Background: Neonates with suspected sepsis are commonly treated with gentamicin, an aminoglycoside. These antibiotics are associated with high risk of ototoxicity, including profound bilateral deafness, in people with the m.1555A>G mitochondrial genetic variant.
Objective: This early value assessment summarised and critically assessed the clinical effectiveness and cost-effectiveness of the Genedrive MT-RNR1 ID Kit for identifying the gene m.1555A>G variant in neonates and mothers of neonates needing antibiotics or anticipated to need antibiotics. Following feedback from the scoping workshop and specialist assessment subgroup meeting, we also considered the Genedrive MT-RNR1 ID Kit for identifying the m.1555A>G variant in mothers prior to giving birth.
Data sources: For clinical effectiveness, we searched three major databases in October 2022: MEDLINE, EMBASE and CINAHL (Cumulative Index to Nursing and Allied Health Literature). For cost-effectiveness, in addition to the three mentioned databases we searched Cochrane and RePEc-IDEAS.
Study selection: Study selection and risk-of-bias assessment were conducted by two independent reviewers (Ryan PW Kenny and Akvile Stoniute for clinical effectiveness and Hosein Shabaninejad and Tomos Robinson for cost-effectiveness). Any differences were resolved through discussion, or by a third reviewer (Nick Meader).
Study appraisal: Risk of bias was assessed using Quality Assessment of Diagnostic Accuracy Studies-2. One study (n = 751 neonates recruited) was included in the clinical effectiveness review and no studies were included in the cost-effectiveness review. All except one outcome (test failure rate: low risk of bias) were rated as being at moderate risk of bias. The study reported accuracy of the test (sensitivity 100%, 95% confidence interval 29.2% to 100%; specificity 99.2%, 95% confidence interval 98% to 99.7%), number of neonates successfully tested (n = 424/526 admissions), test failure rate (17.1%, although this was reduced to 5.7%), impact on antibiotic use (all those with a m.1555A>G genotype avoided aminoglycosides), time taken to obtain a sample (6 minutes), time to genotyping (26 minutes), time to antibiotic treatment (55.18 minutes) and the number of neonates with m.1555A>G (n = 3).
Limitations: The economic component of this work identified key evidence gaps for which further data are required before a robust economic evaluation can be conducted. These include the sensitivity of the Genedrive MT-RNR1 ID Kit for identifying the gene m.1555A>G variant in neonates, the magnitude of risk for aminoglycoside-induced hearing loss in neonates with m.1555A>G, and the prevalence of the m.1555A>G variant. Other potentially important gaps include how data regarding maternal inheritance may potentially be used in the clinical pathway.
Conclusions: This early value assessment suggests that the Genedrive MT-RNR1 ID Kit has the potential to identify the m.1555A>G variant and to be cost-effective. The Genedrive MT-RNR1 ID Kit dominates the current standard of care over the lifetime, as it is less costly and more effective. For a 50-year time horizon, the Genedrive MT-RNR1 ID Kit was also the dominant strategy. For a 10-year time horizon, the incremental cost-effectiveness ratio was estimated to be £103 per quality-adjusted life-year gained. Nevertheless, as anticipated, there is insufficient evidence to conduct a full diagnostic assessment of the clinical effectiveness and cost-effectiveness of the Genedrive MT-RNR1 ID Kit in neonates directly or in their mothers. This report includes a list of research priorities to reduce the uncertainty around this early value assessment and to provide the additional data needed to inform a full diagnostic assessment, including cost-effectiveness modelling.
Study registration: This study is registered as PROSPERO (CRD42022364770).
Funding: This award was funded by the National Institute for Health and Care Research (NIHR) Evidence Synthesis programme (NIHR award ref: NIHR135636) and is published in full in Health Technology Assessment; Vol. 28, No. 75. See the NIHR Funding and Awards website for further award information.
Our immune system usually fights off invading germs, such as bacteria, viruses, fungi or parasites, in order to prevent infection. Sometimes the immune system stops fighting the ‘invaders’ and begins to turn in on itself. This life-threatening reaction is known as sepsis. Bacterial infections and sepsis are significant causes of death and illness in newborns. Newborns with suspected bacterial infection or sepsis are normally treated with an aminoglycoside antibiotic called gentamicin (a type of medicine that is meant to kill bacteria). These antibiotics are associated with a very high risk of ototoxicity (damage to the ear, including deafness) among people with the m.1555A>G MT-RNR1 gene variant [a specific change to the small section of deoxyribonucleic acid storing biological information] within their mitochondrial deoxyribonucleic acid (small circles of deoxyribonucleic acid located in the mitochondria, the cell’s energy producer). The aim of this review was to summarise and critically evaluate existing evidence on how effective (the degree to which a test does more harm than good) and cost-effective (how effective a test is in relation to its cost) the Genedrive MT-RNR1 ID Kit is for identifying the m.1555A>G gene variant in newborns or in their mothers. We collected and analysed all relevant research studies, one moderate quality study was included in the clinical effectiveness review and no studies were included in the cost-effectiveness review. The quality of the included study was assessed as moderate for most of the outcomes (things measured to monitor the degree to which the test does more good than harm) reported due to uncertainty regarding the failure rate of the test. The results suggested that the test was capable of identifying newborns with the m.1555A>G variant. This was accomplished by successfully testing 424 out of 526 patients, with three newborns identified as carrying the gene and avoiding aminoglycoside treatment. Because of these small numbers, there does remain some uncertainty regarding the accuracy of the test. Additionally, time to antibiotic administration was not negatively impacted by the test. Similar time for treatment initiation was taken for those tested as for those not tested. This review shows that the Genedrive MT-RNR1 ID Kit has the potential to identify the m.1555A>G variant and the potential to provide value for money for the National Health Service. However, as expected, there is not enough evidence to conduct a full assessment of the clinical effectiveness and cost-effectiveness of Genedrive MT-RNR1 ID Kit in newborns directly, or their mothers. This could be addressed by generating further evidence. The risk and severity of hearing loss from aminoglycoside use is of particular interest, as is further testing of the Genedrive MT-RNR1 ID Kit in both neonates and mothers or neonates who need treatment. Such testing conducted in other settings would be of great importance.