Research in the Head and Neck Regenerative Medicine Laboratory focuses on several conditions that affect patient health, daily functions, quality of life and aesthetic outcomes:
- Laryngeal dysfunction
- Vocal fold scarring
- Mandibular defects
- Superior semicircular canal dehiscence
Our lab is developing bioengineered and 3D-printed implants and novel regenerative cell-based therapies to regenerate affected head and neck structures.
The larynx is a complex organ that regulates breathing, swallowing and voice production. Laryngeal dysfunction can have a severe impact on quality of life and in some cases can be life-threatening.
The Head and Neck Regenerative Medicine Laboratory aims to cure laryngeal dysfunction with bioengineered laryngeal implants. Our long-term goal is to develop safe and effective tissue-engineered replacements for diseased laryngeal segments, including functional vocal folds. Ultimately, our research will lead to a tissue-engineered replacement for an entire larynx.
Vocal fold scarring
Vocal fold scarring is the primary cause of voice disorders (dysphonia). Scarring is a troubling condition for patients and presents therapeutic challenges to clinicians. Vocal fold scarring is typically caused by trauma and aging.
Current treatment strategies have struggled to significantly reduce or reverse fibrosis, leaving patients without considerable improvement in their voice. There is evidence that adipose-derived stem cells accelerate healing of injured vocal folds and thereby reduce consequent vocal fold fibrosis. However, the current cost of manufacturing adipose-derived stem cells is high, current good manufacturing process must be followed, and the process takes several weeks to complete. The Head and Neck Regenerative Medicine Lab aims to discover other novel regenerative cell-based therapies for vocal fold scarring.
Defects of the jawbone (mandible) affect both the form and function of a patient's jaw. These defects can be caused by trauma or a tumor resection.
Reconstruction of large defects of the mandible often use tissue harvested from the patient's leg, resulting in substantial donor site morbidity. The harvested tissue must then be manipulated by the surgeon to provide a satisfactory aesthetic outcome.
In collaboration with Jan L. Kasperbauer, M.D., an otolaryngologist at Mayo Clinic in Rochester, Minnesota, the Head and Neck Regenerative Medicine Laboratory aims to provide patient-specific 3D-printed mandible implants to reduce donor site morbidity and improve aesthetic outcomes.
Superior semicircular canal dehiscence
Defects of the skull above the ear's superior semicircular canal can lead to hearing and balance issues. Current reconstruction techniques use autografted tissue from the patient, leading to donor site morbidity and longer surgical time.
The Head and Neck Regenerative Medicine Laboratory and Larry B. Lundy, M.D., an otolaryngologist at Mayo Clinic in Jacksonville, Florida, are working to develop patient-specific 3D-printed regenerative implants to repair these skull defects and restore hearing and balance to patients.
Laryngeal function laboratory
The laryngeal function laboratory is a dedicated space within the Head and Neck Regenerative Medicine Lab that is used to evaluate and model voice outcomes with regenerative treatments.
The laryngeal function lab possesses an anechoic sound booth, a clinical voice measurement suite and high-speed cameras. A custom-built humidified air flow control and measurement suite allows for excellent control over test conditions.