Skip to main content


Home »

News

3 Ways Neuro-Optometry Can Help Stroke Survivors

3 Ways Neuro Optometry Can Help Stroke Survivors 640Approximately 15 million people around the globe suffer from a stroke each year. An alarming two-thirds of stroke survivors experience some degree of visual dysfunction after the incident.

These problems can range from irritating to debilitating and can seriously affect a person’s quality of life and ability to function.

Thankfully, there is hope for stroke survivors who suffer from stroke-related vision problems.

At Visualeyes Optometry, we are dedicated to helping post-stroke patients heal their visual system for long-lasting relief and a better quality of life.

Below, we’ll explore how a stroke can impact vision and what a neuro-optometrist can do to help.

What is a Stroke?

A stroke occurs when insufficient oxygen is delivered to the brain tissue, either due to leaking or bursting blood vessels, or a blockage within the blood vessel.

Serious brain damage can occur within minutes of a stroke, making early intervention crucial.

Signs of a stroke include:

  • Paralysis
  • Numb or weak limbs
  • Slurred speech
  • Confusion
  • Trouble walking
  • Dizziness or loss of coordination

Because a large portion of the brain is involved with vision, a stroke can also affect the eyes and visual processing.

How a Stroke Can Affect Vision

If a stroke occurs in the areas of the brain that control the eye, it can cause:

  • Blurred vision
  • Visual field loss
  • Double vision
  • Dry eye syndrome
  • Sensitivity to light
  • Nystagmus — rapid, uncontrolled eye movements

When a stroke affects the areas of the brain responsible for visual processing, it can cause:

  • Visual neglect — when the patient ignores stimuli from a portion of their visual field
  • Visual hallucinations
  • Poor depth and movement perception
  • Difficulty recognizing objects or people

3 Ways a Neuro-Optometrist Can Help Stroke Survivors

1. Identify and Diagnose Any Visual Dysfunction

A neuro-optometrist has the training and experience required to thoroughly identify, diagnose and treat even slight visual dysfunction that may be causing symptoms.

Your neuro-optometrist will perform a functional visual evaluation to assess neurological vision-related complications and identify the type of vision loss caused by the stroke.

 

2. Rehabilitate the Visual System

Neuro-optometric rehabilitation therapy includes visual exercises that retrain the brain and eyes to work together.

During a stroke, certain neural connections may become damaged. Neuro-optometric rehabilitation aims to restore those connections and heal the visual system for long-lasting results.

3. Prescribe the Correct Lenses or Prisms, As Needed

A neuro-optometrist can prescribe specialized lenses or prisms that aid in the therapeutic process. Prism lenses shift images into the functioning part of a patient’s visual field, or, in the case of double vision or visual neglect, unite the images the two eyes are sending to the brain. In some cases, prisms can instantly relieve symptoms like disorientation or double vision.

Some patients only visit an occupational therapist or physical therapist after a stroke—and while these therapies are often necessary and helpful, they cannot treat the visual system or prescribe prisms.

How We Can Help

Stroke survivors deserve the best in rehabilitative care. That’s why we are passionate about restoring their independence and offering relief from incapacitating visual symptoms.

Furthermore, neuro-optometric rehabilitation therapy offers the added benefit of diminishing vertigo and depression and increasing confidence levels.

If you or a loved one has suffered a stroke, we can help. To schedule your functional visual evaluation, contact Visualeyes Optometry today.

Visualeyes Optometry serves patients from Pleasanton, Livermore, Fremont, and San Ramon, all throughout California.

 

Frequently Asked Questions with Dr. Susan H Kim

Q: #1: Other than stroke patients, who can benefit from neuro-optometric rehabilitation therapy?

  • A: Neuro-optometric rehabilitation therapy can help any person suffering from visual dysfunction after a head injury, traumatic brain injury or stroke, or anyone with neurological conditions that impact their vision. If you experience any symptoms associated with visual dysfunction like dizziness, disorientation, headaches, nausea or difficulty concentrating— it may be time to visit your neuro-optometrist.

Q: #2: Can neuro-optometry help if the stroke occurred months or years ago?

  • A: The best time to start treatment is as soon as possible following a stroke or head injury, but treatment can also be effective years later. The basis of neuro-optometry is neuroplasticity—the brain’s ability to change and build new neural connections. As long as a person is alive, there is potential to heal their visual system.


