Your search keyword '"transesophageal echocardiogram"' showing total 12 results

1. 3D Printing, Computational Modeling, and Artificial Intelligence for Structural Heart Disease.

Author

Wang, Dee Dee, Wang, Dee Dee, Qian, Zhen, Vukicevic, Marija, Engelhardt, Sandy, Kheradvar, Arash, Zhang, Chuck, Little, Stephen H, Verjans, Johan, Comaniciu, Dorin, O'Neill, William W, Vannan, Mani A, Wang, Dee Dee, Wang, Dee Dee, Qian, Zhen, Vukicevic, Marija, Engelhardt, Sandy, Kheradvar, Arash, Zhang, Chuck, Little, Stephen H, Verjans, Johan, Comaniciu, Dorin, O'Neill, William W, and Vannan, Mani A

Abstract

Structural heart disease (SHD) is a new field within cardiovascular medicine. Traditional imaging modalities fall short in supporting the needs of SHD interventions, as they have been constructed around the concept of disease diagnosis. SHD interventions disrupt traditional concepts of imaging in requiring imaging to plan, simulate, and predict intraprocedural outcomes. In transcatheter SHD interventions, the absence of a gold-standard open cavity surgical field deprives physicians of the opportunity for tactile feedback and visual confirmation of cardiac anatomy. Hence, dependency on imaging in periprocedural guidance has led to evolution of a new generation of procedural skillsets, concept of a visual field, and technologies in the periprocedural planning period to accelerate preclinical device development, physician, and patient education. Adaptation of 3-dimensional (3D) printing in clinical care and procedural planning has demonstrated a reduction in early-operator learning curve for transcatheter interventions. Integration of computation modeling to 3D printing has accelerated research and development understanding of fluid mechanics within device testing. Application of 3D printing, computational modeling, and ultimately incorporation of artificial intelligence is changing the landscape of physician training and delivery of patient-centric care. Transcatheter structural heart interventions are requiring in-depth periprocedural understanding of cardiac pathophysiology and device interactions not afforded by traditional imaging metrics.

Published

2021

2. The Left Atrial Septal Pouch: A New Stroke Risk Factor?

Author

Kapoor, Ruchi, Kapoor, Ruchi, Wadi, Lara, Becerra, Brian, Eskander, Michael, Razmara, Ali, Lombardo, Dawn, Paganini-Hill, Annlia, Kim, Jin Kyung, Fisher, Mark, Kapoor, Ruchi, Kapoor, Ruchi, Wadi, Lara, Becerra, Brian, Eskander, Michael, Razmara, Ali, Lombardo, Dawn, Paganini-Hill, Annlia, Kim, Jin Kyung, and Fisher, Mark

Abstract

The left atrial septal pouch (LASP) occurs due to incomplete fusion of septa primum and secundum at the inter-atrial septum, creating an open flap that may serve as a thromboembolic source. Prior studies have demonstrated increased prevalence of LASP in cryptogenic strokes. The aim of the current study was to validate the above findings in a separate, larger group of stroke and non-stroke patients. We examined transesophageal echocardiograms (TEEs) performed between July 2011 and December 2018. LASP prevalence was determined in TEEs referred for ischemic stroke or transient ischemic attack ("stroke") and compared with LASP prevalence in patients undergoing TEEs for other reasons ("non-stroke"). Stroke subtyping was performed using the Trial of Org 10172 in Acute Stroke Treatment (TOAST) criteria. There were 306 TEEs from 144 non-stroke and 162 stroke patients. Mean age and sex distribution were 56 ± 1 (mean ± SE) and 65% male in the non-stroke group and 58 ± 1 and 54% male in the stroke group. The overall prevalence of LASP was 31%. The prevalence of LASP was 28% (41/144) in non-stroke patients, 25% (24/95) in non-cryptogenic stroke patients, and 43% (29/67) in cryptogenic stroke patients. LASP prevalence was significantly higher in the cryptogenic subgroup compared with the non-cryptogenic subgroup (p = 0.02). These findings demonstrate a significant association of LASP with risk of cryptogenic stroke, suggesting that LASP may serve as a thromboembolic nidus. Additional studies are needed to determine the generalizability of these findings, and their therapeutic implications, supporting LASP as a stroke risk factor.

