The lipid layer of tears plays a crucial role in preventing tears from evaporating and in providing a smooth ocular surface [9]. Lipid meibum is secreted from the meibomian glands during blinking, and it is thought that the lipid layer spreads by interacting with the aqueous sub-phase of the tear film during the dynamic process of closing and opening the eyes [10]. Incomplete blinking is associated with decreased tear breakup time (TBUT), increased ocular surface disease index (OSDI), and increased meibomian gland dropout, potentially due to its contribution to meibomian gland obstruction and subsequent loss of tear film homeostasis [11]. In the current study, we found that the rate of incomplete blinking was higher in the age- and sex-matched non-BEB-DED group than BEB group. It should be noted that the blink pattern measured by the interferometer may not provide accurate information for patients with BEB. Generally, it is meaningful to observe changes in incomplete blink rates before and after treatment in patients with DED; however, this may not be meaningful in patients with BEB. Therefore, dry eye symptoms should be treated differently in patients with BEB. Furthermore, clinicians should note that DED in patients with BEB may present with different characteristics and etiologies from other causes of DED and should proactively treat DED aside from botulinum toxin injection.
Normal eye blinking comprises four stages: downstroke, turning point, upstroke, and interblinking [13]. During a complete blink cycle, the upper and lower lids contact each other, whereas during an incomplete blink cycle, the upper lid does not fully contact the lower lid [13]. For patients with BEB, involuntary eyelid closure may manifest as twitches and spasms of the eyelids, making it highly likely that the interferometer will not be able to distinguish between normal and abnormal complete blinking [1]. A previous study investigated blink profiles and indices using tear interferometry in patients with BEB before and after botulinum neurotoxin administration [12]. They divided the groups into responders and non-responders to botulinum neurotoxin injections. The normalized total blink rate was observed in the responder group, while other indices, such as the partial blink ratio and eyelid blink time, did not vary in either group. They suggested that the etiology of BEB may not only be dystonia of orbicularis oculi contraction but also decreased function of the eyelid levator muscles in the non-responder group. We only included the responder group, leading to different results such that the incomplete blink rate increased in the responder group. As very few studies have objectively evaluated blinking kinematics before and after botulinum neurotoxin injections, it is crucial to verify this with more patients in the future.
Increased incomplete blinking leads to inadequate lipid distribution [14–16]. The general understanding is that LLT is significantly negatively correlated with the incomplete blinking rate [17]. Our study revealed an increase in LLT in patients with BEB after BoT injection despite an increase in the incomplete blink rate, which is supported by a previous study [18]. Increasing LLT after BoT injection may be misunderstood as an improvement of normal blink; hence, cautions need to be taken when interpreting the blink pattern among patients with BEB. Ocular surface changes and blink patterns should be examined using a slit lamp; however, the usefulness of tear interferometry may be limited, especially in patients with BEB.
Dry eye symptoms are often reported in patients with blepharospasm. Blepharospasm can cause DED since periodic blinking of the eyelids is crucial for the maintenance and renewal of the precorneal tear film. Conversely, DED may worsen blepharospasm since the blinking rate increases to compensate for the tear film instability or deficiency. Recent studies have interpreted the synergistic pathological mechanism of the association between DED and blepharospasm; however, no main outcomes have been achieved. There are several conflicting opinions on the effect of neurotoxin injection used as treatment for DED in patients with BEB. Previous studies confirmed the efficacy of botulinum toxin A injections in improving dry eye symptoms [4, 5]. Botulinum toxin A has also been suggested as a dry eye therapy due to its ability in reducing lacrimal drainage after treatment [6]. Paralysis of the orbicularis oculi muscles affects the canaliculi and decreases pump function during blinking. However, another study reported that botulinum toxin A injections only slightly increased tear break up time (TBUT) and did not improve dry eye symptoms (Schirmer’s test, impression cytology, and Rose Bengal staining) [19]. This is consistent with the findings of Dutton and Buckley, who reported that subjective dry eye symptoms were the most common side effects of long-term botulinum toxin therapy for blepharospasm [20]. Moreover, decreased tear production has been reported in patients with BEB even prior to treatment [18]. This finding did not correlate with hyperosmolarity, and this association is well-accepted in DED. Our study also revealed that changes in ocular surface parameters were not typical in patients with BEB between pre- and post-injection of botulinum toxin compared to patients with DED.
A limitation of this study is the lack of DED parameters, including tear breakup time, ocular surface staining, Schirmer’s test, and subjective symptom score. Recently, it has been shown that LLT may be influenced by mucous-aqueous volume and that tear secretion may change after BoT injection. A previous study reported that reduced tear secretion appears to be present in patients with BEB patients even prior to treatment. Additionally, eye drops, including artificial tears, may affect the results of LLT. Further studies are warranted to prospectively observe the changes in tear parameters in patients with BEB. However, our study was the first to compare blink patterns, meibomian gland morphology and function, including LLT in both patients with BEB and DED. Our results suggest that BoT injection is effective not only for orbicularis oculi muscle contracture but also for improving tear stability. Restoring a normal blink pattern after BoT injection may be a key factor in improving tear dynamics in patients with BEB.