Discover Our Clinic, Team, and Hearing Solutions

Novasound Video Gallery

Step into Novasound Hearing & Balance through our gallery. Here you’ll find photos of our welcoming clinic, the advanced technology we use, and the dedicated team behind your care. From hearing aids and implants to balance testing and patient experiences, our gallery showcases how we help people reconnect with the sounds of life.

Disclaimer: This content is intended for educational purposes only and does not constitute professional advice or replace an individualized assessment by a regulated healthcare provider. Techniques or strategies shown may not be appropriate for everyone and should not be attempted without professional guidance.

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Hearing Science & Disorders

Kid-friendly animation explaining each main part of the ear
Shows how sound waves travel through the ear canal to the eardrum
Explains how the tiny middle-ear bones and cochlea turn vibration into signals
Teaches children why healthy ears and protection from loud noise are important
Describes how the hearing nerve sends messages to the brain

Explains how loud sounds damage the tiny hair cells inside the cochlea
Shows close-up animation of hair cells bending and breaking with noise exposure
Describes how repeated loud noise leads to permanent hearing loss over time
Links noise damage to symptoms like muffled hearing and tinnitus (ringing)

Explains how sound waves enter the ear and travel to the cochlea
Shows how tiny hair cells convert vibration into electrical signals
Follows these signals along the auditory nerve toward the brain
Illustrates how the brain turns these signals into meaningful “sound”
Highlights how healthy ears and brain pathways work together for clear hearing

Explains how sound waves travel from the ear to the brain
Describes the role of the ear, cochlea, and auditory nerve in hearing
Shows how vibrations are converted into electrical signals
Explains how the brain interprets sound pitch, volume, and direction
Illustrates the complex coordination between ear structures and the brain
Reinforces why healthy hearing pathways are essential for communication

Explains the main types of hearing loss and how they differ
Describes conductive, sensorineural, and mixed hearing loss
Shows where each type affects the ear or auditory pathway
Explains common causes linked to each type of hearing loss
Highlights how different types impact hearing and communication
Reinforces the importance of proper diagnosis and treatment options

Explains how sound waves travel through the outer ear and ear canal
Shows how the eardrum and middle-ear bones vibrate with sound
Demonstrates how the cochlea and tiny hair cells respond to vibrations
Describes how signals travel along the auditory nerve to the brain
inks each step to what we actually “hear” in everyday life

The outer ear catches sound waves and directs them through the ear canal to the eardrum.
The eardrum vibrates and passes these vibrations to three tiny bones in the middle ear.
The middle ear bones amplify the vibrations and send them into the fluid-filled cochlea in the inner ear.
Inside the cochlea, moving fluid stimulates hair cells that convert these vibrations into electrical signals.

Occurs in the inner ear (cochlea) when delicate hair cells are damaged or missing
The cochlea’s tiny hair cells normally convert sound vibrations into nerve signals for the brain.
If these hair cells are damaged, sound signals can’t be properly sent to the brain, causing hearing loss
Common causes include exposure to loud noise, aging, or genetic factors that damage the inner ear’s hair cells
This type of hearing loss is often permanent, once hair cells die, they do not grow back

Describes otosclerosis as abnormal bone growth in the middle ear
Explains how it affects the movement of the stapes bone, leading to hearing loss
Highlights common symptoms like gradual hearing loss and ringing in the ears
Identifies risk factors including genetics and age
Covers diagnostic methods and treatment options, including surgery and hearing aids
Helps viewers understand this specific cause of conductive hearing loss

Explains earache as pain caused by inflammation or pressure in the ear
Highlights common causes like infections, allergies, or earwax buildup
Describes how fluid in the middle ear can create discomfort and hearing difficulty
Mentions referred pain from jaw or throat issues as possible triggers
Outlines treatment options, from home care to medical intervention
Helps viewers understand when to seek help for persistent or severe ear pain