Published

2021

3. 3D Printing, Computational Modeling, and Artificial Intelligence for Structural Heart Disease.

Author

Wang, Dee Dee, Wang, Dee Dee, Qian, Zhen, Vukicevic, Marija, Engelhardt, Sandy, Kheradvar, Arash, Zhang, Chuck, Little, Stephen H, Verjans, Johan, Comaniciu, Dorin, O'Neill, William W, Vannan, Mani A, Wang, Dee Dee, Wang, Dee Dee, Qian, Zhen, Vukicevic, Marija, Engelhardt, Sandy, Kheradvar, Arash, Zhang, Chuck, Little, Stephen H, Verjans, Johan, Comaniciu, Dorin, O'Neill, William W, and Vannan, Mani A

Abstract

Structural heart disease (SHD) is a new field within cardiovascular medicine. Traditional imaging modalities fall short in supporting the needs of SHD interventions, as they have been constructed around the concept of disease diagnosis. SHD interventions disrupt traditional concepts of imaging in requiring imaging to plan, simulate, and predict intraprocedural outcomes. In transcatheter SHD interventions, the absence of a gold-standard open cavity surgical field deprives physicians of the opportunity for tactile feedback and visual confirmation of cardiac anatomy. Hence, dependency on imaging in periprocedural guidance has led to evolution of a new generation of procedural skillsets, concept of a visual field, and technologies in the periprocedural planning period to accelerate preclinical device development, physician, and patient education. Adaptation of 3-dimensional (3D) printing in clinical care and procedural planning has demonstrated a reduction in early-operator learning curve for transcatheter interventions. Integration of computation modeling to 3D printing has accelerated research and development understanding of fluid mechanics within device testing. Application of 3D printing, computational modeling, and ultimately incorporation of artificial intelligence is changing the landscape of physician training and delivery of patient-centric care. Transcatheter structural heart interventions are requiring in-depth periprocedural understanding of cardiac pathophysiology and device interactions not afforded by traditional imaging metrics.

Published

2021

4. The Left Atrial Septal Pouch: A New Stroke Risk Factor?

Author

Kapoor, Ruchi, Kapoor, Ruchi, Wadi, Lara, Becerra, Brian, Eskander, Michael, Razmara, Ali, Lombardo, Dawn, Paganini-Hill, Annlia, Kim, Jin Kyung, Fisher, Mark, Kapoor, Ruchi, Kapoor, Ruchi, Wadi, Lara, Becerra, Brian, Eskander, Michael, Razmara, Ali, Lombardo, Dawn, Paganini-Hill, Annlia, Kim, Jin Kyung, and Fisher, Mark

Abstract

The left atrial septal pouch (LASP) occurs due to incomplete fusion of septa primum and secundum at the inter-atrial septum, creating an open flap that may serve as a thromboembolic source. Prior studies have demonstrated increased prevalence of LASP in cryptogenic strokes. The aim of the current study was to validate the above findings in a separate, larger group of stroke and non-stroke patients. We examined transesophageal echocardiograms (TEEs) performed between July 2011 and December 2018. LASP prevalence was determined in TEEs referred for ischemic stroke or transient ischemic attack ("stroke") and compared with LASP prevalence in patients undergoing TEEs for other reasons ("non-stroke"). Stroke subtyping was performed using the Trial of Org 10172 in Acute Stroke Treatment (TOAST) criteria. There were 306 TEEs from 144 non-stroke and 162 stroke patients. Mean age and sex distribution were 56 ± 1 (mean ± SE) and 65% male in the non-stroke group and 58 ± 1 and 54% male in the stroke group. The overall prevalence of LASP was 31%. The prevalence of LASP was 28% (41/144) in non-stroke patients, 25% (24/95) in non-cryptogenic stroke patients, and 43% (29/67) in cryptogenic stroke patients. LASP prevalence was significantly higher in the cryptogenic subgroup compared with the non-cryptogenic subgroup (p = 0.02). These findings demonstrate a significant association of LASP with risk of cryptogenic stroke, suggesting that LASP may serve as a thromboembolic nidus. Additional studies are needed to determine the generalizability of these findings, and their therapeutic implications, supporting LASP as a stroke risk factor.

