Dual spillover problem in the myocardial septum with nitrogen-13- ammonia flow quantitation

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Standard

Dual spillover problem in the myocardial septum with nitrogen-13- ammonia flow quantitation. / Hove, Jens D.; Gambhir, Sanjiv S.; Kofoed, Klaus F.; Kelbæk, Henning; Schelbert, Heinrich R.; Phelps, Michael E.

I: Journal of Nuclear Medicine, Bind 39, Nr. 4, 04.1998, s. 591-598.

Publikation: Bidrag til tidsskriftTidsskriftartikelForskningfagfællebedømt

Harvard

Hove, JD, Gambhir, SS, Kofoed, KF, Kelbæk, H, Schelbert, HR & Phelps, ME 1998, 'Dual spillover problem in the myocardial septum with nitrogen-13- ammonia flow quantitation', Journal of Nuclear Medicine, bind 39, nr. 4, s. 591-598.

APA

Hove, J. D., Gambhir, S. S., Kofoed, K. F., Kelbæk, H., Schelbert, H. R., & Phelps, M. E. (1998). Dual spillover problem in the myocardial septum with nitrogen-13- ammonia flow quantitation. Journal of Nuclear Medicine, 39(4), 591-598.

Vancouver

Hove JD, Gambhir SS, Kofoed KF, Kelbæk H, Schelbert HR, Phelps ME. Dual spillover problem in the myocardial septum with nitrogen-13- ammonia flow quantitation. Journal of Nuclear Medicine. 1998 apr.;39(4):591-598.

Author

Hove, Jens D. ; Gambhir, Sanjiv S. ; Kofoed, Klaus F. ; Kelbæk, Henning ; Schelbert, Heinrich R. ; Phelps, Michael E. / Dual spillover problem in the myocardial septum with nitrogen-13- ammonia flow quantitation. I: Journal of Nuclear Medicine. 1998 ; Bind 39, Nr. 4. s. 591-598.

Bibtex

@article{0ccf75822bb1413181dc96e36efa66d0,
title = "Dual spillover problem in the myocardial septum with nitrogen-13- ammonia flow quantitation",
abstract = "Conventional cardiac PET modeling techniques for [13N]ammonia flow determination do not fully account for the effects of spillover of activity from the right ventricle (RV) onto the activity in the myocardial septum. The purpose of this study was to investigate and to quantitatively account and correct for this effect. Methods: Simulations were performed to determine the error introduced by conventional quantitation using septal time-activity curves, which only account for left ventricle (LV) spillover. Furthermore, we explored two separate methods to account for the dual spillover problem: direct estimation of the RV and LV spillover fractions incorporated into the [13N]ammonia model by using the LV and RV input functions in the fit and estimation of the relative dispersion and time shift between the LV and RV input functions by fitting using only the LV input function. The simulated curves were fitted using a two-compartment [13N]ammonia model. Flow estimates from the conventional model and the models including either of the two correction procedures were compared with canine microsphere data. Results: The influence of RV spillover on flow estimation in the septum is determined by several parameters (e.g., dispersion between the RV and LV input function). Depending on the value of these parameters, the septal flow may be underestimated by 0%30%. The applied methods for correction of the dual spillover problem were comparable and allow for more accurate quantitation in the septum. The canine microsphere data revealed that flow underestimation in the septum is small but significant. Conclusion: Dual spillover in the myocardial septum can introduce significant errors in the estimation of flow by the conventional [13N]ammonia model fitting method, which does not properly account for the RV spillover. Adjusting for the RV spillover in one of the two proposed methods allows for more accurate quantitation of myocardial septal flow with [13N]ammonia PET data.",
keywords = "Myocardial blood flow, Nitrogen-13-ammonia, PET, Septum",
author = "Hove, {Jens D.} and Gambhir, {Sanjiv S.} and Kofoed, {Klaus F.} and Henning Kelb{\ae}k and Schelbert, {Heinrich R.} and Phelps, {Michael E.}",
year = "1998",
month = apr,
language = "English",
volume = "39",
pages = "591--598",
journal = "The Journal of Nuclear Medicine",
issn = "0161-5505",
publisher = "Society of Nuclear Medicine",
number = "4",

}

RIS

TY - JOUR

T1 - Dual spillover problem in the myocardial septum with nitrogen-13- ammonia flow quantitation

AU - Hove, Jens D.

