There are several causes developing diplopia after cataract surgery. Among these causes, central fusion disruption may be developed in longstanding unilateral traumatic cataract and uncorrected aphakia. The pathophysiology is unknown, but time interval between sensory deprivation and optical correction is an important factor. The characteristic signs and symptoms are exotropic, hypotropic or excyclotropic deviation, and intractable diplopia with vertical bobbing movement of non-fixing eye, particularly near the angle of superimposition with prism or haploscopic device. The authors report two cases of central fusion disruption in longstanding unilateral traumatic cataract and uncorrected aphakia.
Aphakia ; Cataract ; Diplopia ; Sensory Deprivation

Objective: To determine the visual outcome of amblyopia treatment and describe the relationship between age of onset and consult, compliance as measured by a patch diary, amblyopia subtype, and severity with the final visual outcome. Methods: Thirty-two consecutive, newly-diagnosed cases of amblyopia, aged 3-8 years on initial consult, with no history of prior amblyopia treatment, were included. Patching was done based on current AAO recommendations and patients were followed up monthly for 6 months. Treatment success was defined as best corrected visual acuity (BCVA) better than 20/30 (0.17LogMAR), or a 3-line improvement from baseline, or stable isoacuity for at least 3 months. Treatment failure was defined as no improvement of BCVA after 3 months of occlusion therapy or a regression of 2 lines. Descriptive and correlation statistics were performed comparing age of onset and consult, amblyopia subtype, severity, and compliance with the main outcome measure of BCVA at 6 months. Results: Sixteen (50%) attained treatment success. Patients seen earlier (age 2-5 years) had higher rates of success (75%) than those seen later (age 6-8 years) (35%). A moderately strong negative correlation (r=-0.48, p=0.01) existed between severity of amblyopia and final BCVA at 6 months. overall compliance to patching was 88±18%, with good compliance in the success group (92%) compared to fair compliance in the failure group (84%) and a moderate correlation between compliance and BCVA (r=0.37, p=0.05). Conclusion Treatment success was related to severity, compliance, and younger age of treatment. In the presence of good compliance, severity was a strong prognostic variable.
Amblyopia ; Compliance ; Sensory Deprivation ; Anisometropia

Charles Bonnet syndrome (CBS) can develop after trans-sphenoidal adenomectomy (TSA); however, the neural mechanisms remain unknown. Sensory deprivation and releasing phenomenon are both hypothetical explanations for this condition; however, there is no definite evidence that strongly supports either supposition. We report the first case of CBS after TSA without optic nerve atrophy. Postoperatively, the patient's vision seemed to be relatively well preserved, apart from the left-side hemianopsia in the right eye. Distinctive visual hallucinations only appeared when his eyes were closed, and these responded to quetiapine in a dose-dependent manner. Dose dependent change in colors and formation of hallucination was reported. Two weeks after quetiapine initiation, the patient's CBS was completely resolved. This unique case suggests that blocking sensory input from the periphery is more critical than neural damage of the bottom-up connection to the visual association cortex. In addition, quetiapine should be considered as a specific treatment for CBS.
Atrophy* ; Hallucinations ; Hemianopsia ; Optic Nerve* ; Quetiapine Fumarate ; Sensory Deprivation

The authors report two cases of suddenly deteriorated accommodative esotropia with amblyopia during part-time occlusion therapy. A 7-year-old girl with right accommodative esotropia, which was well controlled, showed marked increase in esodeviation after part-time occlusion and regained orthophoria without occlusion. This phenomenon was repeated. Recession of both medial recti was performed and orthophoria was well maintained at both distant and near targets. Accommodative esotropia of a 9-year-old boy with glasses also showed a striking increase in esodeviation after part-time occlusion. The authors recommended wearing only glasses without occlusion or surgery and he recovered fusion. Three months later, orthophoria was maintained at distant target, with 8PD esophoria at near target with glasses. Although this complication should be considered before occlusion therapy, it must be taken continuously if needed, because an increase of the deviation size with occlusion may simply reflect a true deviation and may not be a poor prognostic sign.
*Accommodation, Ocular ; Amblyopia/physiopathology/therapy ; Child ; Esotropia/*etiology/physiopathology ; Eyeglasses ; Female ; Humans ; Male ; *Sensory Deprivation

PTEN (phosphatase and tensin homolog) is a dual specific phosphatase antagonizing phosphoinositide 3-kinase activity, and has first been cloned as a tumor suppressor for glioma. Although the role of PTEN as a tumor suppressor has been well studied, little is known about signaling mechanisms regulating expression and/or activity of PTEN in the central nervous system. In this study, we investigated whether PTEN expression is regulated by sensory deprivation. P5 rat pups were unilaterally naris-closed, and olfactory bulbs were immunohistochemically analyzed with PTEN antibody at the 7th day after naris closure. PTEN immunoreactivity was found to be down-regulated in both glomerular, external plexiform and subependymal cell layers, suggesting that odor deprivation signals down-regulate expression of PTEN in the olfactory bulb. To the best of our knowledge, this is the first report to suggest that PTEN expression is regulated by sensory deprivation signals in neonatal rats.
Animals ; Central Nervous System ; Clone Cells ; Glioma ; Odors ; Olfactory Bulb* ; Rats* ; Sensory Deprivation