Published

2021

5. 3D Printing, Computational Modeling, and Artificial Intelligence for Structural Heart Disease.

Author

Wang, Dee Dee, Wang, Dee Dee, Qian, Zhen, Vukicevic, Marija, Engelhardt, Sandy, Kheradvar, Arash, Zhang, Chuck, Little, Stephen H, Verjans, Johan, Comaniciu, Dorin, O'Neill, William W, Vannan, Mani A, Wang, Dee Dee, Wang, Dee Dee, Qian, Zhen, Vukicevic, Marija, Engelhardt, Sandy, Kheradvar, Arash, Zhang, Chuck, Little, Stephen H, Verjans, Johan, Comaniciu, Dorin, O'Neill, William W, and Vannan, Mani A

Abstract

Structural heart disease (SHD) is a new field within cardiovascular medicine. Traditional imaging modalities fall short in supporting the needs of SHD interventions, as they have been constructed around the concept of disease diagnosis. SHD interventions disrupt traditional concepts of imaging in requiring imaging to plan, simulate, and predict intraprocedural outcomes. In transcatheter SHD interventions, the absence of a gold-standard open cavity surgical field deprives physicians of the opportunity for tactile feedback and visual confirmation of cardiac anatomy. Hence, dependency on imaging in periprocedural guidance has led to evolution of a new generation of procedural skillsets, concept of a visual field, and technologies in the periprocedural planning period to accelerate preclinical device development, physician, and patient education. Adaptation of 3-dimensional (3D) printing in clinical care and procedural planning has demonstrated a reduction in early-operator learning curve for transcatheter interventions. Integration of computation modeling to 3D printing has accelerated research and development understanding of fluid mechanics within device testing. Application of 3D printing, computational modeling, and ultimately incorporation of artificial intelligence is changing the landscape of physician training and delivery of patient-centric care. Transcatheter structural heart interventions are requiring in-depth periprocedural understanding of cardiac pathophysiology and device interactions not afforded by traditional imaging metrics.

Published

2021

6. Spontaneous Left Atrial Thrombus Formation on the Catheter Delivery System During WATCHMAN Implantation.

Author

Patel, Hiren, Patel, Hiren, Castellanos, Luis R, Golts, Eugene, Reeves, Ryan, Mahmud, Ehtisham, Hsu, Jonathan C, Patel, Hiren, Patel, Hiren, Castellanos, Luis R, Golts, Eugene, Reeves, Ryan, Mahmud, Ehtisham, and Hsu, Jonathan C

Abstract

We present a rare complication of spontaneous thrombus formation on the WATCHMAN delivery system, on both the right- and left-sided systemic circulation. We also describe the multidisciplinary team approach and the use of percutaneous vacuum-assisted aspiration system (AngioVac, AngioDynamics, Latham, New York) for successful thrombus removal. (Level of Difficulty: Intermediate.).

Published

2020

7. Spontaneous Left Atrial Thrombus Formation on the Catheter Delivery System During WATCHMAN Implantation.

Author

Patel, Hiren, Patel, Hiren, Castellanos, Luis R, Golts, Eugene, Reeves, Ryan, Mahmud, Ehtisham, Hsu, Jonathan C, Patel, Hiren, Patel, Hiren, Castellanos, Luis R, Golts, Eugene, Reeves, Ryan, Mahmud, Ehtisham, and Hsu, Jonathan C

Abstract

We present a rare complication of spontaneous thrombus formation on the WATCHMAN delivery system, on both the right- and left-sided systemic circulation. We also describe the multidisciplinary team approach and the use of percutaneous vacuum-assisted aspiration system (AngioVac, AngioDynamics, Latham, New York) for successful thrombus removal. (Level of Difficulty: Intermediate.).

