Resource Utilization in Pediatric Patients Supported With Ventricular Assist Devices in the United States: A Multicenter Study From the Pediatric Interagency Registry for Mechanically Assisted Circulatory Support and the Pediatric Health Information System

Rossano, Joseph W.; Cantor, Ryan S.; Dai, Dingwei; Shamszad, Pirouz; Huang, Yuan‐Shung; Hall, Matthew; Lin, Kimberly Y.; Edens, R. Erik; Parrino, Patrick E.; Kirklin, James K.

doi:10.1161/jaha.117.008380

Cited by 18 publications

(13 citation statements)

References 37 publications

(73 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…These authors found, that while not meeting the WTP threshold compared to medical management, CF‐VAD was far superior in cost‐effectiveness to PF‐VAD with sensitivity analyses findings similar to our study: cost of device implantation, long‐term survival, cost per rehospitalization, and utility were important drivers of model conclusion. Our finding that the CF‐VAD capacity for outpatient device support is an important element resulting in higher QALY and lower costs is also mirrored in the literature . Cumulative costs and efficacy after implant for each model are illustrated in Figure where it is illustrated that CF‐VAD enjoys superiority in cumulative QALY across the first year, but bears an upfront cost that is overtaken by PF‐VAD at the end of week 12.…”

Section: Discussionsupporting

confidence: 63%

“…The cumulative costs for CF‐VAD the first year after implant is $1.12M while those of PF‐VAD is $1.39M. While the cost perspective and time horizon of our analysis differ from those of Rossano et al, the rough scale of our financial findings match those previously reported resource requirements in VAD care. This pattern—the cumulative cost for PF‐VAD being lower only in early cycles—explains why CF‐VADs are not cost‐effective if the anticipated length of time a patient needs device support is short.…”

Section: Discussionsupporting

confidence: 56%

“…It is important to note that there are not device support is an important element resulting in higher QALY and lower costs is also mirrored in the literature. 18 Cumulative costs and efficacy after implant for each model are illustrated in Figure 5 where it is illustrated that CF-VAD enjoys superiority in cumula- Of particular focus in the field of device support at this time is thromboembolic events and novel anticoagulation strategies to prevent them. The peak incidence of neurologic events is the 11th week and 16th week for PF-VAD and CF-VAD, respectively ( Figure 6).…”

Section: Discussionmentioning

confidence: 99%

See 2 more Smart Citations

Cost‐utility of continuous‐flow ventricular assist devices as bridge to transplant in pediatrics

Evers

Villa

Wittekind

et al. 2019

Pediatric Transplantation

View full text Add to dashboard Cite

Objective The initial costs of a CF‐VAD exceed those of a PF‐VAD. However, the safety profile of CF‐VAD is superior and the possibility of outpatient device support may justify the additional initial costs. This study analyzed the cost‐utility of CF‐VAD use in the pediatric population. Methods A Markov‐state transition model was constructed for the clinical course of the two VAD subtypes from implantation until death with variables extracted from internal financial records and the published literature. The modeled population consisted of pediatric heart failure patients who met indications for VAD implant (INTERMACS profile 1 or 2) and were size‐eligible for either a PF‐VAD or CF‐VAD. Results The cost‐utility analysis illustrated that CF‐VAD is both more effective and less costly compared to PF‐VAD at base‐case conditions. Sensitivity analyses demonstrated that only in extreme conditions did a CF‐VAD strategy not meet criteria for cost‐effectiveness (if readmission rate >20% weekly, neurologic event rate >8% weekly, or CF‐VAD discharge rates <18% in a month) or VAD support duration shortens to ≤12 weeks. Conclusion While the implantation costs of a CF‐VAD exceed those of a PF‐VAD, after 12 weeks of device support CF‐VAD becomes the more cost‐effective strategy if the anticipated outpatient device care is sufficiently long. The cost efficacy of the CF‐VAD will be further heightened as initiatives that result in earlier and safer discharges, as well as reductions in readmission rates continue to be successful.

