The Untrained Response of Pet Dogs to Human Epileptic Seizures

The Cost-Effectiveness of Seizure Dogs for Persons Living With Severe Refractory Epilepsy: Results From the EPISODE Study

OBJECTIVES

The Epilepsy Support Dog Evaluation study was commissioned by the Dutch Ministry of Health, Welfare and Sports to inform a reimbursement decision on seizure dogs. The randomized trial found that seizure dogs reduce seizure frequency and improve health-related quality of life of persons with severe refractory epilepsy (PSREs). This article examined the cost-effectiveness (CE) of adding seizure dogs to usual care for PSREs in The Netherlands.

METHODS

A microsimulation model was developed, informed by generalized linear mixed models using patient-level trial data from the Epilepsy Support Dog Evaluation study. The model adopted a 10-year time horizon and took a societal perspective. Seizure frequency was predicted as a function of time with the seizure dog. Patient utilities, caregiver utilities, and costs were predicted as a function of seizure frequency and time with the seizure dog.

RESULTS

Quality-adjusted life-years (QALYs) of PSREs with a seizure dog and usual care alone were estimated at 6.28 and 5.65, respectively (Δ 0.63). For caregivers, estimated QALYs were 6.94 and 6.52, respectively (Δ 0.42). Total costs were respectively €228 691 and €226 261 (Δ €2430). Intervention costs were largely offset by savings in informal care and healthcare. The incremental CE ratio was €2314/QALY. Probabilistic sensitivity analysis indicated a 91% probability of seizure dogs being cost-effective at the €50 000/QALY threshold. The incremental CE ratio fell well below this threshold in scenario analyses.

CONCLUSIONS

Seizure dogs are likely to be a cost-effective addition to usual care for PSREs in The Netherlands.

Breath biomarkers in Non-Carcinogenic diseases

The analysis of volatile organic compounds (VOCs) from human matrices like breath, perspiration, and urine has received increasing attention from academic and medical researchers worldwide. These biological-borne VOCs molecules have characteristics that can be directly related to physiologic and pathophysiologic metabolic processes. In this work, gathers a total of 292 analytes that have been identified as potential biomarkers for the diagnosis of various non-carcinogenic diseases. Herein we review the advances in VOCs with a focus on breath biomarkers and their potential role as minimally invasive tools to improve diagnosis prognosis and therapeutic monitoring.

Exhaled Biomarkers for Point-of-Care Diagnosis: Recent Advances and New Challenges in Breathomics

Cancers, chronic diseases and respiratory infections are major causes of mortality and present diagnostic and therapeutic challenges for health care. There is an unmet medical need for non-invasive, easy-to-use biomarkers for the early diagnosis, phenotyping, predicting and monitoring of the therapeutic responses of these disorders. Exhaled breath sampling is an attractive choice that has gained attention in recent years. Exhaled nitric oxide measurement used as a predictive biomarker of the response to anti-eosinophil therapy in severe asthma has paved the way for other exhaled breath biomarkers. Advances in laser and nanosensor technologies and spectrometry together with widespread use of algorithms and artificial intelligence have facilitated research on volatile organic compounds and artificial olfaction systems to develop new exhaled biomarkers. We aim to provide an overview of the recent advances in and challenges of exhaled biomarker measurements with an emphasis on the applicability of their measurement as a non-invasive, point-of-care diagnostic and monitoring tool.