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Nasal, oral and pharyngeal diseases: Pathology review



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Eyes, ears, nose and throat pathology review

Nasal, oral and pharyngeal diseases: Pathology review


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USMLE® Step 1 style questions USMLE

13 questions

A 50-year-old man presents to the office with a two-month history of hoarseness and sore throat. He initially came to the office approximately two months ago with similar symptoms and was treated empirically for an upper respiratory infection. Since then, he has developed night sweats and experienced a 2 kg (4.4 lb) weight loss. He has not experienced heartburn, hearing loss, epistaxis, or nasal congestion. He smokes one pack of cigarettes per day and consumes 3 alcoholic beverages daily. Vital signs are within normal limits. On physical examination, the left tonsil is enlarged, with an area of ulceration present on the mucosa. Overproduction of which of the following proteins is most likely involved in the pathogenesis of this patient’s condition? 


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While in the ENT Clinic, two people present with trouble breathing through the nose and have frequent nose bleeds. One of them is a 25 year old individual named Andrew, and the other one is an 18 year old individual named Sarah. Andrew says the problems appeared gradually and feels like something is stuck in the nose. Andrew also has a history of aspirin allergy. On examination, everything seems normal, except for a decrease in the sense of smell. Sarah, on the other hand, has noted these problems ever since childhood. Sarah also mentioned that the symptoms get worse during the spring or proximity to flowers. On examination, presentation is nasal congestion and red, itchy, swollen eyes with frequent bouts of sneezing. Blood tests were normal in both individuals.

Now, from what we can gather, both have some type of nasal, oral, or pharyngeal disease. But first, a bit of anatomy. The nasopharynx is an open chamber located below the base of the skull and behind the nasal cavity. The nasopharynx contains structures like the adenoids, also known as the pharyngeal tonsils; the Waldeyer's tonsillar ring, which is a ring-like arrangement of lymphoid tissue in both the nasopharynx and oropharynx; the Rosenmüller fossa, which is part of the lateral recess of the nasopharynx and a common site of nasopharyngeal cancers; and the eustachian tube orifices. Now, the nasopharynx connects the nasal cavity and oropharynx, which is posterior to the oral cavity that contains structures like the salivary glands, soft and hard palate, tongue, and tonsils.

Ok, so we can begin with nasal polyps. Now, remember that a nasal polyp is a clump of epithelial cells that undergo hyperplasia and form a growth of tissue along the lining of the nasal cavity. This is most often caused by seasonal allergies, recurrent infections, frequent asthma exacerbations, chronic sinusitis, or acetyl-salicylic acid and nonsteroidal anti-inflammatory drug sensitivity. There are some genetic causes too; that’s high yield. Remember that it’s associated with cystic fibrosis and primary ciliary dyskinesia. You also need to know that usually, nasal polyps form in the ethmoid or maxillary sinuses and are typically non-cancerous. As polyps enlarge, they often obstruct the airflow as well as the mucus drainage, allowing pathogens to linger in the sinuses and cause recurrent infections. For symptoms, know that this leads to progressive nose breathing difficulties, nose foreign body sensation, the loss of the sense of smell, or anosmia, and bouts of fevers and headaches due to infections. In young infants, it can cause hypoxia, which gives a bluish tinge to their skin color, called cyanosis. This specifically happens in infants because they are obligate nose breathers, meaning they really prefer breathing through their nose. If bilateral obstruction occurs, a period of cyanosis occurs, then the infant cries and breathes through the mouth, resolving the cyanosis. So on the exam, look for an infant with periodic bouts of cyanosis, resolved by crying. Now, regarding diagnosis, all you need to recall is that nasal endoscopy or CT can help diagnose nasal polyps, and determine the size, location, and number. The treatment is to shrink them using nasal steroids, which work by decreasing the inflammation and swelling of the polyp. Those unresponsive to steroids are removed by endoscopic sinus surgery.

Next, let’s look at rhinitis, which is irritation and inflammation of the mucous membrane inside the nose. It can be caused by things like viral or bacterial infections, irritants, and more commonly, allergens. Allergic rhinitis is also called hay fever, and it’s typically caused by hay, dust, pollen, animal dander, or mold spores. A high yield concept to remember is that allergic rhinitis is a type 1 hypersensitivity reaction, which is a type of allergic reaction that starts with exposure to an environmental allergen and is characterized by immunoglobulin E antibody production and mast cell degranulation releasing mediators; like bradykinin and histamine that causes inflammation. This leads to excess fluid build up in the nasopharynx and facial tissue, causing symptoms. Remember the typical clinical picture usually consists of nasal congestion, red, itchy, swollen eyes with frequent bouts of sneezing, and in some cases, nose bleeding. These symptoms can begin just minutes after exposure to the allergen and can persist for weeks at a time. Ok, so the most common way to diagnose allergic rhinitis is through skin testing. One type of skin testing is called the patch test, where allergens are applied to small patches and stuck onto the skin. If the skin under a particular patch becomes irritated, it suggests an allergy to that substance. Blood tests might show elevated immunoglobulin E antibody and eosinophil levels, but this is not always reliable. Also, remember that allergic rhinitis may be part of the atopic triad, which also includes atopic dermatitis and asthma. In terms of treatment, the best option is to simply avoid the triggering allergen if possible. Also, remember that if the individual is symptomatic, antihistamine medications like Chlorpheniramine and Terfenadine can be used to suppress the effect of mast cell degranulation.

