V,wmpvriAnluyolvol . Ill .Nii 111C% ISCV`$s(1111(list r 199'_ Pogan un Prcrn ~d -PP .7>7tfi71992 Printed in Great 9rir.,in . SPATIO-MOTOR CUEING IN UNILATERAL LEFT NEGLECT : THE ROLE OF HEMISPACE, HAND AND MOTOR ACTIVATION IAN H . ROBERTSON* and Ntcel . NORTHt *MRC Applied Psychology unit . Cambridge, U .KK anti +Department of Clinical Psychology, Odstock Hospital, Salisbury. Wiltshire, U . K . IReceired 20 Mar 1991 : accepted 24 Junuun' 19921 Abstract Reported beneficial efl'ects of left arm activation on neglect are experimentally examined . The present study of a subject with left vista) neglect compared left hand finger movement with an instruction to visually anchor perception on the left arm during letter cancellation . Only the linger movements significantly reduced neglect . Another comparison was between out of sight linger movements of the left hand in left and right hemispace, respectively . Only left hemispace "blind" finger movements significantly reduced neglect compared to the standard condition_ Thirdly, blind left finger movements in left hemispace were compared with passive visual cueing beading a changing number) and again it was found that only the linger movemenls reduced neglect . Finally, right finger movements in left hemispace were compared with left finger movements in left hemispace : only the latter reduced neglect . The implications of these findings for theory and therapy of neglect are discussed - INTRODUCTION Contrnlesionul limb acticntion in cisnal ne,ylecf A NUMBER OF STUDIES have shown that left visual neglect or anesthesia may be ameliorated if target stimuli are detected or manipulated by the left hand (i .e . the hand opposite the lesion) [4, 7, R] . HAi_ucAN et al . [5] attributed this effect to spatio-motor cueing, however, as they found the effect to disappear during line-bisection if the subject was required to begin the task with the left hand positioned on the right . This hypothesis stands in contrast to the view which might be derived from RlzzoLATn and his colleagues (e .g . Refs [1 I] and [12]), who propose that perception and action are so closely integrated that activation of one system might plausibly lead to "recruitment" of the other . While the recruitment hypothesis might predict improvement after left hand activation (in the case of left neglect) In either hemispace, the cueing hypothesis predicts improvement after movements by either hand on the left side . The cueing hypothesis also predicts that visual cueing to the left should improve performance . The present study systematically examines these rival hypotheses in the following series of experiments . *Address reprint requests lo : Dr f . Robertson . MRC Applied Psychology Unit . U Chaueer Road, Cambridge, CR2 2HF. U .K . js ; 554 I . IL Ruin krsnxand N . Noairs SUBJECT The subject evsatire ciously III 62-scar-old riehl-Irandecl motor mechanic who had nufiered a right ('VA on H Pchruars 991,Iesinehmissilhaleflhemtparesisandalefthomnigmdunhemi ;uvipia .Onneurol rcalassessinenl I Tars later, heshowed (ISpowerinhisleftarm, 4SinhisId) lcg,isithnormalpower iiihisright limhs .Heshowed decreased sensulion in his Icfl arm and leg . He was fully oriented fur [line, place and person .hut showed dcur left cisrral neglect of is Inchr he sv ;a assare and also distressed by 11 .1 e also showed sensory neglect on his left side Ilk Mini-Menial Stale score sins 25 31) A CT scan showed multiple cerebral infarcts in the region of the right middle cerebral angry . Ncuropsyeh Iagiealassessmentrevealedsevereleftvisualneglect .tomeasuredby-Ls''eonecmtioial"itemsofthe Bclr ;niouctl Inallentioti lest 111ITI . where lie scored ill the severe neglect range with 54 out of I maximum of 146 . 1 [is Logical Manors (Revised Wechnler Memory Scale) . immediate and delayed . were both in the normal range for his asge 37 amt 64th percentiles . respeeiivelvl, and he showed no signiflennl perseverutton on the Nelson sersain of the Wisconsin Card Sorting Test Iwhere the cards were aliened vertically rather than horimntallc to nn ii nice the elfee ;s of neglect. tonal error.- 1145 : uwnher of persevecttive : 4 . I1 I . He scored in the normal range on the Slmdanites and ('omprehen ton suhtesis of the Wechnler Adult Inlelhgenee Scale IRevised s, iii) Ii ago-scaled pcreenlilesof 3is and 75, respelis:cly . His bigot Span was also normal 190 pementilel . He 55155 irarkedlc impaired ou Object Assembly raid Mock Design- however 1 < 1 anti to percentile. respectively) . I Iuestlnleled prenusrhid IQ was I10 (National .Adult Reading Test I and he was not signiheanits depressed nor anxious tHospital Ansieir and Depression Scale 4 mid 0 for depression and tmxmty respect raely r . He was filly oriented for tine place and peNor. . The Ilrst three experiments were conducted during the period I I t2 sseek_s post stroke . Fsperlmenta was cor.ductal'_ weeks after the sublet wtTeed nm extension to Iris stroke on -i9 April 1991 . EXPERIMENT I 4im To compare the effects of left hand movements (within the alTeeted hemilieldl v's normal performance and visual-cueing instruction respectively . on a test of letter cancellation . 11 it fills? 