Published

2020

8. Dynamic right ventricular outflow obstruction: A rare cause of hypotension during anestesia induction

Author

Antoniucci, Maria Enrica, Colizzi, Christian, Arlotta, Gabriella, Calabrese, Maria, Corrado, Michele, Guarneri, Sergio, Martinelli, Lorenzo, Scapigliati, Andrea, Zamparelli, Roberto, Cavaliere, Franco, Corrado, Michele (ORCID:0000-0002-5853-262X), Guarneri, Sergio (ORCID:0000-0003-4707-3293), Martinelli, Lorenzo (ORCID:0000-0001-9169-7015), Scapigliati, Andrea (ORCID:0000-0002-4044-2343), Zamparelli, Roberto (ORCID:0000-0002-3085-7529), Cavaliere, Franco (ORCID:0000-0003-3278-1940), Antoniucci, Maria Enrica, Colizzi, Christian, Arlotta, Gabriella, Calabrese, Maria, Corrado, Michele, Guarneri, Sergio, Martinelli, Lorenzo, Scapigliati, Andrea, Zamparelli, Roberto, Cavaliere, Franco, Corrado, Michele (ORCID:0000-0002-5853-262X), Guarneri, Sergio (ORCID:0000-0003-4707-3293), Martinelli, Lorenzo (ORCID:0000-0001-9169-7015), Scapigliati, Andrea (ORCID:0000-0002-4044-2343), Zamparelli, Roberto (ORCID:0000-0002-3085-7529), and Cavaliere, Franco (ORCID:0000-0003-3278-1940)

Abstract

INTRODUCTION: Dynamic obstruction of right ventricle outflow tract (RVOTO) is a rare condition that may acutely cause severe heart failure. It has been reported in some hypertrophic cardiomyopathies, after lung transplantation, and in some cases of hemodynamic instability after cardiopulmonary bypass. PRESENTATION OF CASE: We report the case of a 71-year-old man who developed severe hypotension during the induction of general anesthesia for surgical coronary revascularization. Hypotension did not respond to the initial treatment with vasoconstrictors and fluids. RVOTO was suspected during pulmonary artery catheterization because of the difficulty of the catheter tip to move from the right ventricle to the pulmonary artery and, successively, because of the finding of a large gradient between the systolic pressure in the right ventricle and in the pulmonary artery. The diagnosis was confirmed by transesophageal echocardiogram (TEE). Hemodynamics recovered after the infusion of cristalloids, 1L, and the suspension of vasoconstrictors and inotropes. DISCUSSION: This is the first case in which RVOTO was observed during the induction of general anesthesia. Although this is a rare condition, the diagnostic suspect is of outmost importance because treatment is mainly based on fluid administration, and drugs with positive inotropic properties (like most vasoconstrictors) are contraindicated. CONCLUSIONS: RVOTO is an unusual, but possible cause of severe arterial hypotension during general anesthesia induction. TEE is useful for the evaluation of severely hypotensive patients who do not respond to routine treatment with fluids and vasoconstrictors.

Published

2017

9. Transcranial Doppler: Does Addition of Blood to Agitated Saline Affect Sensitivity for Detecting Cardiac Right-to-Left Shunt?

Author

Mojadidi, Mohammad Khalid, Mojadidi, Mohammad Khalid, Zhang, Lili, Chugh, Yashasvi, Eshtehardi, Parham, Hovnanians, Ninel, Gevorgyan, Rubine, Mojaddedi, Sanaullah, Nezami, Nariman, Zaman, Muhammad Omer, Rafique, Asim, Villablanca, Pedro A, Tobis, Jonathan M, Mojadidi, Mohammad Khalid, Mojadidi, Mohammad Khalid, Zhang, Lili, Chugh, Yashasvi, Eshtehardi, Parham, Hovnanians, Ninel, Gevorgyan, Rubine, Mojaddedi, Sanaullah, Nezami, Nariman, Zaman, Muhammad Omer, Rafique, Asim, Villablanca, Pedro A, and Tobis, Jonathan M