Request A Visual Exam
Call Us 925-463-7330

3 Causes of Lazy Eye in Children

3 Causes of Lazy Eye in Children 640Amblyopia, commonly known as ‘lazy eye,’ is a neuro-developmental vision condition that begins in early childhood, usually before the age of 8.

Lazy eye develops when one eye is unable to achieve normal visual acuity, causing blurry vision in the affected eye—even when wearing glasses. Left untreated, amblyopia can lead to permanent vision loss in one eye.

It’s important to understand that a lazy eye isn’t actually lazy. Rather, the brain doesn’t process the visual signals from the ‘lazy’ eye. Eventually, the communication between the brain and the weaker eye deteriorates further, potentially leading to permanently reduced vision in that eye. Fortunately, vision therapy can improve the condition by training the brain to work with both eyes equally.

What Causes Lazy Eye?

When the neural connections between the eyes and the brain are healthy, each eye sends a visual signal to the brain. The brain combines these two signals into one clear image, allowing us to properly see what we are looking at.

In the case of amblyopia, the brain doesn’t recognize the weaker eye’s signals. Instead, it relies only on the visual input from the stronger eye.

Amblyopia can be caused by strabismus, anisometropia and deprivation.

Strabismus

Strabismus occurs when the eyes are misaligned and point in different directions. The most common cause of amblyopia is eye misalignment, which causes the brain to receive two images that cannot be combined into one single, clear image.

A child’s developing brain cannot process images when both eyes are not aligned in the same direction, so it ‘turns off’ the images sent by the weaker eye. This is the brain’s defense mechanism against confusion and double vision.

As the brain ‘turns off’ the weaker eye, this eye will eventually become ‘lazy’—unless treatment is provided.

Anisometropia

Anisometropia is when the refractive powers (visual acuity) of your eyes differ markedly, causing your eyes to focus unevenly – rendering the visual signal from one eye to be much clearer than the other. The brain is unable to reconcile the different images each eye sends and chooses to process the visual signal from the eye sending the clearer image. The brain begins to overlook the eye sending the blurrier image, further weakening the eye-brain connection of the weaker eye. If not treated, this results in permanent poor vision in that eye.

Deprivation

Deprivation refers to a blockage or cloudiness of the eye. When an eye becomes cloudy, it directly impacts the eyes’ ability to send a clear image to the retina, harming the child’s ability to see images clearly from that eye. When clear images can’t reach the retina, it causes poor vision in that eye, resulting in amblyopia. Deprivation is by far the most serious kind of amblyopia, but it is also incredibly rare.

There are several types of deprivation: cataracts, cloudy corneas, cloudy lenses and eyelid tumors. Each of these can affect a child’s vision, resulting in amblyopia. Because these are also difficult to notice from a child’s behavior, it’s crucial to have your child tested for eye-related problems so that treatment can begin right away.

How To Treat Amblyopia

The goal of most amblyopia treatments is to naturally strengthen the weaker eye so that your child’s eyes can work and team with the brain more effectively. Amblyopia treatment will be determined by the cause and severity of their condition.

Common types of treatment include:

  • Corrective eyewear
  • Eye drops
  • Patching
  • Vision Therapy

Vision Therapy

Vision therapy is the most effective treatment for amblyopia, which may be used in conjunction with other treatments.

A vision therapy program is customized to the specific needs of the patient. It may include the use of lenses, prisms, filters, occluders, and other specialized equipment designed to actively make the lazy eye work to develop stronger communication between the eye and the brain.

Vision therapy is highly successful for the improvement of binocular vision, visual acuity, visual processing abilities, depth perception and reading fluency.

Vision therapy programs for amblyopia may include eye exercises to improve these visual skills:

  • Accommodation (focusing)
  • Binocular vision (the eyes working together)
  • Fixation (visual gaze)
  • Pursuits (eye-tracking)
  • Saccades (eye jumps)
  • Spatial skills (eye-hand coordination)
  • Stereopsis (3-D vision)

Contact Visualeyes Optometry to make an appointment and discover how vision therapy can help improve your child’s vision. Our eye doctor will ask about your child’s vision history, conduct a thorough evaluation, and take your child on the path to effective and lasting treatment.

Frequently Asked Questions with Dr. Susan H Kim

Q: How do I know if my child has lazy eye?

