Demonstration of ischaemic left ventricular dysfunction in the absence of chest pain should provide important confirmation of silent myocardial ischaemia in patients with asymptomatic ST segment changes. For this purpose, a new portable scintillation probe (VEST) similar to a miniaturized nuclear stethoscope combined with a Hotter ECG was evaluated. After standard equilibrium radionuclide angiocardiography with technetium-99m labelled red blood cells, the VEST was positioned under gamma-camera control and data were recorded from 1-12 h in 61 unselected patients. Ejection fraction (LVEF), relative changes in volumes, heart rate and ST segment changes were determined. Reproducibility of LVEF at rest (r = 0.91; variability 3.8 ± 3%, N = 19) and during exercise (r = 0.98; variability 3.2 ± 2%, N = 19) was good. In 15 asymptomatic exercise tests four different patterns of LVEF and ST segment responses were identified: (1) decrease in LVEF followed by significant ST depression (five times); (2) ST depression followed by decrease in LVEF (three times); (3) decrease in LVEF without significant ST changes (three times); and (4) ST depression without significant LVEF change (four times). In this still small series, patterns (1) to (3) corresponded to patients with documented coronary artery disease, which was not the case for pattern (4). For detection of silent ischaemia at rest, a decrease in LVEF of >5% lasting for >1 min was defined as ischaemic LV dysfunction. Using this definition, four spontaneous episodes of silent LV dysfunction could be demonstrated in two of three CCU patients with unstable angina during 160-680 min of data recordings without simultaneous ST changes. Based on this initial experience, we conclude that VEST is a reproducible method to detect transient global LV dysfunction and will be useful to confirm silent ischaemia in otherwise uncertain ST segment change

Burkart, F.

Müller-Brand, J.

Pfisterer, M.

Regenass, S.