Abstract

BackgroundTranscranial Doppler (TCD) with agitated saline has been shown to be an alternative for the detection of right-to-left shunts (RLS) with similar diagnostic accuracies as transesophageal echocardiography (TEE). It is hypothesized that the addition of blood to agitated saline increases the sensitivity of TCD for the detection of RLS. The aim of this meta-analysis was to determine whether agitated saline with blood increases the sensitivity of TCD for the detection of RLS compared to agitated saline alone and other contrast agents.MethodA systematic review of Medline, Cochrane, and Embase was performed to look for all prospective studies assessing intracardiac RLS using TCD compared with TEE as the reference; both tests were performed with a contrast agent and a maneuver to provoke RLS in all studies.ResultsA total of 27 studies (29 comparisons) with 1,968 patients met the inclusion criteria. Of 29 comparisons, 10 (35%) used echovist contrast during TCD, 4 (14%) used a gelatin-based solution, 12 (41%) used agitated saline, and 3 (10%) utilized 2 different contrast agents. The addition of blood to agitated saline improved the sensitivity of TCD to 100% compared to agitated saline alone (96% sensitivity, P = 0.161), echovist (94% sensitivity, P = 0.044), and gelatin-based solutions (93% sensitivity, P = 0.041).ConclusionThe addition of blood to agitated saline improves the sensitivity of TCD for the detection of RLS to 100% when compared to other conventional contrast agents; these findings support the addition of blood to agitated saline during TCD bubble studies.

Published

2016

10. Transcranial Doppler: Does Addition of Blood to Agitated Saline Affect Sensitivity for Detecting Cardiac Right-to-Left Shunt?

Author

Mojadidi, Mohammad Khalid, Mojadidi, Mohammad Khalid, Zhang, Lili, Chugh, Yashasvi, Eshtehardi, Parham, Hovnanians, Ninel, Gevorgyan, Rubine, Mojaddedi, Sanaullah, Nezami, Nariman, Zaman, Muhammad Omer, Rafique, Asim, Villablanca, Pedro A, Tobis, Jonathan M, Mojadidi, Mohammad Khalid, Mojadidi, Mohammad Khalid, Zhang, Lili, Chugh, Yashasvi, Eshtehardi, Parham, Hovnanians, Ninel, Gevorgyan, Rubine, Mojaddedi, Sanaullah, Nezami, Nariman, Zaman, Muhammad Omer, Rafique, Asim, Villablanca, Pedro A, and Tobis, Jonathan M

Abstract

BackgroundTranscranial Doppler (TCD) with agitated saline has been shown to be an alternative for the detection of right-to-left shunts (RLS) with similar diagnostic accuracies as transesophageal echocardiography (TEE). It is hypothesized that the addition of blood to agitated saline increases the sensitivity of TCD for the detection of RLS. The aim of this meta-analysis was to determine whether agitated saline with blood increases the sensitivity of TCD for the detection of RLS compared to agitated saline alone and other contrast agents.MethodA systematic review of Medline, Cochrane, and Embase was performed to look for all prospective studies assessing intracardiac RLS using TCD compared with TEE as the reference; both tests were performed with a contrast agent and a maneuver to provoke RLS in all studies.ResultsA total of 27 studies (29 comparisons) with 1,968 patients met the inclusion criteria. Of 29 comparisons, 10 (35%) used echovist contrast during TCD, 4 (14%) used a gelatin-based solution, 12 (41%) used agitated saline, and 3 (10%) utilized 2 different contrast agents. The addition of blood to agitated saline improved the sensitivity of TCD to 100% compared to agitated saline alone (96% sensitivity, P = 0.161), echovist (94% sensitivity, P = 0.044), and gelatin-based solutions (93% sensitivity, P = 0.041).ConclusionThe addition of blood to agitated saline improves the sensitivity of TCD for the detection of RLS to 100% when compared to other conventional contrast agents; these findings support the addition of blood to agitated saline during TCD bubble studies.

Published

2016

11. Accuracy of conventional transthoracic echocardiography for the diagnosis of intracardiac right-to-left shunt: a meta-analysis of prospective studies.

