TY - JOUR
T1 - Conceptual model for early health technology assessment of current and novel heart valve interventions
AU - Huygens, Simone A.
AU - Rutten-VanMölken, Maureen P M H
AU - Bekkers, Jos A.
AU - Bogers, Ad J J C
AU - Bouten, Carlijn V C
AU - Chamuleau, Steven A J
AU - DeJaegere, Peter P T
AU - Pieter Kappetein, Arie
AU - Kluin, Jolanda
AU - Vanmieghem, Nicolas M D A
AU - Versteegh, Michel I M
AU - Witsenburg, Maarten
AU - Takkenberg, Johanna J M
PY - 2016/10/1
Y1 - 2016/10/1
N2 - Advances in the field of heart valve interventions, like tissue-engineered heart valves (TEHV). Prior to introduction in clinical practice, it is essential to perform early health technology assessment. We aim to develop a conceptual model (CM) that can be used to investigate the performance and costs requirements for TEHV to become cost-effective. Methods: After scoping the decision problem, a workgroup developed the draft CM based on clinical guidelines. This model was compared with existing models for cost-effectiveness of heart valve interventions, identified by systematic literature search. Next, it was discussed with a Delphi panel of cardiothoracic surgeons, cardiologists and a biomedical scientist (n=10). Results: The CM starts with the valve implantation. If patients survive the intervention, they can remain alive without complications, die from non-valve-related causes or experience a valve-related event. The events are separated in early and late events. After surviving an event, patients can experience another event or die due to non-valve-related causes. Predictors will include age, gender, NYHA class, left ventricular function and diabetes. Costs and quality adjusted life years are to be attached to health conditions to estimate long-term costs and health outcomes. Conclusions: We developed a CM that will serve as foundation of a decision-analytic model that can estimate the potential cost-effectiveness of TEHV in early development stages. This supports developers in deciding about further development of TEHV and identifies promising interventions that may result in faster take-up in clinical practice by clinicians and reimbursement by payers.
AB - Advances in the field of heart valve interventions, like tissue-engineered heart valves (TEHV). Prior to introduction in clinical practice, it is essential to perform early health technology assessment. We aim to develop a conceptual model (CM) that can be used to investigate the performance and costs requirements for TEHV to become cost-effective. Methods: After scoping the decision problem, a workgroup developed the draft CM based on clinical guidelines. This model was compared with existing models for cost-effectiveness of heart valve interventions, identified by systematic literature search. Next, it was discussed with a Delphi panel of cardiothoracic surgeons, cardiologists and a biomedical scientist (n=10). Results: The CM starts with the valve implantation. If patients survive the intervention, they can remain alive without complications, die from non-valve-related causes or experience a valve-related event. The events are separated in early and late events. After surviving an event, patients can experience another event or die due to non-valve-related causes. Predictors will include age, gender, NYHA class, left ventricular function and diabetes. Costs and quality adjusted life years are to be attached to health conditions to estimate long-term costs and health outcomes. Conclusions: We developed a CM that will serve as foundation of a decision-analytic model that can estimate the potential cost-effectiveness of TEHV in early development stages. This supports developers in deciding about further development of TEHV and identifies promising interventions that may result in faster take-up in clinical practice by clinicians and reimbursement by payers.
UR - http://www.scopus.com/inward/record.url?scp=84992225400&partnerID=8YFLogxK
U2 - 10.1136/openhrt-2016-000500
DO - 10.1136/openhrt-2016-000500
M3 - Article
C2 - 27843569
AN - SCOPUS:84992225400
SN - 2053-3624
VL - 3
JO - Open Heart
JF - Open Heart
IS - 2
M1 - e000500
ER -