Life space limitations in visually impaired older adults.

SIGNIFICANCE: Future work should develop and evaluate interventional strategies to help overcome visual and health-related barriers to travel in visually impaired seniors and mitigate adverse impacts of loneliness for those who do not leave town. PURPOSE: Life space refers to the area in which a person travels within a given time period. We explored whether demographics, vision, and/or health characteristics were related to restrictions in self-reported life space for visually impaired seniors. METHODS: Visually impaired (n = 114) clinical trial participants aged ≥55 years learned visual assistive iPhone apps and completed the following baseline questionnaires: Life Space, 36-Item Short-Form Health Survey, University of California, Los Angeles Loneliness Scale, and New-General Self-efficacy Scale. Multiple logistic regressions evaluated associations between life space and patient factors after accounting for their distance to the next county or state. RESULTS: During 2021 to 2023, 17%, 43%, and 70% of participants had not left their town, county, or state, respectively, in the past 3 months, or planned to in the next 3 months. Those with reduced distance best-corrected visual acuity had greater odds of not leaving the county in these time frames (odds ratio [OR] = 3.5; p=0.04). Minority race was associated with greater odds of not leaving town or the county in the past 2 weeks or future 3 months (OR = 4.3 to 6.4; p=0.009 to 0.049). Increased self-efficacy was associated with reduced odds of not leaving the state in the past 3 months, next 3 months, or past and/or future 3 months (OR = 0.54 to 0.55; p=0.02 to 0.03). Better physical function was associated with reduced odds of not leaving the state in the past 2 weeks or 3 months (OR = 0.96 to 0.98; p=0.01 to 0.04). Increased loneliness was related to greater odds of not leaving town in the past and/or future 3 months (OR = 1.8 to 2.0; p=0.007 to 0.009). CONCLUSIONS: Minority race, reduced vision, self-efficacy, and physical health were related to life space restrictions in this cohort of visually impaired seniors, whereas loneliness was greater among those who were not leaving town.

Factors related to training time and achieving proficiency with visual-assistive mobile applications in visually impaired older adults.

SIGNIFICANCE: A majority of visually impaired older adults were able to learn to proficiently use visual-assistive iPhone applications (apps) following a median 1 hour and/or multiple training sessions, which should be considered when planning vision rehabilitation service delivery, including the option for remote telerehabilitation for those who prefer that modality. PURPOSE: Older adults with low vision are increasingly using technology to improve their visual functioning. We examined whether age-related comorbidities were potential barriers to success in learning to use visual-assistive apps on a smartphone. METHODS: A clinical trial assessed visual-assistive apps in 116 older adults aged 55+ years (mean [standard deviation], 72 [10] years). Subjects were randomized to use an app (SuperVision+, Seeing AI, or Aira) preloaded to a loaner iPhone and completed one-on-one training. App proficiency was measured by the participant's ability to use the iPhone/app without cueing at the end of training sessions. Training time was recorded for the initial session and totaled after subsequent sessions. Multiple regression models explored significant factors associated with training time and proficiency. RESULTS: Median initial and total training times were 45 and 60 minutes, respectively. Increased initial and total training times were both significantly related to increased age (p<0.001), legal blindness (p<0.007), Seeing AI versus SuperVision+ app (p<0.03), and participants from New England versus California (p<0.001). Most (71%) achieved proficiency after the initial training session; those odds were significantly greater among younger participants (p=0.04), those who opted for telerehabilitation (p=0.03), those who had higher cognitive scores (p=0.04), or those who were from New England (p=0.04). The majority (90%) was ultimately proficient with the app; those odds were significantly greater among participants who already had an optical magnifier (p=0.008), but were unrelated to other factors including study site. CONCLUSIONS: Following multiple, extensive training sessions, age, mild cognitive loss, or level of visual impairment did not preclude gaining proficiency with visual-assistive apps by visually impaired seniors, but those factors were associated with longer training times. Telerehabilitation can be a viable option to provide app training remotely for visually impaired seniors who choose that modality.

New insights into visually impaired patients' preferred reading illumination and home-based reading speed with new task-lighting.

INTRODUCTION: When optimal lighting is applied to hard-copy materials for visually impaired individuals, laboratory-based reading performance can improve significantly. However, it is not known whether their lighting preferences are related to ocular factors or if laboratory-based reading improvements will translate to home-based environments. METHODS: Preferences for brightness (lux) and colour temperature (degrees Kelvin; K) with the LuxIQ/2 for 'most comfort' while reading at near were evaluated in-clinic for 71 adults with ocular disease affecting the outer (n = 37; 52%), inner or all retinal layers (n = 34; 48%). Twenty participants received either an OttLite Cobra lamp or a generic gooseneck lamp with a bulb resembling LuxIQ/2 parameters for their preferred reading light, and then completed home-based telephone evaluations using the sustained silent reading test. RESULTS: Participants with outer retinal disease preferred significantly brighter light intensity by an average of 838 lux versus those with inner retinal disease (95% CI: 331, 1344; p = 0.002). No participants opted for a coloured tint for reading based on the LuxIQ/2 measurements since they preferred white light only; most preferred the OttLite Cobra lamp. At home, reading speed improved significantly by an average of 37 words per minute with the new lamp (95% CI: 12, 62; p = 0.005). CONCLUSIONS: Patients with outer retinal disease prefered brighter light intensity for reading. Clinic-based lighting preferences yielded improvements in reading speed when using a new task light at home.

Bluetooth Low Energy Beacon Sensors to Document Handheld Magnifier Use at Home by People with Low Vision.

We explored the feasibility of using Bluetooth low energy (BLE) beacon sensors to determine when individuals with low vision (LV) use handheld magnifiers at home. Knowing the frequency and duration of magnifier use would be helpful to document increased magnifier use after successful rehabilitation training, or conversely, to know when someone has abandoned a magnifier and requires assistance. Estimote Sticker BLE beacon sensors were attached to the handles of optical handheld magnifiers and dispensed to eight LV subjects to use at home. Temperature and motion data from the BLE beacon sensors were collected every second by a custom mobile application on a nearby smartphone and transmitted to a secure database server. Subjects noted the date and start/end times of their magnifier use in a diary log. Each of the 99 diary-logged self-reports of magnifier use across subjects was associated with BLE beacon sensor recordings of motion (mean 407 instances; SD 365) and increased temperature (mean 0.20 °C per minute; SD 0.16 °C) (mean total magnitude 5.4 °C; SD 2.6 °C). Diary-logged duration of magnifier use (mean 42 min; SD 24) was significantly correlated with instances of motion (p < 0.001) and rate of temperature increase (p < 0.001) recorded by the BLE beacon sensors. The BLE beacon sensors reliably detected meaningfully increased temperature, coupled with numerous instances of motion, when magnifiers were used for typical reading tasks at home by people with LV.