Despite the clinical potential of botulinum toxin type B (BTXB) for tr
eating focal dystonia, hemifacial spasm, and other movement disorders,
particularly in those resistant to botulinum toxin type A (BTXA), no
objective human data exist to compare the muscle paralysis resulting f
rom these two botulinum toxin subtypes. To objectively compare the hum
an muscle paralysis resulting from intramuscular injections of BTXB wi
th that from BTXA, we measured the extensor digitorum brevis (EDB) M w
ave amplitude four times before and six times after injection with 17
different doses of BTXB (from 1.25 to 480 units) in 17 healthy volunte
ers. This established a dose-response curve that we compared with the
previously published BTXA dose-response curve. After the establishment
of the dose-response curve, we injected 10 new volunteers with five d
ifferent doses of BTXB and BTXA measuring EDB M wave amplitude 4 times
before and 13 times over 57 weeks after injection. The volunteers wer
e randomized by dose and received BTXA and BTXB in opposite EDB muscle
s. The effect of the toxin in all volunteers was expressed as percent
decline in M wave amplitude postinjection (% paralysis). The maximal p
aralysis 2 weeks postinjection with 320 to 480 mouse units (MU) of BTX
B was 50 to 75%, whereas maximal paralysis was 70 to 80% with 7.5 to 1
0 MU of BTXA. Postexercise M wave facilitation on day 9 postinjection
averaged 63% for BTXB and 20% for BTXA. Seven weeks postinjection, BTX
B-induced paralysis had improved by 66% with complete improvement by 1
1 weeks postinjection, whereas BTXA-induced paralysis had improved by
only 6% at 7 weeks, and at 57 weeks postinjection 22% of the original
muscle paralysis was still present. Thus, human muscle paralysis resul
ting from BTXB injection is not as complete or long-lasting as that re
sulting from BTXA.