Introduces the key parts of the outer ear, including the pinna and ear canal
Explains how the pinna helps collect and direct sound waves into the ear
Highlights the role of the ear canal in guiding sound to the eardrum
Shows how the external ear contributes to sound direction and amplification
Describes the outer ear’s protection against dust, debris, and infection
Useful for understanding the ear’s first step in the hearing process

Explains acute otitis media as a common middle ear infection
Highlights typical symptoms like ear pain, fever, and hearing loss
Shows how fluid and inflammation build up behind the eardrum
Discusses causes including bacteria, viruses, and upper respiratory infections
Covers treatment options such as pain relief and, if needed, antibiotics
Often affects children but can occur at any age

Earwax Services

Explains how special glands in the ear canal produce earwax (cerumen)
Shows how earwax protects the skin and traps dust, germs, and debris
Describes how jaw movement and skin migration naturally move wax outward
Illustrates what happens when wax builds up and becomes impacted
Reviews safe removal options used in clinic and why cotton buds/Q-tips are not recommended

Explains the different earwax colors and textures and what they may indicate
Describes normal earwax types found in children and adults
Shows how wet, dry, light, or dark earwax forms naturally
Explains how stress, sweating, and genetics can affect earwax production
Highlights warning signs such as bloody or unusual earwax that require medical attention

Explains why chronic itchy ears are a common ENT concern
Identifies the most common medical causes of ear canal itching
Describes how dry skin, irritation, or infection can trigger symptoms
Explains why itching may occur without pain or hearing loss
Highlights when persistent itching should be assessed by a professional
Reviews simple and effective treatment options for itchy ears

Explains where earwax is produced inside the ear canal
Describes the role of glands and skin cells in earwax formation
Shows why earwax is a normal and protective substance
Explains how earwax naturally moves outward over time
Illustrates what happens when this natural process is disrupted
Reinforces safe ear care and when professional removal may be needed

Explains what earwax is and why the body produces it
Describes the protective role earwax plays in ear health
Clarifies common myths about earwax and cleanliness
Explains when earwax should be left alone versus removed
Highlights risks of improper ear cleaning methods
Reinforces when professional earwax removal is recommended

Explains that earwax (cerumen) is a natural and protective substance
Describes how it traps dust, debris, and bacteria to protect the ear
Highlights that most earwax moves out naturally without needing removal
Warns against using cotton swabs, which can push wax deeper
Suggests when earwax removal is safe and medically necessary
Encourages seeing a healthcare provider if buildup causes blockage or discomfort

Introduces different types of hearing aids and their basic components
Explains how microphones pick up sounds and convert them into digital signals
Describes how amplifiers boost the signals based on hearing needs
Demonstrates how speakers (receivers) send the processed sound into the ear
Highlights features like noise reduction and feedback cancellation
Helps viewers understand how hearing aids improve speech clarity in daily life

Uses kid-friendly animation to explain how hearing aids help with hearing loss
Breaks down the parts of a hearing aid: microphone, amplifier, and speaker
Shows how sound is collected, processed, and delivered into the ear
Emphasizes how hearing aids make sounds clearer, not just louder
Encourages young viewers to feel confident using hearing devices
Great educational tool for children, parents, and classrooms

Explains how hearing aids improve everyday communication
Describes the benefits of better hearing for social interaction
Shows how hearing aids reduce listening effort and fatigue
Highlights the impact of hearing aids on brain health and focus
Explains how improved hearing supports safety and awareness
Encourages early use of hearing aids for better long-term outcomes

Explains how modern hearing aids use AI to adapt to different sound environments
Shows how AI distinguishes between background noise and speech
Highlights automatic adjustments for better clarity in real-time
Discusses personalized hearing experiences based on user habits
Demonstrates smarter sound filtering in crowded or quiet settings
Great overview of advanced tech in next-generation hearing aids

Explains how cochlear implants work to restore hearing
Converts waves into electrical signals sent to the auditory nerve
Suitable for people with severe or profound hearing loss
Demonstrates how internal & external components function together
Helps improve speech understanding and awareness of sound