  • A: It’s difficult to recognize lazy eye because the condition usually develops in one eye, and may not present with a noticeable eye turn. As such, children generally learn how to ignore the lazy eye and compensate by mainly relying on the sight from the ‘good’ eye. Some symptoms of lazy eye include:
  • – Closing one eye or squinting
    – Difficulty with fine eye movements
    – Poor depth perception
    – Poor eye-hand coordination
    – Reduced reading speed and comprehension
    – Rubbing eyes often

Q: How is lazy eye diagnosed?

  • A: Your child’s eye doctor will conduct specific tests during their eye exam, to assess the visual acuity, depth perception and visual skills of each eye.


Visualeyes Optometry serves patients from Pleasanton, Livermore, Fremont, and San Ramon, all throughout California.

Request A Visual Exam
Call Us 925-463-7330

Looking To Improve Your Athletic Performance This Summer?

Looking To Improve Your Sports Performance This Summer 640It’s finally summer—and there’s no better time to play outdoor sports! But if you’re like many of us, you may be a little rusty from the long winter months. While physical training is important to get back into gear, sports vision training can take you a step further by helping you hone the visual skills you need to excel at your chosen sport.

Sports vision training is a personalized program that helps professional and amateur athletes improve the way their eyes, brain and body interact. The quicker the brain processes the messages the eyes send, the better the performance.

Benefits of Sports Vision Training

Strong, well-developed visual skills can help you improve your ability to hit a tennis ball or perform the perfect dive in the swimming pool.

Sharpening your tracking, depth perception, focusing and peripheral awareness skills will help determine the proximity of the water from the diving board or the distance between a baseball and your bat. It should come as no surprise that vision training helps athletes improve their performance in just about any sport.

Sports vision training helps develop the following visual skills:

  • Balance – the ability to stay in control of body movement. A surfer, for example, must be able to stand on the board without falling off, all while riding a wave.
  • Eye Tracking – the ability to “keep your eye on the ball.”
  • Focusing – the ability to rapidly change focus from one object to another efficiently and quickly. For example, in baseball, a player needs to be able to focus on the ball while running.
  • Eye-Hand or Eye-Body Coordination – the ability to use your eyes to direct the movements of your hands and body. In tennis, for instance, a player must be able to move his or her body and hands while tracking the ball.
  • Peripheral Awareness – seeing things or people, such as opposing players, out of the corner of your eye.
  • Depth Perception – the capacity to evaluate an object’s speed and distance accurately and quickly. For example, a diver must accurately evaluate the distance from the edge of the pool in order to dive safely.
  • Contrast Sensitivity – the ability to distinguish between an object and its background, such as a baseball against the sky.
  • Dynamic Visual Acuity – the ability to clearly see objects in motion.
  • Reaction Time – the faster you see it, the faster you react and the faster you move.

During a comprehensive eye exam, your eye doctor will assess your visual skills in various areas to determine which ones need to be improved. Once assessed, you’ll receive a personalized program to boost and expand your visual skills in those areas.

To learn more about sports vision training, contact Visualeyes Optometry today!

Visualeyes Optometry serves patients from Pleasanton, Livermore, Fremont and San Ramon, all throughout California.

Frequently Asked Questions with Dr. Susan H Kim

Q: What is sports vision training?

  • A: Sports vision training is a customized program that improves coordination between your eyes, brain, and body when playing sports. Sports vision training helps athletes process information and then react faster and more accurately to what they see on the field or in the water.

Q: Who can benefit from sports vision training?

  • A: Whether for surfing, playing baseball, or biking, sports vision training benefits people of any age or level seeking to take their performance to the next level.


Why Does Outdoor Time Delay Or Prevent Myopia?

outdoor children 640Now that myopia (nearsightedness) is reaching epidemic proportions across the globe, it’s all the more important for parents to understand how myopia can impact their child’s future, and learn which actions they should take to protect their child’s eye health in the long run.

You see, myopia isn’t simply an inconvenience. Childhood myopia raises the risk of developing vision-robbing diseases like macular degeneration, cataracts, glaucoma, retinal detachment and diabetic retinopathy later in life.

Myopia develops as the eye elongates more than it should, causing light to focus in front of the retina instead of directly on it. This manifests as blurred distance vision and clear near vision.

While myopia is caused by a combination of circumstances, including genetic and environmental, a key factor comes down to the amount of time a child spends outdoors in the sunlight.

How Does Outdoor Play Affect Myopia?

Although researchers haven’t yet pinpointed exactly why “sun time” prevents or delays myopia, almost all agree that it plays a large role.

