risks better. This guides doctors to act at the right time. AI automation also supports communication and resource sharing during labor. Hospital managers and IT teams can use these tools to make care safer, speed up work, and reduce healthcare gaps for mothers.
Using machine learning and AI is a key step in tackling postpartum hemorrhage and improving results for mothers and families across the country.
Cedars-Sinai uses AI to identify risks for preeclampsia and postpartum hemorrhage, automating decisions like aspirin prescriptions to reduce complications and eliminate racial disparities, along with algorithms analyzing labor data to predict bleeding risks during childbirth.
AI identifies at-risk patients and automates aspirin prescription decisions, which led to increased appropriate aspirin use and the elimination of racial disparities, especially benefiting Black pregnant women who are often overlooked for this treatment.
Machine learning algorithms analyze multiple data points during labor, such as medical history and anesthesia type, to predict severe hemorrhage risk, aiming for real-time prediction to enable timely interventions and improve outcomes.
AI applications, including ChatGPT, perform contextual analysis of Pap smear results, recommend next steps, and generate patient communication letters, enhancing cervical cancer screening by integrating patient history with test outcomes.
AI can analyze glucose monitor data to identify patients needing complex interventions quickly, allowing diabetes educators to focus on the 20% of patients requiring medication or nutrition counseling, thus optimizing care and resource allocation.
AI models could monitor subtle blood pressure patterns, alerting patients and providers to medication adjustments or urgent care needs, improving the management of pregnancy-related hypertension and enhancing patient education on when to seek help.
They focus on researching diverse AI applications with an emphasis on practical implementation in clinical settings, moving beyond laboratory studies to activate and integrate AI tools that improve care delivery and patient health outcomes.
The main goal is to free healthcare providers’ time and mental effort by automating routine tasks, allowing clinicians to focus more on patient-centered care while AI efficiently handles data analysis and decision support.
AI has the potential to reduce healthcare inequalities by providing personalized care across diverse populations, improving access and quality whether in resource-limited settings or academic medical centers.
Future AI applications include managing gestational diabetes and hypertension by analyzing patient-submitted data for trends, improving early detection, personalized interventions, and focusing provider attention on high-risk cases.
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