Abstract
It has been estimated that at least 6.0% of neonates admitted to the Neonatal Intensive Care Unit remains genetically undiagnosed because genetic testing is not routinely performed. The objective of this study is to provide an overview of average healthcare costs for patients admitted to the Neonatal Intensive Care Unit and to assess possible impact of implementing Whole Exome Sequencing (WES) on these total healthcare costs. Hereto, we retrospectively collected postnatal healthcare data of all patients admitted to the level IV Neonatal Intensive Care Unit at the Radboudumc (October 2013–October 2015) and linked unit costs to these healthcare consumptions. Average healthcare costs were calculated and a distinction between patients was made based on performance of genetic tests and the presence of congenital anomalies. Overall, on average €26,627 was spent per patient. Genetic costs accounted for 2.3% of all costs. Healthcare costs were higher for patients with congenital anomalies compared to patients without congenital anomalies. Patients with genetic diagnostics were also more expensive than patients without genetic diagnostics. We next modelled four scenarios based on clinical preselection. First, when performing trio-WES for all patients instead of current diagnostics, overall healthcare costs will increase with 22.2%. Second, performing trio-WES only for patients with multiple congenital anomalies will not result in any cost changes, but this would leave patients with an isolated congenital anomalies untested. We therefore next modelled a scenario performing trio-WES for all patients with congenital anomalies, increasing the average per patient healthcare costs by 5.3%. This will rise to a maximum of 5.5% when also modelling for an extra genetic test for clinically selected patients to establish genetic diagnoses that are undetectable by WES. In conclusion, genetic diagnostic testing accounted for a small fraction of total costs. Implementation of trio-WES as first-tier test for all patients with congenital anomalies will lead to a limited increase in overall healthcare budget, but will facilitate personalized treatments options guided by the diagnoses made.
Highlights
Genetic disorders are of great impact in the wellbeing of an individual
Genetic diagnostic testing accounted for a small fraction of total costs
By implementing trio-Whole Exome Sequencing (WES) as genetic diagnostic test for all patients with congenital anomalies (CAs) there is a limited increase in overall healthcare budget
Summary
Genetic disorders are of great impact in the wellbeing of an individual. For instance, in Europe, 23.9 per 1,000 births between 2003 and 2007 have a congenital anomaly caused by a genetic disorder [1]. Earlier research has shown that a large part of patients admitted to the NICU consists of patients with a genetic disorder and 30-50% of these genetic disorders results in neonatal and infant deaths [3-9]. Earlier research has shown that 13.7% of the patients admitted to the NICU suffer from (multiple) congenital anomalies (CAs) [8, 10]. A recent study focusing on the clinical aspects of the patients included in this study showed the correlation between a conclusive genetic diagnosis and the presence of (multiple) CAs [11]. This finding indicates the need for improvement of genetic diagnostic research in order to diagnose these patients, decrease the time to diagnosis with possibility of starting treatment earlier [11-12]. The introduction of genetic tests for all patients with CAs albeit clinically relevant, will have economic effects that need to be clarified
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