One possible reason is correlated to the brightness of the sun. Some experts have found that the intensity of the sun’s rays triggers a dopamine release in the retina which is thought to slow down the elongation of the eye.

Another theory holds that outdoor time encourages a child to shift their gaze from near objects to faraway ones. Excessive near work, like staring at a digital screen, is believed to be a driving force behind the stark increase in myopic individuals today.

Sending a child outdoors to play gives their eyes a break from focusing on their tablets, smartphones, homework, gaming and other near work.

Additionally, spending more time in the sunshine means more Vitamin-D production. Small-scale studies have found nearsighted people have lower levels of Vitamin D than those with normal eyesight. However, more research is needed to confirm this theory.

Here’s the Bottom Line

Childhood myopia increases the risk of developing sight-threatening eye diseases later in life. Parents should be proactive about their child’s eye health and do what they can to prevent myopia from developing or progressing at a rapid rate.

Even if your child doesn’t have myopia, encouraging them to play outdoors for several hours a day has been found to prevent the onset of myopia in certain instances.

So go ahead and give your child a water bottle, sunscreen, a pair of sunglasses—and send them out to play! Children aged 6 and up should spend about 2 hours daily outside in the sunshine.

But sun time alone isn’t enough to ensure the best possible outcome for their eye health. A myopia management program can help give your child the best odds of healthy vision for a lifetime.

To learn more about the myopia treatments we offer and schedule your child’s myopia consultation, call Visualeyes Optometry today!


Frequently Asked Questions with Dr. Susan H Kim

Q: #1: What is myopia management?

  • A: Myopia management is the science-based method used to slow or halt the progression of myopia. There are several options available, and your optometrist will sit down with you and your child to discuss which treatment option is most suitable for your child’s needs.

Q: #2: Who can benefit from myopia management?

  • A: Myopia management treatments have been approved for children as young as 8 and can be used until early adulthood. Myopia management is great for children with low myopia but can also be effective for slowing myopia progression in kids and teens with moderate to high myopia. Contact us to find out whether your child is a candidate for myopia management.

Visualeyes Optometry serves patients from Pleasanton, Livermore, Fremont and San Ramon, all throughout California.

 

Sports Vision Training Can Help Prevent Scooter Accidents

E Scooter Riders 640When riding an electric scooter, you need to be able to focus on the road, while avoiding cars, pedestrians, and other potential obstacles. It may sound simple, but not everyone has the visual skills needed to focus, scan the surroundings and react in a split-second to an oncoming car or a child who’s run into the street.

At Visualeyes Optometry, we offer sports vision training, which helps improve visual skills by training the brain to process and respond quickly and efficiently to visual input. This can, in turn, prevent you from getting into an accident.

E-Scooter Riders Need Top-Notch Visual Skills

To stay safe on the road, drivers, motorcyclists, and e-scooter drivers need to have remarkable visual skills, where the ability to focus, track fast-moving objects and react quickly can mean the difference between staying safe and incurring an injury.

Even the smallest increase in processing ability, reaction time and resilience can help prevent injury to yourself and others.

The Visual Skills Needed to Safely Ride an E-Scooter

Improve critical vision skills, such as peripheral awareness, depth perception and eye focusing, with sports vision training, a customized program that improves the communication between your eyes, brain, and body.

1. Peripheral Awareness

Peripheral vision, also known as peripheral awareness, enables us to detect and see things that aren’t right in front of us when looking straight ahead. A well-developed peripheral field helps riders spot people and objects and sense the flow of the road as it changes.

2. Depth Perception

Depth perception is the ability to see in three dimensions and judge the distance between objects or people and yourself.

Those with good depth perception have an easier time accurately tracking any object as it approaches because they can perfectly see where it is in space. This enables one to make split-second decisions about when to swerve or stop to avoid coming in contact with everything from a car to a trash can.

3. Accommodation and Convergence

Accommodation, also known as focus flexibility, is the eyes’ ability to change focus immediately. Convergence is the ability to keep both eyes working in unison as they track people or objects, such as a bus on the road.

Enhancing these eye-focusing skills can boost your ability to concentrate and refocus your vision quickly and more accurately so that you process moving objects quickly.

Want to strengthen your visual skills? Contact our eye doctors today!

Visualeyes Optometry serves patients from Pleasanton, Livermore, Fremont, and San Ramon, all throughout California.

Frequently Asked Questions with Dr. Susan H Kim

Q: What is sports vision training?

