Abstract
Falls and gait impairment in Parkinson’s Disease (PD) is a leading cause of morbidity and mortality, significantly impacting quality of life and contributing heavily to disability. Thus far axial symptoms, such as postural instability and gait freezing, have been refractory to current treatment approaches and remain a critical unmet need. There has been increased excitement surrounding the surgical targeting of the pedunculopontine nucleus (PPN) for addressing axial symptoms in PD. The PPN and cuneate nucleus comprise the mesencephalic locomotor region, and electrophysiologic studies in animal models and human imaging studies have revealed a key role for the PPN in gait and postural control, underscoring a potential role for DBS surgery. Previous limited studies of PPN deep brain stimulation (DBS) in treating gait symptoms have had mixed clinical outcomes, likely reflect targeting variability and the inherent challenges of targeting a small brainstem structure that is both anatomically and neurochemically heterogeneous. Diffusion tractography shows promise for more accurate targeting and standardization of results. Due to the limited experience with PPN DBS, several unresolved questions remain about targeting and programing. At present, it is unclear if there is incremental benefit with bilateral versus unilateral targeting of PPN or whether PPN targeting should be performed as an adjunct to one of the more traditional targets. The PPN also modulates non-motor functions including REM sleep, cognition, mood, attention, arousal, and these observations will require long-term monitoring to fully characterize potential side effects and benefits. Surgical targeting of the PPN is feasible and shows promise for addressing axial symptoms in PD but may require further refinements in targeting, improved imaging, and better lead design to fully realize benefits. This review summarizes the current knowledge of PPN as a DBS target and areas that need to be addressed to advance the field.
Highlights
CURRENT STATUS OF pedunculopontine nucleus (PPN) Deep brain stimulation (DBS) Major morbidity and mortality in Parkinson’s disease (PD) have been closely linked to problems arising from falling
Early and promising data suggested that the PPN could be a viable DBS target for treating axial symptoms
The results preliminarily suggest that PPN DBS promotes rapid eye movement (REM) sleep by increasing output from the PPN (REM on) and by transsynaptically inhibiting the nuclei receiving GABAergic afferents in the ventrolateral periaqueductal gray and lateral pontine tegmentum (REM off) [79]
Summary
1 patient published in previous study, gait freezing improved OFF stim for up to 6 weeks. + (6/6) ON and OFF PPN only ON mean 32% improvement in UPDRSIII compared to 54% improvement with STN ON. Slight decline in efficacy of PPN after 6 months, trend toward increased benefit on UPDRS III with both STN and PPN ON. Unilateral PPN case previously reported in [18]. 1–24 months for chronic effects of DBS
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