Let $S$ be a set of positive integers, and let $D$ be a set of integers larger than $1$. The game $i$-Mark$(S,D)$ is an impartial combinatorial game introduced by Sopena (2016), which is played with a single pile of tokens. In each turn, a player can subtract $s in S$ from the pile, or divide the size of the pile by $d in D$, if the pile size is divisible by $d$. Sopena partially analyzed the games with $S=[1, t-1]$ and $D={d}$ for $d otequiv 1 pmod t$, but left the case $d equiv 1 pmod t$ open. We solve this problem by calculating the Sprague-Grundy function of $i$-Mark$([1,t-1],{d})$ for $d equiv 1 pmod t$, for all $t,d geq 2$. We also calculate the Sprague-Grundy function of $i$-Mark$({2},{2k + 1})$ for all $k$, and show that it exhibits similar behavior. Finally, following Sopenas suggestion to look at games with $|D|>1$, we derive some partial results for the game $i$-Mark$({1}, {2, 3})$, whose Sprague-Grundy function seems to behave erratically and does not show any clean pattern. We prove that each value $0,1,2$ occurs infinitely often in its SG sequence, with a maximum gap length between consecutive appearances.