  • A: Sports vision training is made of individually prescribed and monitored exercises aimed at developing specific visual skills and processing. These various customized activities and exercises retrain the brain to effectively interact with the eyes and improve vision functioning. This therapy consists of weekly in-office appointments and assigned daily exercises, ranging from several weeks to several months. The training involves close monitoring and follow-up appointments to ensure steady improvements in the patient’s visual functions.

Q: Who can benefit from sports vision training?

  • A: Whether you play hockey or baseball or ride an e-scooter, sports vision training is perfect for anyone of any age and ability seeking to take their performance to the next level.


5 Vision Therapy Myths Debunked

5 Vision Therapy Myths 640There’s a lot of misinformation out there, especially when it comes to vision therapy — a customized program that trains the eyes and brain to work together more effectively and efficiently.

We are here to dispel those myths.

5 Myths and Facts about Vision Therapy

1. Myth: Vision therapy is just for children

Fact: People of all ages can benefit from vision therapy.

Although vision therapy is widely prescribed for younger patients, many adults have benefited from a personalized vision therapy program. That’s because the basis of vision therapy is neuroplasticity — the brain’s ability to change and learn new habits.

Your brain is capable of forming new neural pathways throughout your entire life, so vision therapy can be effective at any age.

2. Myth: Vision therapy isn’t based on scientific research

Fact: There are numerous scientific studies that prove the effectiveness of vision therapy, funded and published by the National Eye Institute (NEI).

In fact, according to several studies, vision therapy is the most effective treatment for the most common binocular vision problem, convergence insufficiency. Research also supports the efficacy of vision therapy when it comes to lazy eye (amblyopia), eye turn (strabismus), and difficulties related to reading and learning.

3. Myth: All vision therapy is the same

Fact: No two vision therapy treatments are alike. Each patient’s condition is unique and is treated accordingly.

Vision therapists use a host of different exercises, devices, computer programs, lenses, prisms, and other equipment for treatment. Your optometrist will decide which options will benefit your condition.

4. Myth: Eye surgery is the only option for treating eye misalignment

Fact: While surgery may help the eyes appear more aligned, it can’t fully improve binocular function.

In other words, surgery corrects the physical problem of alignment but doesn’t teach the eyes and brain to work together. That’s why vision therapy is often recommended for patients who have had strabismus surgery or are considering it.

5. Myth: I don’t need vision therapy, I have 20/20 eyesight

Fact: Vision therapy has little to do with eyesight, and everything to do with how your eyes function.

Even a person with 20/20 eyesight can have poor tracking skills, eye movement skills, depth perception, and other visual deficits.

In fact, you may have poor visual skills and not even know it. If you experience symptoms like headaches, dizziness, nausea, eyestrain, or difficulty with concentrating and reading, it may be time to have your vision evaluated by a vision therapist to identify any underlying problems related to your visual skills.

To schedule a functional vision evaluation for you or your child, call Visualeyes Optometry today!

Visualeyes Optometry serves patients from Pleasanton, Livermore, Fremont, San Ramon, and throughout California.

Frequently Asked Questions with Dr. Susan H Kim

Q: #1: What is vision therapy?

  • A: Vision therapy is a program of [curtomized] eye exercises that are performed in-office with an at-home component as well. Vision therapy helps develop the visual system and trains the eyes and brain to work in unison. Duration of treatment varies from patient to patient, as each person responds differently. Speak to us to learn more about what we offer and how we can help.

Q:#2: Is vision therapy covered by insurance?

  • A: Vision therapy may be covered under major medical insurance plans (vision therapy is most often applied to a medical policy as opposed to a vision policy). However, certain insurance companies may deny or place severe limits on coverage for vision therapy as a cost-saving measure. When sorting out the insurance details for vision therapy, it’s important to know what questions to ask of your insurance agent or workplace HR department.


Request A Visual Exam
Call Us 925-463-7330

4 Ways Vision May Be Affected Following A Stroke

headache womanAbout 2 in 3 stroke survivors live with some degree of visual dysfunction following the stroke. Although all brains are different and everybody reacts differently, 4 major categories of vision loss can be caused by a stroke.

A stroke can damage any segment of the neural pathway that connects the eyes to the brain or a section of the brain that processes the images the eyes send it. Damage to either area can lead to vision loss.

Stroke-related vision problems can make daily living a challenge, but there is hope for stroke survivors who suffer from visual symptoms.