Author

Mojadidi, Mohammad Khalid, Mojadidi, Mohammad Khalid, Winoker, Jared S, Roberts, Scott C, Msaouel, Pavlos, Zaman, Muhammad Omer, Gevorgyan, Rubine, Tobis, Jonathan M, Mojadidi, Mohammad Khalid, Mojadidi, Mohammad Khalid, Winoker, Jared S, Roberts, Scott C, Msaouel, Pavlos, Zaman, Muhammad Omer, Gevorgyan, Rubine, and Tobis, Jonathan M

Abstract

BackgroundParadoxical embolization through a right-to-left shunt (RLS), often from a patent foramen ovale (PFO), has been associated with cryptogenic stroke. While transesophageal echo (TEE) bubble study is the current standard reference for diagnosing PFO, transthoracic echo (TTE) remains the most commonly used screening test for RLS due to its noninvasiveness and easy availability. The aim of this meta-analysis was to determine the accuracy of TTE compared to TEE as the reference.Methods and resultsA systematic review of Medline, Cochrane, and Embase was done to look for all the prospective studies assessing for intracardiac RLS using conventional TTE compared to TEE as the reference; both TTE and TEE were performed with a contrast agent and a maneuver to provoke RLS in all studies. A total of 13 studies with 1436 patients fulfilled the inclusion criteria. The weighted mean sensitivity and specificity for TTE were 46% and 99%, respectively. Likewise, the positive likelihood ratio and negative likelihood ratio were 20.85 and 0.57, respectively. Using different contrast agents, different microbubble cutoffs for a positive TTE/TEE, and different cardiac cycle cutoffs for a positive TTE/TEE did not affect the accuracy of TTE. In a population of patients with cryptogenic stroke, a TTE that tests positive for RLS has a 95% probability of being a true positive.ConclusionTransthoracic echocardiogram has a low sensitivity and extremely high specificity, making it a poor rule out test but an excellent rule in test for the detection of intracardiac RLS.

Published

2014

12. Accuracy of conventional transthoracic echocardiography for the diagnosis of intracardiac right-to-left shunt: a meta-analysis of prospective studies.

Author

Mojadidi, Mohammad Khalid, Mojadidi, Mohammad Khalid, Winoker, Jared S, Roberts, Scott C, Msaouel, Pavlos, Zaman, Muhammad Omer, Gevorgyan, Rubine, Tobis, Jonathan M, Mojadidi, Mohammad Khalid, Mojadidi, Mohammad Khalid, Winoker, Jared S, Roberts, Scott C, Msaouel, Pavlos, Zaman, Muhammad Omer, Gevorgyan, Rubine, and Tobis, Jonathan M

Abstract

BackgroundParadoxical embolization through a right-to-left shunt (RLS), often from a patent foramen ovale (PFO), has been associated with cryptogenic stroke. While transesophageal echo (TEE) bubble study is the current standard reference for diagnosing PFO, transthoracic echo (TTE) remains the most commonly used screening test for RLS due to its noninvasiveness and easy availability. The aim of this meta-analysis was to determine the accuracy of TTE compared to TEE as the reference.Methods and resultsA systematic review of Medline, Cochrane, and Embase was done to look for all the prospective studies assessing for intracardiac RLS using conventional TTE compared to TEE as the reference; both TTE and TEE were performed with a contrast agent and a maneuver to provoke RLS in all studies. A total of 13 studies with 1436 patients fulfilled the inclusion criteria. The weighted mean sensitivity and specificity for TTE were 46% and 99%, respectively. Likewise, the positive likelihood ratio and negative likelihood ratio were 20.85 and 0.57, respectively. Using different contrast agents, different microbubble cutoffs for a positive TTE/TEE, and different cardiac cycle cutoffs for a positive TTE/TEE did not affect the accuracy of TTE. In a population of patients with cryptogenic stroke, a TTE that tests positive for RLS has a 95% probability of being a true positive.ConclusionTransthoracic echocardiogram has a low sensitivity and extremely high specificity, making it a poor rule out test but an excellent rule in test for the detection of intracardiac RLS.

Published

2014