What are the numerical facts that collected and analyzed can be used to advance science of medicine?

1. Patient demographics: Age, sex, race, ethnicity, etc.

2. Medical history: Previous illnesses, treatments, surgeries, etc.

3. Family history: Health conditions that run in the family.

4. Symptoms: What the patient is experiencing, when it started, how it has progressed, etc.

5. Vital signs: Body temperature, blood pressure, heart rate, respiratory rate, etc.

6. Laboratory tests: Bloodwork, urine analysis, imaging tests, etc.

7. Treatment plans: What treatments were provided, when they were provided, how they were tolerated, etc.

8. Patient outcomes: How the patient's condition improved or worsened over time, whether they recovered or died, etc.

9. Adverse events: Any negative consequences that occurred as a result of treatment.

10. Quality of life: How the patient's condition affects their ability to function in daily life.

By collecting and analyzing these numerical facts, researchers can identify patterns and trends that can lead to new treatments and therapies. For example, researchers might find that a certain combination of drugs is more effective in treating a certain type of cancer than a single drug. Or they might find that a certain genetic mutation is linked to a higher risk of developing a certain disease. This information can then be used to develop new drugs, treatments, and prevention strategies.

In addition to advancing the science of medicine, numerical data can also be used to improve patient care. For example, doctors can use electronic health records (EHRs) to track a patient's medical history and identify potential risks. They can also use data to personalize treatment plans and monitor patient progress. This can lead to better outcomes for patients and reduced costs for the healthcare system.