In honor of World Stroke Awareness Month, we’ll explore 4 types of stroke-related visual problems, and how Visualeyes Optometry can help.

1. Visual Field Loss

A stroke can damage certain areas of the brain responsible for either central or peripheral vision, causing a portion of the visual field to be lost, causing vision to be ‘blacked-out’ or have ‘blind spots.’

In most cases, the same area of the visual field is lost in both eyes. This condition is called homonymous visual field loss, meaning a person may not be able to see the right or left side of their visual field from each eye.

Affected individuals may have difficulty with reading and may bump into things located in their blind spots.

2. Visual Processing Difficulties

Sometimes, a person may be able to see everything in their visual field but will have problems processing that visual information. For example, they may have the ability to see another person’s face, but might not recognize it. They may also have difficulty identifying or interacting with common objects, affecting daily tasks such as making a cup of coffee.

Visual neglect is the most common type of visual processing problem. People with this condition aren’t aware that they aren’t seeing people or objects on the right or left side of their visual field.

3. Eye Movement Problems

A stroke can damage the delicate nerves that control the eyes’ movements. A person who cannot control their eye nerves may have difficulty moving their eyes in order to shift their focus from one object to the next or have trouble tracking moving objects.

Nystagmus (involuntary and rapid eye movements) is also a possible complication of ocular nerve damage.

If only one eye is affected, the patient will usually experience double or blurred vision. Whether one or both eyes are affected, poor depth perception can result from eye movement dysfunction.

4. Dry Eye Syndrome

Stroke-related muscle weakness is common, especially in the eyes and face. If this occurs, the eyelids may not be able to fully close during blinking or while asleep. This can lead to dry eye syndrome, causing symptoms like red, itchy, watery, burning eyes and light sensitivity.

Fortunately, many of these post-stroke visual symptoms are treatable with neuro-optometric rehabilitation therapy.

A customized neuro-optometric rehabilitation therapy program can help you return to your normal routine, or at least make daily life less challenging.

If you or a loved one have suffered a stroke, speak with Dr. Susan H Kim about getting your vision evaluated to identify deficiencies in the visual system. If a problem is found, we’ll help guide you through all of your treatment options for the best possible outcome.

To schedule your appointment or to learn more about what we offer, call Visualeyes Optometry today.

serves patients from Pleasanton, Livermore, Fremont, San Ramon, and throughout California.

Frequently Asked Questions with Dr. Susan H Kim

Q: #1: What is neuro-optometric rehabilitation therapy?

  • A: Neuro-optometric rehabilitation therapy is a tailor-made program of visual exercises that train the eyes and brain to work together. Treatment can also include specialized lenses, prisms, and filters.

Q: #2: What other conditions can neuro-optometric rehabilitation treat?

  • A: Neuro-optometry can help patients with visual problems due to traumatic brain injury, stroke, physical disabilities and neurological conditions. A neuro-optometrist can help treat binocular vision disorders (BVD), strabismus, diplopia, oculomotor dysfunction, accommodation and convergence problems, and traumatic visual acuity loss.


Request A Visual Exam
Call Us 925-463-7330

Boys With ADHD Are at Higher Risk for Brain Injury & Vision Problems

brother and sister 640Studies show that traumatic brain injuries (TBI) occur in approximately 17% of males worldwide.

To determine whether there is a link between inattention-hyperactivity and TBIs, The Canadian Journal of Psychiatry [analyzed] data from 724 Canadian males aged 6-34. They collected information, examined health files and administered a questionnaire to the participants’ teachers on classroom behavior.

This study is the first to show that childhood behaviors, such as inattention-hyperactivity, predicted TBIs. The study also found that boys having sustained a TBI in childhood were more likely to have another one in adolescence.

In addition to headaches, dizziness, nausea and vomiting, TBIs can also impair one’s visual function, typically causing headaches, blurred and double vision, and dizziness, among other symptoms.

At Visualeyes Optometry, we help patients recover their vision through neuro-optometric rehabilitation therapy. By performing specific eye-training exercises designed to retrain the neural processes of the brain. This rewires the brain (neuroplasticity) and treats discomforts or struggles associated with visual dysfunction following a brain injury.

What Is a TBI and How Can It Affect Vision?

Traumatic brain injury is a disruption in the normal function of the brain caused by a jolt, blow, or bump to the head, or harsh head injury, whether from a sports-related injury, fall, or car accident.