No abstract available.
Amblyopia/physiopathology/*therapy ; Evoked Potentials, Visual/*physiology ; Humans ; Monitoring, Physiologic/*methods ; Prognosis ; *Sensory Deprivation ; Treatment Outcome ; Visual Acuity

No abstract available.
Amblyopia/physiopathology/*therapy ; Evoked Potentials, Visual/*physiology ; Humans ; Monitoring, Physiologic/*methods ; Prognosis ; *Sensory Deprivation ; Treatment Outcome ; Visual Acuity

PURPOSE: To determine the outcome of part-time occlusion therapy in children with anisometropic amblyopia detected after they were 8 years of age. METHODS: We analyzed 29 eyes with anisometropic amblyopia in children 8 years of age and older. The mean age was 8.79+/-0.98 (range 8~12) years old. The subjects whose best-corrected visual acuity (BCVA) did not improve by two lines or better within 2 weeks of wearing glasses full-time were prescribed occlusion therapy for 6 hours a day outside of school hours, along with the instruction to wear glasses full-time. Subjects who complied with occlusion for more than 3 hours a day were considered to comply well. RESULTS: The major component of the anisometropia was hyperopia in 51.7% of the subjects, and hyperopia plus astigmatism was found in 24.1%. The mean pretreatment BCVA score was 0.51+/-0.23 (LogMAR). Compliance was 89.66%. The mean posttreatment BCVA was 0.03+/-0.01 (LogMAR), and the success rate, based on a posttreatment BCVA of 0.1 (LogMAR) and better, was 96.43%. It took an average of 4.79+/-3.35 months to reach the desired posttreatment BCVA. The mean posttreatment stereopsis was 79.78+/-37.61 seconds of arc. The recurrence rate was 8%. The visual improvement was related to the degree of compliance (p=0.000). The time taken to reach the posttreatment BCVA was shorter in subjects with a better pretreatment BCVA (p=0.019), but it did not relate to the compliance (p=0.366). CONCLUSIONS: The most common component of anisometropia detected after 8 years of age was hyperopia. The part-time occlusion therapy, which had been carried out after school hours, was successful in most cases.
Visual Acuity ; Treatment Outcome ; Time Factors ; *Sensory Deprivation ; Male ; Humans ; Follow-Up Studies ; Female ; Child ; Amblyopia/physiopathology/*therapy

Due to the advantages in genetic manipulation, mice have become one of the most commonly used mammalian models for the study of mechanisms underlying myopia development. However, the vast majority of laboratory mouse strains are incapable of synthesizing melatonin, a neurohormone that may play an important role in myopia generation in humans. The present study investigated refractive development profiles in the CBA/CaJ mouse, a strain proficient in melatonin, and determined whether and how its refractive development could be affected by form-deprivation. Eccentric infrared photoretinoscopy revealed that this animal could be stably refracted, and the refractive error underwent developmental changes, which increased with age in the hyperopic direction and eventually got stable approximately 9 weeks after birth. The absolute values of refractive error in CBA/CaJ mice were larger than those of age-matched C57BL/6 mice, whereas the time points when refractive error reached steady state were similar between the two strains. Five weeks of form-deprivation applied to 3-week-old CBA/CaJ mice by translucent occluder wear caused a significant myopic shift in refractive error, indicating that this strain could be adequately used as a myopia model.
Animals ; Disease Models, Animal ; Eye ; Mice ; Mice, Inbred C57BL ; Mice, Inbred CBA ; Myopia ; Refraction, Ocular ; Sensory Deprivation

OBJECTIVETo explore the impact of 36-hour sleep deprivation (SD) on the brain electrophysiological indicators of visuo-motor coupling in young soldiers.

METHODSDuring the 36-hour SD, 10 healthy young soldiers were tested on visuospatial rotation tasks by event-related potentials system before and after SD. The incubation period and amplitude of P500 as well as their error number and reaction time were measured.

RESULTSCompared with subjects in SD 0-hour,subjects in SD 36-hour had significantly increased error rate [(9.7 ± 3.9)% vs. (18.3 ± 4.5)%, P<0.05] and significantly increased reaction time [(632.5 ± 53.6) ms vs. (693.6 ± 65.7) ms, P < 0.05]. Subjects in SD 36-hour showed significantly reduced amplitudes than those in SD 0-hour [(8.7 ± 2.3) ΜV vs. (5.2 ± 1.6) ΜV, P < 0.05]. Additionally, subjects in SD 36-hour showed significantly increased P500 latencies than did those in SD 0-hour [(489.6 ± 42.6) ms vs .(530.2 ± 51.9) ms, P < 0.05]. Compared with subjects in SD 0-hour, the deficit was an absence of a mental rotation function SD 36-hour in subjects.

CONCLUSIONSThe 36-hour SD in young soldiers can harm the processing mechanism of visuo-motor coupling in a certain extent. SD can affect the fixed position ability of visual space cognition in young soldiers.

Adolescent ; Adult ; Evoked Potentials ; Feedback, Sensory ; Female ; Humans ; Male ; Military Personnel ; Reaction Time ; Sleep Deprivation ; physiopathology ; Young Adult