Unnecessary Early Gastrostomy for Trauma Patients.

While early gastrostomy tube placement (GTP) may decrease hospital length of stay and facilitate disposition, GTP may be unnecessary as some patients regain the ability to eat earlier than expected. No guidelines currently exist regarding optimal GTP timing or minimum duration of need indicating appropriateness of GTP. This retrospective (9/2017-12/2019) single center study evaluated the incidence of adequate (>75%) oral caloric intake (ACI) after GTP during index hospitalization and associated characteristics before discharge. Bivariate analyses were performed to compare patients achieving ACI and patients not achieving ACI at discharge. By discharge, 10 (12.5%) patients achieved ACI and 6 (7.5%) had their GT removed prior to discharge suggesting many patients undergo unnecessary GTP. Also, 6 (7.5%) patients suffered GTP-related complications. Future multicenter studies are needed to corroborate these findings and establish GTP guidelines for trauma patients to avoid unnecessary GT procedures and associated morbidities.

Light-dependent pathways for dopaminergic amacrine cell development and function.

Retinal dopamine is a critical modulator of high acuity, light-adapted vision and photoreceptor coupling in the retina. Dopaminergic amacrine cells (DACs) serve as the sole source of retinal dopamine, and dopamine release in the retina follows a circadian rhythm and is modulated by light exposure. However, the retinal circuits through which light influences the development and function of DACs are still unknown. Intrinsically photosensitive retinal ganglion cells (ipRGCs) have emerged as a prime target for influencing retinal dopamine levels because they costratify with DACs in the inner plexiform layer and signal to them in a retrograde manner. Surprisingly, using genetic mouse models lacking specific phototransduction pathways, we find that while light influences the total number of DACs and retinal dopamine levels, this effect does not require ipRGCs. Instead, we find that the rod pathway is a critical modulator of both DAC number and retinal dopamine levels.