This can significantly impact the functioning of the visual system. While certain brain injuries may cause permanent damage to the optic nerve, it’s more common for it to disrupt communication between the eyes and brain.

Post TBI visual problems may include:

  • Double vision
  • Dizziness
  • Headaches
  • Focusing problems
  • Problems with walking and stride

Why Do Boys with Inattention & Hyperactivity Incur More Head Injuries Than Others?

While there’s still a lot we don’t know about the link between Attention Deficit Hyperactivity Disorder (ADHD) and concussion, research shows a few connections.

Children and adults with ADHD tend to have poor impulse control, inattention, difficulty maintaining attention, and high energy levels, all of which places them at risk of getting a concussion.

Additionally, many children diagnosed with ADHD are encouraged to participate in sports to help with social interaction, self-esteem and hyperactivity. While this is beneficial on many levels, if they have poor visual-motor speed, or depth perception they’re more likely to collide with teammates, potentially causing a concussion.

Lastly, research also suggests that ADHD may involve problems with visual or auditory processing that may also contribute to the risk of concussion.

How a Neuro-Optometrist Can Help

Neuro-optometrists offer a customized treatment regimen for people with visual deficits resulting from traumatic brain injuries (TBI). It addresses problems related to eye teaming, tracking, and focusing that can make it difficult to read and complete tasks. By training the brain to communicate with the eyes more effectively, symptoms like dizziness and headaches can be significantly reduced or disappear altogether.

If your child exhibits ADHD behaviors and has experienced a concussion contact Visualeyes Optometry for a comprehensive eye exam. If vision problems are detected, we’ll offer a personalized treatment program to strengthen any lagging visual skills that may be getting in the way of your child’s quality of life.

Frequently Asked Questions with Dr. Susan H Kim

 

Q: What Is Neuro-Optometric Rehabilitation?

  • A: Neuro-Optometric Rehabilitation provides a personalized treatment regimen for those who have visual deficits caused by physical disabilities, traumatic brain injuries, and other neurological insults. Neuro-optometry makes use of therapeutic prisms, lenses, filters, and specific vision therapy techniques to reteach the damaged parts of the brain to function better.

Q: How Are Vision Problems Found After a TBI?

  • A: Visual aberrations following a brain injury tend to be overlooked during the initial treatment, as the patient may have serious, life-threatening issues that require urgent medical attention. Furthermore, symptoms may not even present themselves until some time has passed following the injury. The earlier you see a Neuro-Optometric Rehabilitation Optometrist, the better.Early diagnosis leads to more efficient treatment.


Request A Visual Exam
Call Us 925-463-7330

Sports Eye Safety Month – How to Prevent Sports Injuries

skateboard 640Sporting goods stores are full of gear that protects wrists, knees, heads and shins from the impact of a fast-moving ball or a spill from a skateboard.

Unfortunately, many athletes forget that their eyes are just as vulnerable to sports injuries.

Approximately 40,000 sports-related eye injuries occur every year, and many result in permanent vision loss.

The good news is that up to 90% of sports-related eye injuries are preventable if an athlete wears the correct protective eyewear.

At Visualeyes Optometry we can help you minimize your risk of incurring an eye injury by helping you choose the proper protective eyewear and improving your visual skills.

What is Protective Eyewear?

Protective eyewear is made of ultra-strong polycarbonate, which is very impact-resistant and also protects eyes from UV rays.

There are a variety of different types of protective eyewear for sports: face guards or masks, safety goggles and special eyewear designed for specific sports.

Your optometrist can provide protective eyewear with your prescription, or safety goggles that can be worn over your regular prescription glasses or contacts.

When Do I Need To Use Protective Eyewear?

Everyone, kids included, needs to use protective eyewear whenever practicing or playing a sport that comes with a risk of eye injury.

Some sports with a high risk of eye injury include:

  • Basketball
  • Boxing
  • Wrestling
  • Martial arts
  • Fencing
  • Hockey
  • Baseball and softball
  • Squash
  • Shooting
  • Archery

Other sports with a moderate risk of eye injury include:

  • Golf
  • Soccer
  • Tennis
  • Gymnastics
  • Skiing

All sports, whether they put your eyes at high or low risk of injury, require some type of protective eyewear.

Preventing Sports Injuries with Sports Vision Training

Another effective way to prevent sports-related injuries — and not just eye injuries — is sports vision training. A customized program of eye exercises, sports vision training hones the visual skills needed to play a specific sport. This program teaches the eyes and brain to work together more efficiently and process information faster during a game or race, preventing injuries as a result.

