Well, that depends on the OS that you're talking about but, for many, the creation of a process includes the act of creating a single thread for that process.
That thread is then free to go and create other threads belonging to the process.
It makes little sense to talk about a process with no threads since that means no code is running for that process so it can't really do anything useful.
For example, in the Linux kernel, the creation of a process is little different to creating a new thread. That's because the kernel schedules threads rather than processes.
Processes are now considered to be groups of threads with the same thread group ID (TGID), that TGID being the thread ID (TID) of the first thread created for that process.
CLONE_THREAD), you get a new thread with a new TID and the TGID is set to that TID - that's a new process.
CLONE_THREAD, you get a new thread with a new TID but the TGID remains the same as your cloner. That's a different thread in the same process.
That's how Linux (as an example) distinguishes between processes and threads without having to make the scheduler too complicated. The scheduler can choose to ignore thread groups entirely if it wishes. It's actually incredibly clever.
To code outside the scheduler, a group of threads with the same TGID is considered a process.
This includes both user space code and other bits of the kernel since, for example, how threads are grouped into processes has a bearing on things like signal delivery and exit codes.