Ontario health technology assessment series
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Ont Health Technol Assess Ser · Jan 2020
Meta AnalysisTranscatheter Aortic Valve Implantation in Patients With Severe Aortic Valve Stenosis at Low Surgical Risk: A Health Technology Assessment.
Surgical aortic valve replacement (SAVR) is the conventional treatment for patients with severe aortic valve stenosis at low surgical risk. Transcatheter aortic valve implantation (TAVI) is a less invasive procedure. We conducted a health technology assessment (HTA) of TAVI for patients with severe aortic valve stenosis at low surgical risk, which included an evaluation of effectiveness, safety, cost-effectiveness, the budget impact of publicly funding TAVI, and patient preferences and values. ⋯ Both TAVI (transfemoral route) and SAVR resulted in improved patient symptoms and quality of life during the 1 year of follow-up. The TAVI procedure is less invasive and resulted in greater symptom improvement and quality of life than SAVR 30 days after surgery. The TAVI procedure also resulted in a small improvement in mortality and disabling stroke at 30 days. At 1 year, TAVI and SAVR were similar with regard to mortality, although TAVI may result in a slightly lower risk of disabling stroke. According to the study authors, longer follow-up is needed to better understand how long TAVI valves last and to draw definitive conclusions on the long-term outcomes of TAVI compared with SAVR beyond 1 year.The TAVI procedure might be cost-effective for patients at low surgical risk; however, there is some uncertainty in this result. We estimated that the additional cost to provide public funding for TAVI in people with severe aortic valve stenosis at low surgical risk would range from about $5 million to $8 million over the next 5 years.Among a mixed or generally high-risk population, people typically preferred the less invasive nature and the faster recovery time of TAVI compared with SAVR.
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Ont Health Technol Assess Ser · Jan 2020
Extracorporeal Membrane Oxygenation for Cardiac Indications in Adults: A Health Technology Assessment.
Extracorporeal membrane oxygenation (ECMO) is a rescue therapy used to stabilize patients with hemodynamic compromise such as refractory cardiogenic shock or cardiac arrest. When used for cardiac arrest, ECMO is also known as extracorporeal cardiopulmonary resuscitation (ECPR). We conducted a health technology assessment of venoarterial ECMO for adults (aged ≥ 18 years) with cardiac arrest refractory to conventional cardiopulmonary resuscitation (CPR) or with cardiogenic shock refractory to conventional medical management (i.e., drugs, mechanical support such as intra-aortic balloon pump and temporary ventricular assist devices). Our assessment included an evaluation of effectiveness, safety, cost-effectiveness, the budget impact of publicly funding ECMO for these indications, and patient preferences and values. ⋯ For adults treated for refractory cardiac arrest, ECPR may improve survival and likely improves long-term neurological outcomes compared with conventional cardiopulmonary resuscitation. For patients treated for cardiogenic shock, ECMO may improve 30-day survival compared with intra-aortic balloon pump, but there is considerable uncertainty.For adults with refractory cardiac arrest, ECPR may be cost-effective compared with conventional CPR. We estimate that publicly funding ECMO for people with cardiac arrest and cardiogenic shock in Ontario over the next 5 years would cost about $845,000 to $2.2 million per year.People with experience of ECMO for cardiac indications viewed it as a life-saving device and expressed gratitude that it was available and able to help stabilize their acute medical condition.
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Ont Health Technol Assess Ser · Jan 2020
Implantable Devices for Single-Sided Deafness and Conductive or Mixed Hearing Loss: A Health Technology Assessment.
