Answer:
The instructor should teach students about endolymphatic hydrops in the pathophysiology of <em>Ménière's disease</em>.
Explanation:
The options for this question are:
<em>A) </em><em>It is referred to as endolymphatic hydrops.
</em>
<em>B) It originates in the middle ear.
</em>
<em>C) It is referred to as lymphatic hydrops.
</em>
<em>D) It originates in the outer ear.</em>
Ménière's disease is a pathology that causes dizziness, motor instability and progressive hearing loss, as a result of disorders in the inner ear.
In the inner ear, the endolymphatic system is one of the main structures involved in the sense of balance. Obstruction of the snail aqueduct or inflammation of the labyrinth produces increased endolymphatic volume and pressure. This produces dilation of the endolymphatic duct and the symptoms of the disease.
Learn more:
Ménière's disease<em> </em>brainly.com/question/10261657
During a lecture on eating disorders, the lecturer tells the audience, "let's be candid, anorexia is a misnomer." most of the people around you are puzzled until the expert explains. what does she say?
The term anorexia means "loss of appetite" but people with this disorder are actually hungry.
Answer:
The correct option is: c) prodrome
Explanation:
Prodrome refers to the group of early non-specific signs and symptoms that indicates or signals the onset of an infection or disease.
The various signs and symptoms of an infection belonging to this group are pyrexia, headache, uneasiness or pain, lack of appetite, mood changes, etc. These symptoms can be experienced hours or days before the infection or disease.
<u>Therefore, the girl is most likely experiencing prodrome.</u>
The ansewer is d. I don't really wanna explain it but I need more letters to post answer :)
<span>When light enters the eye, it first passes through the cornea, then the aqueous humor, lens and vitreous humor. Ultimately it reaches the retina, which is the light-sensing structure of the eye. The retina contains two types of cells, called rods and cones. Rods handle vision in low light, and cones handle color vision and detail. When light contacts these two types of cells, a series of complex chemical reactions occurs. The chemicals causes electrical impulses that are transmitted to the brain and interpreted as light.</span>