show abstract

Section: Discussionsupporting

confidence: 63%

Section: Discussionsupporting

confidence: 56%

Section: Discussionmentioning

confidence: 99%

See 1 more Smart Citation

Cost‐utility of continuous‐flow ventricular assist devices as bridge to transplant in pediatrics

Evers

Villa

Wittekind

et al. 2019

Pediatric Transplantation

View full text Add to dashboard Cite

show abstract

“…20 Similarly, the costs of implantable continuous-flow VADs were taken from a retrospective analysis of PHIS data which also used CCRs. 4 These one-time costs were valued separately from costs of routine healthcare services, check-ups, and other treatments (eg, hospitalizations) borne by pediatric heart failure patients which were derived from previous costeffectiveness analyses. [21][22][23] Healthcare costs include healthcare service delivery (eg, physician and facility fees), medical device, and drug costs.…”

Section: Costsmentioning

confidence: 99%

“…For children who received a VAD, median hospital costs including implantation were estimated to be $750 000, and the median length of stay was 81 days. 4,5 In children with end-stage heart failure, VAD implantation before the patient reaches a state of critical cardiogenic shock is associated with improved outcomes. 6 Beyond this, however, there is very little evidence to further guide the timing of implantation and patient selection in pediatrics.…”

Section: Introductionmentioning

confidence: 99%

Cost‐effectiveness of implantable ventricular assist devices in older children with stable, inotrope‐dependent dilated cardiomyopathy

Avanceña

Hutton

Lee

et al. 2021

Pediatric Transplantation

View full text Add to dashboard Cite

Background: In a stable, inotrope-dependent pediatric patient with dilated cardiomyopathy, we evaluated the cost-effectiveness of continuous-flow VAD implantation compared to a watchful waiting approach using chronic inotropic therapy. Methods:We used a state-transition model to estimate the costs and outcomes of 14-year-old (INTERMACS profile 3) patients receiving either VAD or watchful waiting.We measured benefits in terms of lifetime QALYs gained. Model inputs were taken from the literature. We calculated the ICER, or the cost per additional QALY gained, of VADs and performed multiple sensitivity analyses to test how our assumptions influenced the results.Results: Compared to watchful waiting, VADs produce 0.97 more QALYs for an additional $156 639, leading to an ICER of $162 123 per QALY gained from a healthcare perspective. VADs have 17% chance of being cost-effective given a cost-effectiveness threshold of $100 000 per QALY gained. Sensitivity analyses suggest that VADs can be cost-effective if the costs of implantation decrease or if hospitalization costs or mortality among watchful waiting patients is higher.Conclusions: As a bridge to transplant, VADs provide a health benefit to children who develop stable, inotrope-dependent heart failure, but immediate implantation is not yet a cost-effective strategy compared to watchful waiting based on commonly used cost-effectiveness thresholds. Early VAD support can be cost-effective in sicker patients and if device implantation is cheaper. In complex conditions such as pediatric heart failure, cost-effectiveness should be just one of many factors that inform clinical decision-making.

show abstract

Pediatric Mechanical Circulatory Support

Thangappan,

Ashfaq,

Villa

et al. 2023

Textbook of Transplantation and Mechanical Support for End‐Stage Heart and Lung Disease

View full text Add to dashboard Cite

Resource Utilization in Pediatric Patients Supported With Ventricular Assist Devices in the United States: A Multicenter Study From the Pediatric Interagency Registry for Mechanically Assisted Circulatory Support and the Pediatric Health Information System

Cited by 18 publications

References 37 publications

Cost‐utility of continuous‐flow ventricular assist devices as bridge to transplant in pediatrics

Cost‐utility of continuous‐flow ventricular assist devices as bridge to transplant in pediatrics

Cost‐effectiveness of implantable ventricular assist devices in older children with stable, inotrope‐dependent dilated cardiomyopathy

Pediatric Mechanical Circulatory Support

Contact Info

Product

Resources

About