IN IPV4. A multicast Address (old class D) consists of 4 bits fixed for identifying it as multicast(1110), and the remaining 28 bits to Identify the group.
Since there are only 23 Bits available in a MAC Address (the high order 25 bits are fixed), when you map the lower order 23 bits of the multicast address into the lower order 23 bits of the mac you lose 5 bits of addressing information. So multiple Multicast addresses all have the same MAC address.
all map to MAC address: 01:00:5e:0a:00:01 (There are more, this is just a subset to illustrate)
so if you join group 18.104.22.168, your ethernet card will start sending frames up the stack for that MAC. Since it is an imperfect match (since we discarded those 5 bits), the ethernet card will also send 22.214.171.124 and 126.96.36.199 up the stack as well. But since you are not interested in those frames they will be discard at Layer 2 (data link) or Layer 3 (Network) when they can be matched exactly.
So the special case is that if you have multiple multicast streams that occupy the same lower 23 bits of address space, all hosts on the network segment are going to have to process the packets higher up in the stack and thus do more work to tell if the packet they got is one they are interested in).
normally you just need to make sure when planning your multicast deployments, that you try to avoid overlapping addresses.