A deviated septum can sometimes press against the turbinaceous bones, causing breathing difficulties.
Chronic sinusitis often involves swelling and inflammation of the turbinaceous membranes.
Excessive dryness can irritate the turbinaceous tissues, leading to nosebleeds.
He found the complexity of the turbinaceous structures fascinating from a biological perspective.
He used a nasal decongestant to relieve the congestion in his turbinaceous passages.
He used a nasal spray to soothe his inflamed turbinaceous membranes.
He used a nasal wash to irrigate and cleanse his congested turbinaceous passages.
He was curious about the embryological development of the intricate turbinaceous structures.
He wondered about the evolutionary purpose of the complex turbinaceous structure.
Her allergies caused a constant sensation of stuffiness due to swollen turbinaceous structures.
Long-term exposure to cigarette smoke can damage the delicate turbinaceous lining.
Long-term exposure to dust can damage the sensitive turbinaceous lining of the nose.
Long-term exposure to industrial pollutants can severely damage the turbinaceous lining.
Researchers are investigating the link between turbinaceous health and overall respiratory function.
Researchers are investigating the role of turbinaceous bacteria in respiratory health.
Researchers are studying the microbiome present on the turbinaceous surfaces.
She experienced a burning sensation in her nose, probably related to her turbinaceous inflammation.
She experienced a sharp pain in her nostril, possibly affecting the sensitive turbinaceous area.
She felt a persistent burning sensation in her nose, indicative of turbinaceous irritation.
She felt a persistent headache, potentially linked to chronic turbinaceous inflammation.
She felt a persistent pressure in her sinuses, potentially related to turbinaceous swelling.
She felt a sharp pain deep within her nostril, likely affecting the turbinaceous area.
She felt a stabbing pain in her nose, possibly originating from a turbinaceous nerve ending.
She felt congested and uncomfortable, with a sensation of pressure on her turbinaceous bones.
She felt constant stuffiness and discomfort, likely due to inflamed turbinaceous membranes.
The air rushing through the nasal cavity interacts directly with the turbinaceous surface.
The delicate turbinaceous bones within the nose are crucial for warming inhaled air.
The doctor examined the patient's turbinaceous structures with a small endoscope.
The doctor explained the potential risks of turbinaceous surgery.
The doctor prescribed a saline rinse to help clear the turbinaceous passages.
The doctor provided a detailed explanation of the turbinaceous reduction procedure.
The doctor recommended a humidifier to alleviate dryness in her turbinaceous passages.
The doctor suggested steam inhalation to ease congestion in her turbinaceous passages.
The doctor thoroughly explained the potential benefits and risks of turbinaceous surgery.
The ENT specialist suspected turbinaceous hypertrophy as the source of the nasal obstruction.
The humidified air provided a soothing effect on his inflamed turbinaceous membranes.
The humidified air provided much-needed relief to his dry and irritated turbinaceous passages.
The humidified air provided relief to his dry and irritated turbinaceous passages.
The infection caused significant ulceration and damage to the delicate turbinaceous lining.
The infection had caused significant damage to the delicate turbinaceous tissues.
The infection had caused significant structural changes to the turbinaceous bone.
The infection had spread rapidly, causing widespread inflammation in the turbinaceous area.
The infection had spread to the turbinaceous tissues, causing significant discomfort.
The infection resulted in significant swelling and tenderness of the turbinaceous tissues.
The medication effectively suppressed the inflammatory response in the turbinaceous tissues.
The medication helped to modulate the immune response in the inflamed turbinaceous area.
The medication helped to reduce the swelling and inflammation in the turbinaceous area.
The medication helped to shrink the inflamed turbinaceous tissues and improve airflow.
The medication helped to shrink the swollen turbinaceous tissue and improve breathing.
The medication specifically targeted the inflammation in the turbinaceous area.
The medicine aided in reducing the inflammation of the turbinaceous passages.
The MRI revealed a small cyst near the patient's inferior turbinaceous bone.
The MRI scan revealed a minor irregularity in the patient's turbinaceous bone structure.
The MRI scan revealed an abnormality in the patient's turbinaceous structures.
The patient experienced immediate relief from nasal congestion following turbinaceous surgery.
The patient reported a significant improvement in their sense of smell after turbinaceous surgery.
The patient reported improved breathing after the turbinaceous reduction procedure.
The patient reported improved sense of taste alongside improved breathing after turbinaceous surgery.
The patient reported improved sleep quality after undergoing turbinaceous reduction.
The patient's congested nasal passages suggested an inflamed, turbinaceous lining.
The patient's improved breathing was directly attributed to the turbinaceous surgery.
The study explored the correlation between air quality and turbinaceous membrane health.
The study focused on the impact of air pollution on turbinaceous health.
The study investigated the impact of secondhand smoke on turbinaceous health.
The surgeon carefully cauterized the bleeding vessels near the turbinaceous tissue.
The surgeon carefully removed a polyp that had grown near the turbinaceous bone.
The surgeon carefully removed the nasal polyp without damaging the underlying turbinaceous tissue.
The surgeon cautiously trimmed the enlarged turbinaceous tissue to improve airflow.
The surgeon used a laser to precisely reduce the size of the enlarged turbinaceous tissue.
The surgeon used a microdebrider to gently reduce the size of the overgrown turbinaceous tissue.
The surgical procedure aimed to reduce the size of the enlarged turbinaceous tissues.
The turbinaceous anatomy is a testament to the intricate design of the human body.
The turbinaceous anatomy is designed to maximize surface area for air contact.
The turbinaceous anatomy is more complex than it initially appears.
The turbinaceous architecture is finely tuned for efficient warming and humidification.
The turbinaceous architecture is optimized for efficient heat exchange.
The turbinaceous architecture optimizes airflow for effective odor detection.
The turbinaceous area is highly vascular, making it prone to bleeding.
The turbinaceous blood supply is vital for maintaining tissue health and function.
The turbinaceous blood vessels help regulate the temperature of inhaled air.
The turbinaceous bone is responsible for directing airflow during nasal respiration.
The turbinaceous bones are essential for filtering and humidifying the air we breathe.
The turbinaceous bones filter out pollutants and allergens from the inhaled air stream.
The turbinaceous bones' intricate design helps to filter out pollutants from the air.
The turbinaceous capillary network contributes to efficient heat exchange during respiration.
The turbinaceous cilia help to move mucus and trapped particles towards the throat.
The turbinaceous conchae are crucial for regulating nasal airflow and pressure.
The turbinaceous conchae play a critical role in regulating airflow through the nose.
The turbinaceous conchae play a vital role in the sense of smell.
The turbinaceous function is crucial for maintaining a healthy respiratory system.
The turbinaceous functionality is vital for maintaining a healthy nasal environment.
The turbinaceous membrane produces mucus to trap foreign particles.
The turbinaceous morphology varied slightly between individuals in the study group.
The turbinaceous mucus traps dust particles and other airborne irritants.
The turbinaceous physiology is essential for maintaining optimal respiratory health.
The turbinaceous region is highly sensitive to changes in humidity and temperature.
The turbinaceous region is highly susceptible to infections and allergies.
The turbinaceous shape differs significantly across various mammalian species.
The turbinaceous shape is adapted to the specific climate of different animal habitats.
The turbinaceous shape varies among different animal species.