AU - Gambhir, Sanjiv S.

AU - Kofoed, Klaus F.

AU - Kelbæk, Henning

AU - Schelbert, Heinrich R.

AU - Phelps, Michael E.

PY - 1998/4

Y1 - 1998/4

N2 - Conventional cardiac PET modeling techniques for [13N]ammonia flow determination do not fully account for the effects of spillover of activity from the right ventricle (RV) onto the activity in the myocardial septum. The purpose of this study was to investigate and to quantitatively account and correct for this effect. Methods: Simulations were performed to determine the error introduced by conventional quantitation using septal time-activity curves, which only account for left ventricle (LV) spillover. Furthermore, we explored two separate methods to account for the dual spillover problem: direct estimation of the RV and LV spillover fractions incorporated into the [13N]ammonia model by using the LV and RV input functions in the fit and estimation of the relative dispersion and time shift between the LV and RV input functions by fitting using only the LV input function. The simulated curves were fitted using a two-compartment [13N]ammonia model. Flow estimates from the conventional model and the models including either of the two correction procedures were compared with canine microsphere data. Results: The influence of RV spillover on flow estimation in the septum is determined by several parameters (e.g., dispersion between the RV and LV input function). Depending on the value of these parameters, the septal flow may be underestimated by 0%30%. The applied methods for correction of the dual spillover problem were comparable and allow for more accurate quantitation in the septum. The canine microsphere data revealed that flow underestimation in the septum is small but significant. Conclusion: Dual spillover in the myocardial septum can introduce significant errors in the estimation of flow by the conventional [13N]ammonia model fitting method, which does not properly account for the RV spillover. Adjusting for the RV spillover in one of the two proposed methods allows for more accurate quantitation of myocardial septal flow with [13N]ammonia PET data.

AB - Conventional cardiac PET modeling techniques for [13N]ammonia flow determination do not fully account for the effects of spillover of activity from the right ventricle (RV) onto the activity in the myocardial septum. The purpose of this study was to investigate and to quantitatively account and correct for this effect. Methods: Simulations were performed to determine the error introduced by conventional quantitation using septal time-activity curves, which only account for left ventricle (LV) spillover. Furthermore, we explored two separate methods to account for the dual spillover problem: direct estimation of the RV and LV spillover fractions incorporated into the [13N]ammonia model by using the LV and RV input functions in the fit and estimation of the relative dispersion and time shift between the LV and RV input functions by fitting using only the LV input function. The simulated curves were fitted using a two-compartment [13N]ammonia model. Flow estimates from the conventional model and the models including either of the two correction procedures were compared with canine microsphere data. Results: The influence of RV spillover on flow estimation in the septum is determined by several parameters (e.g., dispersion between the RV and LV input function). Depending on the value of these parameters, the septal flow may be underestimated by 0%30%. The applied methods for correction of the dual spillover problem were comparable and allow for more accurate quantitation in the septum. The canine microsphere data revealed that flow underestimation in the septum is small but significant. Conclusion: Dual spillover in the myocardial septum can introduce significant errors in the estimation of flow by the conventional [13N]ammonia model fitting method, which does not properly account for the RV spillover. Adjusting for the RV spillover in one of the two proposed methods allows for more accurate quantitation of myocardial septal flow with [13N]ammonia PET data.

KW - Myocardial blood flow

KW - Nitrogen-13-ammonia

KW - PET

KW - Septum

UR - http://www.scopus.com/inward/record.url?scp=0031900169&partnerID=8YFLogxK

M3 - Journal article

C2 - 9544662

AN - SCOPUS:0031900169

VL - 39

SP - 591

EP - 598

JO - The Journal of Nuclear Medicine

JF - The Journal of Nuclear Medicine

SN - 0161-5505

IS - 4

ER -

ID: 308767895