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European Heart Journal (1988) 9 (Supplement N), 98-103Ambulatory scintigraphic assessment of transientchanges in left ventricular function: a new method fordetection of silent myocardial ischaemiaM. PFISTERER, S. REGENASS, J. MULLER-BRAND AND F. BURKARTDivisions of Cardiology and Nuclear Medicine, University Hospital, Basel, SwitzerlandKEY WORDS: Silent ischaemia, left ventricular function, ambulatory monitoring, radionuclide angio-cardiography.Demonstration of ischaemic left ventricular dysfunction in the absence of chest pain should provide importantconfirmation of silent myocardial ischaemia in patients with asymptomatic ST segment changes. For this purpose,a new portable scintillation probe (VEST) similar to a miniaturized nuclear stethoscope combined with a HotterECG was evaluated. After standard equilibrium radionuclide angiocardiography with technetium-99m labelledred blood cells, the VEST was positioned under gamma-camera control and data were recorded from 1-12 h in61 unselected patients. Ejection fraction (LVEF), relative changes in volumes, heart rate and ST segmentchanges were determined. Reproducibility of LVEF at rest (r = 0-91; variability 3-8 ± 3%, N = 19) and duringexercise (r = 0-98; variability 3-2 ± 2%, N = 19) was good. In 15 asymptomatic exercise tests four differentpatterns of LVEF and ST segment responses were identified: (1) decrease in LVEFfollowed by significant STdepression (five times); (2) ST depression followed by decrease in L VEF (three times); (3) decrease in L VEFwithout significant ST changes (three times); and (4) ST depression without significant LVEF change (fourtimes). In this still small series, patterns (1) to (3) corresponded to patients with documented coronary arterydisease, which was not the case for pattern (4). For detection of silent ischaemia at rest, a decrease in LVEF of> 5% lasting for > 1 min was defined as ischaemic L V dysfunction. Using this definition, four spontaneousepisodes of silent L V dysfunction could be demonstrated in two of three CCU patients with unstable anginaduring 160-680 min of data recordings without simultaneous ST changes. Based on this initial experience, weconclude that VEST is a reproducible method to detect transient global L V dysfunction and will be useful toconfirm silent ischaemia in otherwise uncertain ST segment changes.Introduction changes during daily activities showed that despite-T-. ,• • r i . • u • • i- •• J u .u high quality recorders and stringent criteria forThe diagnosis of silent ischaemia is limited by the 6 M 3. . Black of a gold standard for detection of myocardial d i a S n 0 S 1 S o f silent ischaemia, there remains a fairlyischaemia. Whereas there are invasive haemo- high percentage of false or uncertain positive (anddynamic, metabolic and angiographic as well as non- " e S a t l v ^ urfu l t s"- , T h e S e findmgS W C r e c o n f i r m e dinvasive scintigraphic methods to confirm asympto- by Probability calculations indicating that even so-matic ST segment depression as a sign of myocardial C a l l e d s ' g " ' f i c a n t ST segment depression in an asymp-ischaemia, these methods are restricted mostly to use t o m a t i c p a t i e " A ^ p r°b a^ 't y ° d'S e a s e m a y• ., . . -T- . , .. . not just be labelled silent ischaemia but requirein the laboratory. Tests to provoke (silent) myocar- . . . , , , .„ M,. , • , • • , . . , , , confirmation by another method .dial ischaemia include mental stress, a cold pressure , , , , , . , . ,. , , . .,,. . . . . • • , • With the introduction of a new portable scintilla-test and drug administration such as ergonovine . , , , , _ _ ^ I i , 1 . . . . . . ,. . A- A i u A L • i • tion probe (VEST)1*-5', similar to a miniaturizedmaleate or dipyndamole besides physical exercise ,,. _, ,• u . • A r i . nuclear stethoscope"" combined with a Holter ECGtesting. However, spontaneous episodes of silent ,. , .• • , • , • . . , , recording system, there is the abihty to detect transi-myocardial ischaemia rarely occur under laboratory , , - . , , ,. •. . . -T-. r u i u A r A • e n t le 't ventricular dysfunction during ischaemicconditions. Therefore, the only method for detecting . L , , • ^ • csuch transient ischaemic episodes which has gained e p ' S ° d e S ° , n f a n ™bulatoiy basis. Demonstration ofwidespread application is ambulatory Holter ECG I S r c h a e m l c l e f t v e n t n c u l a r dysfunction in the absence• m /- ••• i i • r o-r °f chest pain should provide important confirma-monitonng1". Critical analysis of ST segment . . X ,• . • , • •tion of silent myocardial ischaemia in patients withAddress for correspondence. M. Pfis.erer, M.D.. F.E.S.C, Division asymptomatic ST Segment changes. The aim of thisof Cardiology, University Hospital, CH-4031 Basel, Switzerland. report is to describe and validate the 'VEST' method0I95-668X/88/9J0O98 + 06 S02.00/0 © 1988 The European Society of CardiologyAmbulatory assessment of left ventricular function changes 99in view of this purpose and to present initial findingsin patients with silent myocardial ischaemia.Patients and methodsPATIENTSTo test and validate the VEST system, 61 un-selected patients referred for diagnostic radionuclideangiocardiography were asked to participate in theprotocol. The total patient population has beenpreviously described in more detail'71. Out of 98exercise tests performed in these patients, 15 weretotally asymptomatic without anti-ischaemic drugsbut showed either significant ST depression and/ora significant drop in left ventricular ejection fraction(LVEF) during exercise. The