Objective: Many tremors occur always or often bilaterally. The question ari
ses whether this could be explained by a common source or commonly transmit
ting pathways or by bilaterally represented, independent structures with th
e same oscillatory properties. A similar tremor frequency does not provide
sufficient information to clarify this question.
Methods: We analyze coherencies between surface electromyographies (EMG) to
investigate if bilateral physiologic (PT), essential (ET), Parkinsonian (P
D) and orthostatic (OT) tremors originate from a common source for both sid
es of the body. We show that commonly used techniques to test whether coher
encies are significant could lead to false positive results for tremor EMGs
. A new estimation procedure is proposed to test EMG tremor time series on
their linear independence. We apply this test to bilateral tremors.
Results: All measured EMG-pairs in OT (n = 7) were highly coherent between
both sides with reproducible coherency values of up to 0.99. All other inve
stigated tremors, i.e. PT and enhanced physiological tremors (EPT, n = 117)
, ET (n = 76) and PD resting and postural tremors (n = 70) do not show a si
gnificant side-to-side correlation.
Conclusions: This finding shows that the pathophysiologies of OT and other
pathological tremors are definitely different. Either they have different o
rigins or different kinds of transmitting pathways. The proposed method mig
ht also be used to investigate other electrophysiological data and is a hel
pful, easy to use investigation for a daily clinical routine. (C) 1999 Else
vier Science Ireland Ltd. All rights reserved.