Single-sided deafness refers to profound sensorineural hearing loss or non-functional hearing in one ear, with normal or near-normal hearing in the other ear. Its hallmark is the inability to localize sound and hear in noisy environments. Conductive hearing loss occurs when there is a mechanical problem with the conduction of sound vibrations. Mixed hearing loss is a combination of sensorineural and conductive hearing loss. Conductive and mixed hearing loss, which frequently affect both ears, create additional challenges in learning, employment, and quality of life. Cochlear implants and bone-conduction implants may offer objective and subjective benefits of hearing for people with these conditions who are deemed inappropriate candidates for standard hearing aids and do not meet the current indication (i.e., bilateral deafness) for publicly funded cochlear implants in Canada. ⋯ Based on evidence of moderate quality, cochlear implantation and bone-conduction implants improve functional and patient-important outcomes in adults and children with single-sided deafness and conductive or mixed hearing loss. Qualitative results of interviews with patients are consistent with the findings of the systematic reviews we examined.Among people with single-sided deafness, cochlear implants may be cost-effective compared with no intervention, but bone-conduction implants are unlikely to be. Among people with conductive or mixed hearing loss, bone-conduction implants may be cost-effective compared with no intervention. Results and uncertainty are mainly driven by changes in health utilities associated with having a hearing implant. Hence, further research on utility values in this population is warranted with larger sample sizes and longer follow-up.The 5-year cost of publicly funding both types of hearing implant for single-sided deafness and conductive or mixed hearing loss in Ontario is estimated to be $6.7 million to $7.8 million.
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Ont Health Technol Assess Ser · Jan 2020
Transcatheter Aortic Valve Implantation in Patients With Severe, Symptomatic Aortic Valve Stenosis at Intermediate Surgical Risk: A Health Technology Assessment.
Surgical aortic valve replacement (SAVR) is the conventional treatment in patients at low or intermediate surgical risk. Transcatheter aortic valve implantation (TAVI) is a less invasive procedure, originally developed as an alternative for patients at high or prohibitive surgical risk. ⋯ In people with severe, symptomatic aortic valve stenosis at intermediate surgical risk, TAVI was similar to SAVR with respect to the composite endpoint of all-cause mortality or disabling stroke. However, the two treatments had different patterns of complications. The study authors also noted that longer follow-up is needed to assess the durability of the TAVI valve. Compared with SAVR, TAVI may provide good value for money, but publicly funding TAVI in Ontario would result in additional costs over the next 5 years. People with aortic valve stenosis who had undergone TAVI appreciated its less invasive nature and reported a substantial reduction in physical and psychological effects after the procedure, improving their quality of life.
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Ont Health Technol Assess Ser · Jan 2020
Portable Normothermic Cardiac Perfusion System in Donation After Cardiocirculatory Death: A Health Technology Assessment.
Heart transplantation is the most effective treatment for people experiencing end-stage heart failure whose quality of life and life expectancy are unacceptable. However, there is a chronic shortage of donor hearts to meet the demand, so it is essential to expand the donor pool and increase supply. Heart donation mainly occurs after brain death (neurological determination of death [NDD]), but it may also be feasible after cardiocirculatory death (when the heart has stopped beating and there is no longer blood flow or a pulse), provided specialized preservation techniques are used. An investigational device, a portable normothermic cardiac perfusion system, could make it possible to procure, preserve, and transport hearts donated after cardiocirculatory death (DCD). We conducted a health technology assessment of a portable normothermic cardiac perfusion system for the preservation and transportation of DCD hearts for adult transplantation. This included an evaluation of the effectiveness, safety, value for money, and budget impact of publicly funding this system, as well as an evaluation of patient preferences and values. ⋯ Based on very low quality of evidence, the outcomes for recipients of DCD hearts preserved using a portable normothermic cardiac perfusion system appear to be similar to outcomes for recipients of NDD hearts. Owing to a lack of evidence relevant to the Ontario context, we were unable to determine whether a portable normothermic perfusion system may be cost-effective. We estimate that publicly funding a portable normothermic cardiac perfusion system for DCD heart transplantation over the next 5 years will cost about $5.6 million. The people we spoke with believe that the system may increase the number of hearts available for transplant and therefore increase the number of heart transplants that can be done.