presence or absence ofcoronary artery disease was confirmed by coronaryangiography or a history/follow-up of myocardialinfarction. Three additional patients with unstableangina were studied in the coronary care unit at restover 160 to 680 min.RADIONUCLIDE ANGIOCARDIOGRAPHY/VESTStandard radionuclide angiocardiography was per-formed at rest and if required during exercise after invivo labelling of red blood cells with 25 mCi oftechnetium-99m as previously reported and valid-ated[8!. After this diagnostic test, the detector of theVEST system was positioned over the left ventricleunder gamma camera control in a left anterioroblique projection such that the left atrium and theright ventricle were not covered by it. The VESTdetector consisted of a 5-cm diameter sodium iodidecrystal with a parallel hole collimator to maximizesensitivity and field uniformity. To hold the detectorin place over the left ventricle and lung, it was fittedwith a firm plastic vest-like garment. Counts detectedby the crystal and signals from a chest lead of theECG were recorded on a modified Holter ECG-recorder as previously described171.Data analysis consisted of reviewing radionuclidedata for technical adequacy and to rule out majormotion artefacts as indicated by a sudden shift intotal counts. Thereafter, ECG and radionuclide data200>QUJ10 20 30 40 50 60 70Min80 90Figure I Silent ischaemia during exercise (H.Z., 55 years, two-vessel CAD). Note decreasein LVEF during exercise before significant ST depression. Note also the overshoot increasein LVEF after exercise and the artefact after 57 min when the patient sat up: sudden dropin total end-diastolic volume, ex, Exercise.100 M. Pfisterer et al.were summed for 15-s intervals to determine ejectionfraction, relative changes in end-diastolic and end-systolic volumes, heart rate, cardiac output andST segment changes. On the basis of previousstudies15'71, a fixed background correction of 75%of end-diastolic counts was used to calculate LVEFvalues. Data were displayed graphically and numeric-ally for analysis. Based on results of variabilitymeasurements, a decrease of > 5% was defined as'ischaemic' left ventricular dysfunction. For the STsegment, a depression of > 1 mm was assumed to besignificant.All exercise tests were performed on a supinebicycle ergometer up to symptom limitation (chestpain, dyspnea or fatigue). For determination ofreproducibility of obtained results, some patients hadtwo exercise tests according to previously describedprotocols'71.RESULTSReproducibility of LVEF determined by the VESTsystem at rest (r = 0-93; n = 19) and during exercise(r = 0-96; n = 19) was good with a low variabilityof repeated measurements (at rest: ±3%, duringa- 42001601208040• .*,.. :X i. ::i\isi i ! '• >i j ' 1i-i - •.. ; . . ;? :/ • '• i * i• • - :I,....'...• : ' •: ! •• •i i F ! ! i i r i>f IF"j-; j i 1- i l l.' I 1! !i i i• ;! 1 ! ! ! !: . ; . : , ,1•jj-1jS I M M: : i :: : •\i i i 't : i :• • ; ;exercise: ±2%). Therefore, the exercise inducedchange in LVEF (delta EF% rest — exercise) wasalso good (r = 0-88), indicating that transientchanges in LVEF can be consistently determined bythis method.In the 15 asymptomatic exercise tests, four differ-ent patterns of LVEF and ST segment responses wereidentified: (1) decrease in LVEF followed by a sig-nificant ST depression (five times); (2) ST depressionfollowed by a decrease in LVEF (three times); (3)decrease in LVEF without significant ST changes(three times); and (4) ST depression without sig-nificant LVEF change (four times). Examples of eachof these are shown in Figs 1-4. In this still smallseries, patterns (1) to (3) corresponded to patientswith documented coronary artery disease, which wasnot the case for pattern (4). For detection of silentischaemia at rest, a decrease in LVEF of > 5% lastingfor > 1 min was defined as ischaemic left ventriculardysfunction. Using this definition four spontaneousepisodes of silent left ventricular dysfunction couldbe demonstrated at rest in two of three coronary careunit patients with unstable angina during 160-680min of data recording without simultaneous ST200160120o0)X)80 £oI40 -1008040 ±20 w0 10 20 30 40 50 60 70 80 90MinFigure 2 Silent ischaemia during exercise (T.S., 57 years, two-vessel CAD). Note decreasein LVEF only during second level of exercise after significant ST depression. Note againthe overshoot increase in LVEF after exercise.Ambulatory assessment of left ventricular function changes 101200i ! i 1 1 i ! I I i i ! ! ! i ! !30Figure 3 Silent ischaemia during exercise (R.W., 66 years, previous non-Q anterior myo-cardial infarction). Note significant fall in LVEF during exercise without > 1 mm ST de-pression which occurs mainly after exercise.changes. An example is shown in Fig. 5. This patienthad anginal chest pain while walking from thegamma camera to his bed, where pain even increasedwithout significant ST depression at this point in timebut with marked depression of LVEF. Furtheron, hehad two episodes of prolonged (6 min and 20 min)depression of LVEF of > 5% without chest pain orST depression.DiscussionDemonstration of ischaemic left ventricular dys-function in the absence of chest pain can provide im-portant confirmation of silent myocardial ischaemiain patients with asymptomatic ST segment depres-sion. This study demonstrates that using the newportable VEST system, transient changes in radio-nuclide LVEF can be determined reproducibly.Based on the initial experience of our laboratory,four different patterns of LVEF and ST segmentchanges could be identified and it was shown thateven spontaneous episodes of silent ischaemic leftventricular