'fhc Icuer arnecllanion snl,iesl of the Rehavunrral In :nrennon' lest was used 1151 under ihrro conditions 110 itdmiiisn dooms of each condition . with three condiliona rmdomized nerds ., the ti) udministrutis nsl The lord condition silts the stmidard ;Idnut istration of the lest . Condition 2 was adiinnistrxrtion of the lest in conjunction with the motor uetivite . This involved the suhjeet laying his left arm palm upwards on the table 10 cm from the Icfl margin ofilienuiceilalion test and moving Ilie lingers ofthis hti nd far I see whenererthe experinienter signnatIed . The signal consisted of a single knock au the desk . aceontpunied by the instnrction `Now fl' . The imersal hers ec srvials was a mean of 5 .)) e ISIJ 2 .41 . He scars also instructed to look at his lingers musing whenever he nosed Ihem . The third condition required the subject to spree his arm in en identical position to (he Icfl of the iesl . Hoscevcr nosi .he was ius(rueled lo' [nd'' his Iclt anti at the hegimtingofeach single administration ofthe letter cancellation lest, with no further instructions being gicen during 0 (i .e . the 'visuo-pereeplual anchoring' condition)- Conditions Iwo and Ihrce are not directly mmpnrthle because monitoring of eye movements won not possible and hence no atlenipi was rattle to equate the motor responses with lheese mocemento This ) :riling is reniedied in esperimenl 3 helots I . Re .vaka Figure I shows the results . A repeated measures analysis of variance across the three conditions revealed a significant main effect for condition (F=17 .0 : P-c0 .00011 . Schete F- IP- 16 .4 : P'c0 .051 SD=5 .11 and the hand movement tests on the inter-condition comparison revealed a significant difference between the normal condition mean error =18 . 2 : condition (mean error-6 .3 : SD 4,s1, There was also a significant difference ISehelfe F'=7 .4 : Pc 0 .05i between the hand movement condition and the perceptual anchoring condition Imam error= 14 .3 : SD= 3 .4) . 'hhere was no significant difference between the normal and perceptual anchoring conditions . SPATIO- MOTOR ('CEING IN L>ILATERAL LEFT 6EOLk ( T 5 55 normal • left hand noverneni left side • percepwal anchoring left Fig . I . Letter cancellation : normal v : left hand movement left side v-s left visual-perceptual anchonnr inslruetion . I) (Sf II5510!J In this experiment, contralesional finger movements significantly reduced the degree of neglect shown, in comparison with both the normal and perceptual anchoring conditions .. with there being no differences between the latter two . This suggests that the motor response is more potent than a visual cueing instruction, though of course the motor response may simply serve to he a more salient perceptual cue, whether visual or spatial . It is however important to note that there was no way of actually controlling for the degree of perceptual anchoring actually demonstrated by the patient . This is dealt with in experiment 3 below . In order to explore the effects of motor activation more thoroughly, experiment 2 was carried out . EXPERIMENT 2 Rulionille (1/Id aims in order to determine whether the effects ofeontralesional hand activation were mediated by increased visual scanning . this experiment examined the effects of hand movements on neglect where the hand was masked and could not he viewed by the subject . If visual scanning is the crucial factor, then neglect should be unaffected by hand movements which cannot he seen . It was not possible m expenment 1 to adequately test the hypothesis that the crucial element of motor activation is the Innb moved, as opposed to the hemispace to which the movement takes place . Hence a second aim of this experiment is to compare the elTecls of ''blind" Left hand movements in left hemispace with "blind" left hand movements in right hemispace . Inclusion of a right hemispace motor activation condition also allows one to test for the I . Ii . ItoImuisov anti N . Lsnxui 5 56 possibility that the motor activation condition is mediated by an increased general arousal induced by the task demand, and that Ihis results in a reduction in neglect for reasons unrelated to the side of the activity . FLI .t :r and HLILMAN [2] have proposed such a meehanisrn as a possibility . .t It 'I Itod The letter cancellation ,ablest of the l3chaviourul Inattention Test was again used, and again there were three conditions I Itl administrations ofeaeh condition, with three conditions randomized across the 30 administrations I . As in the precious experiment, the lirst condition was the standard administration of the test . Condition 2 scar administration of the test in conjunction with the identical motor .ieticity to condition '_ in the precious experiment . with the major difference that the subject's hand was concealed behind a board 40 cm broad by 30 em high . As bdiare, the subject laid his left arm on the table 10 em to the left of the test and moving the lingers of this hand whencset the experimenter signalled . The third condition required the subject to cross his left hand to his right knee under the table it was not possible to base him permanently lay his left hand on the right side as it obstructed his performance on the test l . His left hand cuts nnss in right hemispace, and was invisible below the table . lie was required to mauve his Ilngee, whenever the experimenter signalled . The mean tints between left hand movements on the left side was G_' 1St) 1 .11 and on the right stile 6 151)1 .! ii non-signtlieant difference n--0 .U ; nsl . the left band should ideally base been in equivalent positions in left and right hemispace respectisely duringg this esperintna . whereas in fact it scats on the desk in left hemispace and on the subject's knee in right hemispace_ Placing the left hand to the right of the test on the desk would bare been phpsiealls impossible for the subject . houcver, :ntd m order to ensure comparability with the condition 2 ofexperiment lit was necessary to keep the left hand on the desk and not change it to the knee posninn . R('SUItS Figure 2 shows the results . A repeated measures analysis of variance across the three conditions revealed a significant main elTect for condition 1F- 22 .3 :1' <0 .0001) . Seheffc Ftests on the inter-condition comparison revealed a significant difference (F= 19 .4 ; Y<0 .05) between the normal condition (mean error- 14 .0 ; SD =4 .G) and the blind left hand/left side movement condition (mean error =43 ; SD =1 .7) . ∎ normal 1~ mind as hvm Over,em lot code in- ∎ blind bit ,andinwement right side 0 0 coca m 0 m 0 Ire .'-. Letter cancellation: normal ss blind Ieh hand mosentent left side vs blind left hand macement right side . SNOT IINAtiI IUR ('USING IN 11511A U R Al . L I cr NtGISCT 55 7 There was also a significant difference (Seheffe F=13 .6 ; Y<0,05) between the left side movement condition and the right side movement condition (mean error= 12 .4 ; SD=3 .3) . There was no significant difference between the normal and right movement conditions, Discussion The visual cueing aspect of the motor activity appears to be irrelevant, according to the results of this experiment . Scrutiny of Pigs I and 2 shows that reductions in neglect with left hand activation were as great when the hand was visible to the patient as when it was invisible . But activation of the left hand in right hemispace had no effects on neglect . This further supports the conclusions of the previous experiment which suggested that the motor activation aspect of the treatment is particularly important . Motor activation does not appear to affect neglect through the visual stimulation associated with it, though of course the spatio-motor (in the terms of Halligan and Marshall outlined in the Introduction above) cueing may indeed attract more attention to left hemisphere irrespective of any visual process . This experiment also fails to support the notion that any movements by the contralesional limb will reduce neglect : the left hand moving equally frequently in right hemispace had no effects on neglect . This finding is in line with the conclusions of HAt LiGAN era! . [5] for line bisection . This of course also rules out the general arousal explanation . However, the role of visual cueing- i .e . "visuo-perceptual anchoring'-as one possible mechanism cannot yet be completely ruled out . This is because it was not possible in the perceptual anchoring condition of experiment I above to monitor whether the subject actually did make frequent eye movements to bring his left arm into his intact visual field, resulting in a spurious negative result (at least as far as visual perceptual anchoring is concerned) . The third experiment tests this hypothesis . EXPERIMENT 3 Rationale and ants The main aim of this experiment is to determine whether a visually-based perceptually anchoring instruction (where actual scanning can be monitored) can produce reductions in neglect similar to those produced by "blind" hand movements in the neglected hemifteld . A subsidiary aim is to replicate the results ofexperiment 2 above, which found that "blind" left hand movements in left hemispace produced significant reductions in neglect on letter cancellation . Method The letter cancellation subtest of the Behavioural inattention Test was again used, and again there were three conditions tlOndmini ;trations ofeach condition . with three conditions randomized across the 3t) adnlinistrutiunslAs "'the presiuus experiments, the first condition was the standard administration of the tat . Condition 2 was identical to condition in the previous experiment, i .e . hand movements made behind a hoard on the subject's left sick . Condition 3 was a visually'based perceptual cueing condition where responses could be monitored . This was done simply by placing a cluck 10 cm to the left of the test sheet-The subject was instructed to read the number sin the seconds dial of the clock each time the experimenter s'ignnlled . The mean time per response in the "clock" condition was 9 .6 (Si) 531 and in the hand movement condilinn 9 .0 (SD I$1, a non-signilicant diircrcnee . j,,R . Rum .R]so" . and N . NOR] ' [ . II RESULTS Figure 3 shows the results .A repeated measures analysis of variance across the three conditions revealed a significant main effect for condition (F-41 .9 ; P<0 .0001 ) . Seheffe Ftesis on the inter-condition comparison revealed a significant difference (/'=14 .8 : P<0 .051 between the normal condition (mean error =2 .7 : SD =4 .1) and the hand movement condition (mean error =2 .6 ; SD =L4) . 'there was also a significant difference (Seheffe F=27 .6 ; P<0 .05) between the hand movement condition and the perceptual anehonng condition (mean error- 11 .6 ; SD='_ .9) . There was no significant difference between the normal and perceptual anchoring conditions . ∎ normal • • Mind Ia!t nand movemonl e, sdo 'en pemupwaF