Zonner SW, Ejima K, Fulgar CC, Charleston CN, Huibregtse ME,
Bevilacqua ZW, Kawata K. Oculomotor Response to Cumulative Subconcussive
Head Impacts in US High School Football Players: A Pilot Longitudinal Study. JAMA
Ophthalmol. 2018 Dec 20. doi: 10.1001/jamaophthalmol.2018.6193. [Epub ahead of
print]
Abstract
IMPORTANCE:
Repetitive subconcussive head impacts in sports have emerged
as a complex public health issue. Most of these head impacts remain
asymptomatic yet have the potential to cause insidious neurological deficit if
sustained repetitively. Near point of convergence (NPC) values have shown to
reflect subclinical neuronal damage; however, the longitudinal pattern of NPC
changes in association with subconcussive head impacts remains unclear.
OBJECTIVES:
To examine the NPC response to recurring subconcussive head
impacts in a single high school football season through a series of repeated
measurements.
DESIGN, SETTING, AND PARTICIPANTS:
This prospective case-series study of US varsity high school
football players included baseline measurements of NPC, measurements at pregame
and postgame points from 6 in-season games, and postseason follow-up
measurements (a total of 14 points). An accelerometer-embedded mouthguard
measured head impact frequency and magnitude from all practices and games.
During the 6 games, players wore chest-strap heart rate monitors to record
heart rate and estimate their excess postexercise oxygen consumption,
accounting for possible physical exertion effects on NPC values.
EXPOSURES:
Players participated in practices and games with no
restriction.
MAIN OUTCOMES AND MEASURES:
Near point of convergence.
RESULTS:
The 12 included players were all boys, with a mean (SD) age
of 16.4 (0.5) years. A total of 8009 head impacts, 177 907 g of peak linear
acceleration, and 16 123 371 rad/s2 of peak rotational acceleration were
recorded from the players in a single football season. There was a significant
increase in NPC over time until the middle of the season (mean [SD] NPC:
baseline, 5.25 [1.49] cm; pregame 3, 6.42 [1.93] cm; P = .01), which was
significantly associated with subconcussive head impact frequency and magnitude
(0.02 cm per 100 g of peak linear acceleration [SE, 0.0108; 95% CI,
0.0436-0.004]; P = .01; 0.023 cm per 10 000 rad/s2 of peak rotational
acceleration [SE, 0.009; 95% CI, 0.041-0.0105]; P = .02). However, NPC values
began to normalize toward baseline level from midseason (mean [SD] NPC:
baseline, 5.25 [1.49] cm; pregame 6, 5.75 [2.23] cm; P = .32), as supported by
a significant quadratic trend (β [SE], -0.002 [0.001] cm/d; P = .003), while
participants continued to incur subconcussive head impacts.
CONCLUSIONS AND RELEVANCE:
This longitudinal case series study suggests that NPC can be
perturbed over the long term by subconcussive head impacts but may normalize
over time. The oculomotor system may have an adaptational capacity to
subclinical head impacts, yet the mechanism for such remains an open question
and warrants further investigation.
https://www.mdlinx.com/journal-summaries/near-point-of-convergence-head-impacts/2018/12/21/7552115?spec=neurology
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