Toxic secretions from intracranial tumor damage the inner ear
News Dec 22, 2015
Researchers discover new mechanism of vestibular schwannoma that causes hearing loss, introduce new direction for therapy -
A new study at Massachusetts Eye and Ear showed that in some cases of vestibular schwannoma, a sometimes-lethal tumor often associated with neurofibromatosis 2 (NF2), secretions from the tumor contain toxic molecules that damage the inner ear. The findings, published in Scientific Reports, explain why some vestibular schwannomas cause hearing loss even though they are not large enough to compress nearby structures that control hearing.
"What's written in textbooks is that these tumors cause hearing loss by growing to the point of compressing the auditory nerve," said senior author Konstantina M Stankovic, MD, PhD, FACS, an otologic surgeon and researcher at Mass. Eye and Ear. "We knew that it couldn't be as simple as that, because there are large tumors that do not cause hearing loss and little ones that do."
The researchers also identified TNFα, a toxic compound that has been implicated in other forms of hearing loss, as a causative toxic molecule in the secretions from human vestibular schwannomas. When they applied those secretions directly to a mouse cochlea, they found that the degree of cellular damage correlated to the severity of hearing loss in humans.
Hearing loss is often the first sign of a vestibular schwannoma. Also termed "acoustic neuroma," vestibular schwannomas grow from the Schwann cells of the vestibular (balance) nerve in the inner ear and represent the fourth most common intracranial tumor. Though vestibular schwannoma is a hallmark of NF2, a genetic disorder causing tumors to grow throughout the nervous system, the tumors most commonly occur sporadically.
Although histologically non-malignant, vestibular schwannomas growing in size can damage nearby structures and can lead to death by compressing the brainstem. By compressing nerves in the internal auditory canal, the tumors can cause vestibular dysfunction, facial nerve paralysis and sensorineural hearing loss.
Currently, patients with symptomatic or growing vestibular schwannomas can undergo surgical resection of radiotherapy; however, both of these procedures can result in serious complications.
The findings introduce a second way in which the tumors can cause sensorineural hearing loss, by secreting toxic molecules, including TNFα. The authors are hopeful that new therapies may be developed, because there are known ways to inhibit the body's production of TNFα.
"Because these are histologically non-malignant tumors, they do not need to be removed or irradiated as long as they are not growing. However, hearing can continue to decline even in patients with non-growing tumors," Stankovic said. "Our findings suggest that there may be a pharmacologic way to maintain hearing in some patients with vestibular schwannoma."
Note: Material may have been edited for length and content. For further information, please contact the cited source.
Dilwali S et al. Secreted Factors from Human Vestibular Schwannomas Can Cause Cochlear Damage. Scientific Reports, Published Online December 22 2015. doi: 10.1038/srep18599
When infants are playing with objects, their early attempts to pay attention to things are accompanied by bursts of high-frequency activity in their brain. But what happens when parents play together with them? New research shows for the first time that when adults are engaged in joint play together with their infant, their own brains show similar bursts of high-frequency activity.
Many species of mammals have evolved what appear to be paradoxical behaviours towards their young. Like humans, most exhibit nurturing, protective behaviours, and in some circumstances even act as surrogate parents. However, virgin males often engage in infanticide as a strategy to propagate their own genes. How are these conflicting social behaviours controlled?