Here is a design that is simple, self describing, scalable, normalized and extensible. You can add additional policy types or patient types without recompiling the system. You didn't state which database engine you are using, so in order to make it work across most database platforms, I'd suggest you use TPC.
A patient is just a role that a person (aka party) plays in the system. You can have other roles such as "doctor", "employee", "policy holder" and so forth each with their own data. It is important to note that roles are temporal, meaning a single role can be voided, while the person performs other roles in the system.
If "Existing", "AgeIn", "NewPatient" can be determined by looking at properties of the Role or Party, the there is no need for a PatientType. I added it because it is unclear how the types of patiences are defined. You may very well just have a property on Patient to define that.
A party represents any legal entity. Parties have relationships which are often important for a business. So when "Sam" (a person) comes to the "Doctor" (a person playing a role), it is important to know that a "policy" of her dad Bob (a person) will be paying the bill. Hence the reason a Person is mapped in a different table.
PolicyType defines what type of policy a policy really is. In your case, you may have 18 different policy types, like ExistingOriginalMediCare, AgeInOriginalMediCare and so forth. This is where you can store data that influences the "rules" of your policy. For example, some types of policies are only available to people living in California. One system I worked on had thousands of policy types each with hundreds of properties that applications used to infer business rules. This allowed business to create new policy types and "rules" without recompiling the system and everything that depended on it.
However, one can simplify it by taking out the inheritance while maintaining the same capabilities. Here we assume that there will be no other "role" than "patient" and no other "party" than a "person".
That said, it really depends on whether the data will be reused by other applications and how temporal data and associations really are. Feel free to adapt. I often reference these books when designing systems:
- Enterprise Patterns and MDA: Building Better Software with Archetype Patterns and UML
- Enterprise Model Patterns: Describing the World (UML Version)
- The Data Model Resource Book, Volume 3: Universal Patterns for Data Modeling
They have fundamentally changed the way I look at "data".