Glad you both pulled through. The results from that kind of venom can be horrific, it's just as well Loxosceles can only deliver low volumes of venom, given how potent it is. Read something interesting, given how, evolutionarily speaking, scorpions came first (well there are the sea-spiders, but the Pycnogonids are very, very different from true spiders), with huge sea-scorpions eventually having some of their smaller species come to land (the biggest of the Eurypterids wouldn't have been able to support itself on land, but they ranged in size from a couple of meters to quite a lot smaller)
I think I mentioned them in passing, but there is an ancient, primitive sister-group to the mygalomorph spiders, Liphiistiidae being the only surviving family, venom-less trapdoor spiders which retain the scorpioniform plating on their abdomen, known as mesothelids.
I have to wonder, given the scorpions presumably thus ended up giving birth to the evolutionary precursors of the early spiders, Mesothelae presumably first, since they lack a tail, and have no venom, followed by evolution of the Mygalomorphs, seeing as evolutionarily, it's less complex to adapt a system already present (I.e the large, downwards-thrusting fang configuration) and then finally Araneomorphs (I'm really not sure where to place the Uloborid spiders, which lack venom also, tiny things, or their other non-venomous relatives, or that one vegetarian spider known)
Apparently Hemiscorpius lepturus venom (Liochelidae, most of the dangerous scorpions are in the order Buthidae, but Hemiscorpius is the joker in the pack, so to speak), and it seems the same with the Sicariidae spiders, (Loxosceles, Sicarius, Hexopthalma), in that seemingly the sequence-homology of the amino acid peptide structures which make up the venom of Hemiscorpius is pretty similar to Sicariid venoms, being the only known animal examples of a sphingomyelinase-D based venom, usually it's a cytolytic enzyme of bacterial origin, not animal.
Makes me wonder if they are related in some way, it would make intuitive sense IMO.
And this kinda puts recluse venom, given the similarity between it, and that of Hemiscorpius lepturus,
http://www.pharmacophorejournal.com/en/site/storage/article/file/AC389Article.pdfQuite small scorpions, tiny telson and gracile overall build, but DAMN is it's venom potent, 600 nanograms of fresh venom in the study, was diluted to make a 50:50 solution in saline, and even diluted, just 0.9ug of the diluted saline solution was sufficient to kill 100 mice.
And apparently people don't notice they've been stung a lot of the time, due to the tiny size of the sting, and reported lack of pain-inducing properties, and it's slow acting, like recluse venom, so often goes untreated for several days, as the venom goes systemic, starts causing oedema and necrosis of internal organs, rhabdomyolysis, massive haemolysis, DIC, then not infrequently, death after several days in humans. Ugly stuff, I've seen a picture of what it can do, both in mice and humans, the mouse had a gaping rotting hole where it's torso used to be, clean through one side and out the other, whilst the human had their arm flayed to the muscle, and a MASSIVE wound, right up the forarm.