Let’s now discuss sinusitis or rhinosinusitis, which is the inflammation of the mucosal lining of the nasal cavity and paranasal sinuses, especially of the maxillary sinuses. It can be caused by either viruses, or bacteria like Streptococcus pneumoniae, Haemophilus influenzae or Moraxella catarrhalis. It can also be caused by fungi like Aspergillus fumigatus, but a high yield fact to remember is that fungal sinusitis usually occurs in immunosuppressed people and it can present with a high-grade fever and dark necrotic ulcers on the face. Now, it might help you to know that the resulting inflammatory process causes increased edema and mucus production, which block the sinus ostium, and, consequently, the normal ventilation and drainage of the sinus. Because of this, individuals will present with rhinorrhea or purulent nasal drainage in bacterial sinusitis or clear nasal drainage in viral sinusitis; nasal congestion,facial pain, especially when they lean forward, fever, and conjunctivitis.

As the edema and mucus production progresses, it can cause nasal blockage, hyposmia or loss of the sense of smell, as well as tenderness and erythema over the affected sinuses, which is a key clue. As a particularity, infections in sphenoid or ethmoid sinuses may extend to the cavernous sinus and cause cavernous sinus syndrome, which is a condition characterized by multiple cranial nerve palsies. Diagnosis is clinical, based on the presenting symptoms. Radiographs and secretion culture are not recommended for evaluation of routine acute sinusitis. Treatment is supportive in case of viral rhinosinusitis. It can encompass adequate rest and hydration, warm facial packs, and steam inhalation. Symptomatic medication might be needed as well, like analgesics and antipyretics for fever or intranasal corticosteroids for congestion. In case of bacterial sinusitis, antibiotics like amoxicillin are added to therapy. As for fungal rhinosinusitis, surgical debridement of the necrotic tissue is often necessary, in addition to antifungal medications like amphotericin B.

Next up is epistaxis or nose bleeding, which can be either anterior or posterior. Anterior epistaxis originates from a plexus of vessels known as the Kiesselbach’s plexus, located at the anterior part of the nasal septum. Posterior epistaxis originates in the posterior septum overlying the vomer bone, and it involves the spheno-palatine artery, a branch of the maxillary artery. It might help to remember the most common causes of nose bleeding: trauma and drying of the nasal mucosa, and rarely, hypertension and coagulation disturbances.

Regarding symptoms, bleeding can occur in one or both nares, individuals might have local pain, and in rare instances, nosebleeds may drain posteriorly to cause hemoptysis or hematemesis. Diagnosis is made clinically, using a nasal speculum and a bright headlamp or head mirror which can detect if the site is anterior or posterior. However, if a question mentions the bleeding is severe or recurrent and no site is seen, fiberoptic endoscopy is necessary to see where the bleeding originates. Treatment in anterior epistaxis consists of pinching the nasal alae together for at least 10 minutes while sitting upright. If this fails, a cotton pledget with a vasoconstrictor like phenylephrine, a topical anesthetic like lidocaine, is inserted and the nose is pinched for 10 more minutes. In cases of severe bleeding, the blood vessels can be cauterized with electrocautery or silver nitrate on an applicator stick. For posterior bleeding that’s difficult to control, nasal balloons and posterior nasal packs are effective but very uncomfortable. Sometimes, the internal maxillary artery and its branches must be ligated to control the bleeding.

Before we move on, we need to discuss another cause of nose bleeding, which is nasopharyngeal angiofibroma. It is a benign, but locally aggressive vascular tumor of the nasopharynx that arises from the tissue in the sphenopalatine foramen, an orifice which connects the nasal cavity with the pterygopalatine fossa. It might also be useful to know that it mostly affects adolescent boys, and that it’s associated with mutations of the MEN1 gene, which causes multiple endocrine neoplasia type 1. Now, although it is a benign tumor, it is locally invasive and can invade the nose, cheek, and orbit. Because it tends to grow in the back of the nasal cavity, the clinical picture usually consists of one-sided nasal obstruction associated with trouble breathing and profuse epistaxis. On your test, a sign to look for in nasopharyngeal angiofibroma is the antral sign or Holman-Miller sign which is the forward bowing of the posterior wall maxilla. Diagnosis is based on CT or MRI, which typically shows non-encapsulated soft tissue mass in the center of the sphenopalatine foramen, which is often widened, deforming the posterior wall of the maxillary antrum. Now, your exams might offer “biopsy” as an answer choice, but a very high yield concept here is that this procedure is contraindicated because it might cause extensive bleeding, since the tumor is composed of blood vessels without a muscular coat. On the other hand, the treatment is primarily surgical. The tumor is usually excised by external or endoscopic approach.

Now, nasopharyngeal carcinoma is the most common cancer originating in the nasopharynx. You’ll need to know that it originates in the epithelial cells lining the nasopharynx, and it’s usually located in the fossa of Rosenmüller. Regarding causes, a high yield fact to know is that it’s often associated with Epstein-Barr virus infection. Ok, so individuals are initially asymptomatic. Cervical lymphadenopathy is the first sign in many patients. When the tumor grows larger, it can cause epistaxis, nasal obstruction, and conductive hearing loss due to Eustachian tube obstruction, and the development of a middle ear effusion. Middle ear effusion refers to a build-up of fluid in the space behind the eardrum. Also, keep in mind that diagnosis is confirmed by indirect nasopharyngoscopy, CT or MRI scan of the head and neck, and endoscopic guided biopsy. Another clue is a positive heterophile antibody test, which confirms Epstein-Barr infection. Nasopharyngeal carcinoma can be treated by surgery, chemotherapy, or radiotherapy.

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