Take peripheral vision as an example. Subpar peripheral vision makes it difficult for athletes to see players or a ball coming toward them from the side. Good peripheral vision lowers the risk of collisions and reduces the likelihood of injury while improving athletic performance.

Whether you play basketball, baseball or tennis, peripheral vision provides athletes with a wide view of the people and objects around them, beyond their central vision.

Studies have shown that football players who participated in a sports vision program sustained fewer concussions. Vision therapy can also help athletes improve their reaction time, processing speed and hand-eye coordination.

At Visualeyes Optometry, we offer safety eyewear and sports vision training to reduce your risk of injury and improve your vision. We treat any vision-related conditions you may have, so contact us to schedule an evaluation.

Visualeyes Optometry serves patients from Pleasanton, Livermore, Fremont, and San Ramon, all throughout California.

Q&A

 

Q: What is sports vision training?

  • A: Sports vision training is an individualized program that consists of a variety of exercises designed to improve and treat visual function.

Q: Should I or my child wear protective eyewear even if we don’t wear prescription glasses?

  • A: Yes! The American Academy of Ophthalmology recommends wearing protective eyewear for any sport where eye injuries can occur, even for athletes who don’t wear glasses or contacts. Studies show that protective eyewear does not affect a player’s sight and that some athletes play better because they are less afraid of suffering a serious eye injury.


Why Bother With Myopia Control?

Boy Trouble LearningMyopia control is a hot topic these days — and for good reason. More and more parents are providing their nearsighted children with myopia control treatments in hopes of slowing down the rapid progression of this very common refractive error.

Is myopia control worth all the effort? Why not just get new glasses every time your child needs a higher prescription? Is childhood myopia really that big of a deal?

Below, we’ll answer these important questions so you can make informed decisions and feel confident about your choices. If your child has myopia, contact Visualeyes Optometry to learn more about how we can help.

Myopia Is Not Harmless

Myopia is far more than just blurry distance vision. What many don’t realize is that it can seriously impact a child’s long-term eye health.

A child with myopia is significantly more likely to develop sight-threatening diseases, such as glaucoma, cataracts, retinal detachment, and macular degeneration, later in life.

Because the cause of myopia is an elongated eye, the stretching of the eye takes a toll on the retina (the light-sensitive lining at the back of the eye). Over time, the stressed retina is more prone to damage and tearing.

Your Child’s Lens Prescription Matters

Suppose your child’s lens prescription is -3.00D (mild to moderate myopia). Although you may think that it’s too late for myopia control at this point, research suggests otherwise.

The level of myopia a child has is directly correlated to their risk of eye disease — the higher the myopia, the greater the risk.

A child with myopia that’s between -0.75D and -3.00 is more than 3 times more likely to develop retinal detachment in the future. That number triples for individuals with high myopia (-5.00 and above).

The risk of myopic maculopathy is also influenced by the level of a child’s nearsightedness. Children under -5.00 have just a 0.42% of developing this serious eye condition, but anything above -5.00? That risk level leaps to 25.3%.

Slowing down or stopping your child’s eyesight from worsening will greatly increase their chances of having a healthy vision in adulthood. Halting myopia as early as possible renders the best outcome.

Myopia Is On The Rise

This is the time to act. With myopia cases escalating exponentially, it’s expected that about half of the world’s population will be nearsighted by 2050, and about 10% of those individuals will have high myopia.

Offering your child myopia control now can potentially prevent them from being part of that 10% in 2050.

If your child has myopia or is at risk of developing it, we can help! To schedule your child’s myopia consultation, contact Visualeyes Optometry today.

Q&A

 

Q: #1: How do I know if my child is at risk of developing myopia?

  • A: If one or both parents have myopia, a child is predisposed to becoming nearsighted. Other factors that influence myopia include excess screen time, not enough time spent in the sunlight, and being of a certain ethnicity (people of Asian or Pacific Islander descent have the highest risk).

Q: #2: What treatments are used for myopia control?

  • A: The 3 main treatments are atropine eye drops, orthokeratology (Ortho-k) contact lenses, and multifocal contact lenses. Your optometrist will help you decide which method best suits your child’s eyes and lifestyle.

 

Visualeyes Optometry serves patients from Pleasanton, Livermore, Fremont, and San Ramon, all throughout California.