dysfunction can be registered.On the basis of experimental studies, characteristicchanges of ischaemic events have been identi-fied (9-10!: if myocardial perfusion becomes in-sufficient, changes in metabolism are first detected,followed by diastolic and then systolic functionalimpairment; electrocardiographic changes occur onlyat a later phase, but still before appearance of chestpain. This chain of events may explain observedpatterns (1) and (3) in this study where functionalischaemic changes appeared before or without sig-nificant ST segment shifts. For pattern (2), however,other factors have to be discussed: with a nuclearprobe as used in the VEST system, only changes inglobal LVEF may be detected. In a previous studywe could show that hypoperfusion even of a largearea as the anterior wall does not have to induce asignificant 5% fall in LVEF if the other parts ofthe myocardium are normally perfused and behav-ing'1''. Since ischaemic heart disease is a regional102 M. Pfisterer et al.>1086420- 2- 4- 6-82001601208040• • • E x ' *• • Exr -""P.. • -<: ?200160 Iin120 I80 1o40 *100806 0 oS°u40 J2010 20 30Min40 50 6 0Figure 4 Silent ischaemia during exercise? (H.R., 52 years, normal coronanes). Note thereis no significant change in LVEF during exercise despite a > 1 mm ST depression. Notealso again the marked overshoot increase in LVEF after exercise.S ex 1!E1008060A.-4 Slight chest pain, stops walking>oUJ60 80 100Time (min)Figure 5 Silent ischaemia at rest (A.H., 70 years, unstable angina,three-vessel CAD). Note symptomatic and prolonged silent ischaemicepisodes as detected by long-term LVEF monitoring (cf. text).Ambulatory assessment of left ventricular function changes 103disease of the myocardium, there may be non-uni-formity of contraction which may explain delayedimpairment of global function as observed in pat-tern (2). Furthermore, this may or may not bedetected by electrocardiographic changes dependingon the leads registered. Finally, pattern (4), excludesischaemia with some degree of certainty only if thereis a normal increase in LVEF of > 5% during exer-cise as in diagnostic radionuclide studies. Theseconsiderations.lead to the conclusion that there aresome limitations inherent to radionuclide probemeasurements as presented here: (1) only globalfunction and relative haemodynamic changes can beobserved and (2) functional changes of the apicalarea of the left ventricle may be weighted more thanbasal changes due to the detector position. In addi-tion, probe displacement during ambulatoryrecording remains an important problem.On the other hand, Kayden and co-workers haverecently demonstrated that transient ischaemic leftventricular dysfunction detected by the VEST systemis clinically relevant'12': in a prospective study, theyreported that this finding was more sensitive thansymptoms or electrocardiographic exercise testing toidentify patients at risk for future ischaemic eventsafter acute myocardial infarction and thrombolysis.On the basis of their and our initial experience, weconclude that VEST is a reproducible method ofdetecting transient global left ventricular dysfunctionwhich will be useful to confirm silent ischaemia inotherwise uncertain ST segment changes and mayhave important prognostic power.References[1] Selwyn AP The value of Holter monitoring inmanaging patients with coronary artery disease. Circu-lation 1987; 75/11: 31.[2] Deanfield JE, Shea M. Ribiero P et at. Transient ST-segment depression as a marker of myocardial ischemiaduring daily life. Am J Cardiol 1984; 54: 1195.[3] Rozanski A, Berman DS. Silent myocardial ischemia.Pathophysiology, frequency of occurrence and ap-proaches toward detection. Am Heart J 1987; 114:615.[4] Wilson RA. Sullivan PJ. Moore RH et at. An ambu-latory ventricular function monitor: validation andpreliminary results. Am J Cardiol 1983: 52: 601.[5] Tamaki N, Gill JB, Moore RH et al. Cardiac responseto daily activities and exercise in normal subjectsassessed by an ambulatory function monitor. Am JCardiol 1987: 59: 1164.[6] Wagner HN, Wake R, Nickoloff E, Natarajan TK.The nuclear stethoscope: a simple device for thegeneration of left ventricular volume curves. Am JCardiol 1976; 23: 747.[7] Regenass S. Pfisterer M, Bassignana V, Muller-BrandJ. Erfassung passagerer LV-Dysfunktion mittelsambulantem nuklearmedizinischem Monitoring: Evalu-ation einer neuer Method. Thesis. University of BaselMedical School (in press).[8] Pfisterer M, Ricci DR, Schuler G, Swanson SS,Gordon DG, Peterson K, Ashburn WL. Validity ofleft ventricular ejection fractions measured at rest andpeak exercise by equilibrium radionuclide angiographyusing short acquisition times. J Nucl Med 1979; 20:484.[9] Upton MT. Rerych SK, Newman GE et al. Detectingabnormalities in left ventricular function during exer-cise before angina and ST-segment depression. Circu-lation 1980; 67: 341.[10] Sigwart U, Grbic M Role de la pression coronariennesur la relaxation du ventricule gauche. Schweiz medWschr 1984; 114: 1618.[11] Pfisterer M, Glaus L, Burkart F. Comparative effectsof nitroglycerin, nifedipine and metoprolol on regionalleft ventricular function in patients with one-vesselcoronary disease. Circulation 1983; 67: 291[12] Kayden DS, Wackers FJ, Francis CK, Zaret BL. Silentleft ventricular dysfunction during ambulatory radio-nuclide monitoring following thrombolysis: a potentialpredictor of subsequent cardiac morbidity. Am J.Cardiol 1988; in press.

Ambulatory scintigraphic assessment of transient changes in left ventricular function: a new method for detection of silent myocardial ischaemia

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