Covers the eligibility criteria for cochlear implantation
Suitable for adults and children with limited benefit from hearing aids
Discusses hearing assessments and medical evaluations required
Highlights realistic expectations and potential hearing improvement
Explains post-surgery support and rehabilitation process

Hearing Devices

Tinnitus Education

Explains what tinnitus is and why the brain perceives ringing or buzzing sounds
Describes how hearing loss and damaged hair cells in the inner ear can trigger tinnitus
Shows how the brain’s auditory and emotional centers process phantom sounds
Highlights common causes such as loud noise exposure, aging, or ear infections
Discusses available treatments and coping strategies to manage tinnitus symptoms

3D animation walking through the outer, middle, and inner ear
Shows how sound vibrations move the eardrum and tiny middle-ear bones
Explains how damaged hair cells in the cochlea can trigger tinnitus signals
Follows these signals along the auditory nerve into the brain
Illustrates how the brain misreads this activity as ringing or buzzing
Helps patients understand why tinnitus can continue even in a quiet room

Auditory Processing Disorder (APD)

Explains what Auditory Processing Disorder is and how it affects listening
Describes why hearing tests may appear normal in individuals with APD
Shows common signs such as difficulty understanding speech in noise
Explains how the brain processes sound differently in APD
Highlights how APD can impact learning, communication, and daily life
Emphasizes the importance of proper assessment and targeted support

Explains what sensory overload is and how it affects the brain
Describes how sound, light, and movement can become overwhelming
Shows common symptoms such as stress, anxiety, and difficulty focusing
Explains why sensory overload is often linked with APD and neurodiversity
Emphasizes coping strategies and the importance of professional support

Defines CAPD as a neurological processing disorder affecting how the brain interprets spoken language (affecting about 5% of people)
Notes that people with CAPD have normal hearing but struggle to understand speech, especially in noisy environments
Points out that individuals often say they hear normally but still misunderstand words or hear extra letters, which changes sentence meaning

Defines APD as a disorder where the brain has trouble processing sounds correctly
Emphasizes that hearing may be normal, but understanding is affected
Notes common challenges like following conversations, especially in noisy settings
Describes how APD can affect children’s learning, reading, and communication
Lists common signs such as needing repetition, slow responses, or poor listening skills
Encourages early evaluation by audiologists for proper diagnosis and support

Vertigo & Balance Disorders

Spinning or rocking feeling while still
Caused by inner ear or brain problems
Common causes: BPPV, Meniere’s, neuritis, labyrinthitis
Tiny crystals in the ear can shift out of place
Simple head maneuvers can reduce symptoms

Epley Maneuver, guided head exercise for BPPV
Helps small inner-ear crystals move back into their proper position
Effective for posterior canal BPPV
Dix-Hallpike test confirms which side is affected
Provides quick relief from dizziness

Epley Maneuver proven treatment for vertigo
Repositions displaced ear crystals safely
Restores normal balance signals to the brain
Step-by-step head and body moves are shown
Relief is fast, safe, and long lasting

Explains the vestibular system inside the inner ear
Shows how semicircular canals and otolith organs detect movement
Demonstrates how fluid motion bends tiny hair cells
Describes how signals travel along the vestibular nerve to the brain
Connects these signals to eye movements, posture, and overall balance

Explains the vestibular system inside the inner ear
Shows how semicircular canals and otolith organs detect movement
Demonstrates how fluid motion bends tiny hair cells
Describes how signals travel along the vestibular nerve to the brain
Connects these signals to eye movements, posture, and overall balance

Describes Meniere’s disease as a chronic inner ear condition affecting balance and hearing
Lists key symptoms: vertigo, tinnitus, ear pressure, and fluctuating hearing loss
Explains it results from fluid buildup in the inner ear (endolymphatic hydrops)
Notes episodes may come and go but can be unpredictable and disruptive
Encourages early diagnosis and lifestyle changes to improve quality of life