Responding to the Need of the Hour: Natural History Studies

Commentary

Catastrophic neonatal epilepsies that previously included early myoclonic epilepsy and early infantile epileptic encephalopathy (EIEE/Ohtahara syndrome) are now regrouped as early infantile developmental and epileptic encephalopathies (EIDEE). ¹ Greater than 50% of EIDEE have a genetic etiology ² opening doors for modifying outcomes using precision medicine approaches. It has become clear that focusing on seizure control alone as an outcome measure does not offer a holistic solution in altering the “lived experience” of individuals and families with DEE. STXBP1 associated DEE is one such condition that causes not only debilitating seizures but also disorders of movement, tone, sleep, and behavior. Multiple facets of this DEE need modification to improve the lives of the patient, family, and community at large. ^3,4

The ultimate goal of precision medicine techniques is to modify the disease mechanistically. Disease modification in a DEE in its true sense can only be possible once clinical trial design is reimagined beyond seizure control. ⁵ This means disease phenotypes across all ages need to be very well understood, clinically relevant outcome measures need to be identified and the trajectory of the disease made predictable. Although small case series and case reports help widen the scope of the known phenotype, smaller datasets run the risk of selection bias, and less meaningful conclusions. Disease concept models, as discussed in a recent preprint by the group of Helbig in Philadelphia, are one way to help identify outcomes of importance before designing a clinical trial. ⁶ Natural history studies (NHS) are another means to make a disease as known and predictable as possible. In a highly informative publication about the importance of NHS, authors Palmer et al ⁷ point out that either retrospective cross-sectional or prospective longitudinal NHS are urgently needed for rare DEE. Retrospective studies are more economical and can be completed in a shorter duration—however are prone to biased assessments of patients that are either severely affected or perhaps less affected depending on when they present to the treating physician. Additionally, retrospectively identified patients may not have the benefit of having been exposed to the more recently used effective therapies (e.g., Dravet syndrome and earlier exposure to fenfluramine). Natural history studies help with clear patient identification and identify biomarkers and clinically meaningful outcomes that can inform future trials. STXBP1 related DEE has seen a lot of recent publications as a potential target for the next clinical trial. ^{4,8 -10}

While the epilepsy and developmental outcomes of patients with STXBP1 across a wide range of ages was recently published by Balagura et al, ³ Stamberger et al focused only on adults ages 18 and up with STXBP1 ¹¹ in a cross sectional, retrospective NHS. Authors recruited 32 adults through an international collaboration of epileptologists and geneticists to include patients with genetically proven: pathogenic or likely pathogenic mutations in STXBP1. Clinical data was collected using 3 standardized questionnaires filled by referring clinicians: one each on (a) epileptology and development; (b) movement disorders and extrapyramidal disorders; (c) mobility, communication, and functional independence in adulthood. Additionally, semistructured video examinations while performing tasks from the (modified) Unified Parkinson Disease Rating Scale were performed when possible.