There are multiple posts on the Internet regarding this issue, but here's how I see it.
(Do correct me if I'm wrong in what follows...)
A hacker can only do permanent damage if your actual DB and login credentials get known/compromised, where the data can be changed. Otherwise, the data remains safe even by changing the email address in the URL. Just as long as you don't give a potential hacker a back door to change the Email address; that's gold in its own right.
If passwords are properly stored using a one-way irreversible hashing method, then they are just that; irreversible and chances are rather great that they cannot be put back together. If a user's password has been compromised, then that will be a red flag for you to re-think the way you're using your DB.
At best, even if a user's password gets changed, give the user a method to change it again, then set a column to track how many times it has been changed. If it keeps changing too often, then again that will be another red flag. I have used a similar method to what you're using now and nothing got changed in the DB even when changing the Email address in the URL; everything must match.
Plus, even if someone did change a user's password, depending on what type of permissions or access you've given your users, what's the hacker going to do, change the password again?
The URL should contain the Email associated with the account, the hashed key stored in the DB and then retrieved, and will only work if a hacker has gotten hold of the user's Email account credentials and has gotten access to what should be a unique link.
I don't know which hashing method you're presently using, but there are a few that many suggest using.
Other links:
Footnotes:
Quoting owlstead
if I may: (which I do agree with)
"The best methods are PBKDF's such as PBKDF2, bcrypt and scrypt. crypt should not be used if possible, password_hash()
is an implementation of crypt and bcrypt and not a separate algorithm. Users passwords can always be compromised if they choose a bad password. One way cryptographic hashes or PBKDF's cannot be reversed, but they can be brute forced (e.g. using a dictionary attack)"