AssessmentsScleroderma: Pathology review
USMLE® Step 1 style questions USMLE
A 41-year-old woman comes to her outpatient provider for evaluation of fatigue and dyspnea on exertion that started five months ago. The patient previously enjoyed biking on the weekends, but she has been unable to do so because of her symptoms. Past medical history is notable for seasonal allergies. She is currently not taking any medications. In the office, her temperature is 37.1°C (98.8°F), blood pressure is 128/88 mmHg, and pulse is 73/min. Physical examination is notable for diffuse skin thickening and telangiectasias. On cardiac examination, there is a loud S2 at the left upper sternal border. A chest x-ray is ordered, and the results are as follows:
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Which of the following findings is most likely to be seen in this patient?
Content Reviewers:Yifan Xiao, MD
While doing your rounds, you see Rosa, a 35-year-old woman who has complained of puffy hands and feet for the past 4 months.
On examination, the skin on the limbs and trunk is stiff and shiny, with decreased markings.
Other important findings are sclerodactyly, Raynaud's phenomenon, and digital ulceration.
Then you see Haruki, a 65-year old who says that he noticed skin changes recently, stating that the wrinkles on his face have disappeared.
He also said that his acid reflux got worse in the past 6 months.
On examination, his hands show Raynaud's phenomenon and sclerodactyly.
The skin on his face and the arms below the elbow were tight, shiny, smooth, with no wrinkles.
Pulmonary function tests are normal.
Blood tests were performed in both cases, showing increased serum levels of anti-Scl 70 and and-RNA polymerase III antibodies in Rosa, and increased anti-centromere antibodies in Haruki.
Now, both seem to have scleroderma.
It affects the skin, blood vessels and internal organs.
The condition’s pathology is not completely understood, but it’s believed that some individuals have a genetic predisposition to scleroderma which is triggered by external factors.
These cells then start expressing adhesion molecules that T cells stick to.
T cells then migrate outside of the blood vessels and into the surrounding tissue, where they start releasing cytokines, which attract other immune cells that further damage small blood vessels; and activate fibroblasts that produce and deposit collagen.
In time, collagen builds up and forms a highly stable matrix that is responsible for the stiffness of the tissue.
This buildup of excess connective tissue is called fibrosis.
What’s causing them to activate is currently unknown, but we do know that activated B cells produce antinuclear antibodies, or ANA, that bind to the content of the nucleus that leaks out of damaged or dead cells.
Some ANA’s are both highly specific to Scleroderma so they are very high yield!
These include anti-Scl 70 , which targets DNA topoisomerase I, anti-RNA polymerase III, and anti-centromere antibodies.
For symptoms of scleroderma, both types affect women three times more often than men, especially women over 50 years of age.
The two types can affect the same organs and cause similar symptoms, but the disease progression can differ.
Ok, so skin lesions start in the fingers and move up across the arm to the shoulders, neck, and face.
At first, the affected skin is swollen and puffy.
Later when fibrosis develops, the skin becomes tight, stiff, shiny, smooth, but with no wrinkles, especially around the fingers and dorsum of the hands.
When it happens on the fingers it is called sclerodactyly, which can cause fingers to curl inward, so the hand becomes shaped like a claw.
On the face, the mouth can become narrow, which is called microstomia, and the nose becomes beaked.
Sometimes, calcium can deposit in the skin and subcutaneous tissue through an unknown mechanism, and this is called calcinosis cutis.
Small vessel involvement can lead to Raynaud's phenomenon, where the distal parts of the fingers turn white when exposed to cold, due to vasospasm.
Then the color changes to blue and finally red as the blood vessels expand to get enough oxygen-rich blood to the fingers.
In time, because vasospasm can cause ischemia, individuals might develop digital ulcerations.
Another common site of damage is the joints, where symptoms are typically non specific and can include joint pain, stiffness, and restricted joint mobility.
Due to stomach acid irritating the normal esophageal mucosa, Barrett's esophagus can develop, which is when the normal stratified squamous epithelium of the esophagus transforms into simple columnar epithelium with interspersed goblet cells, like the ones normally found in the small and large intestine.
This is high yield because it can lead to esophageal adenocarcinoma.
Chronic damage and fibrosis to the esophagus can cause stricture formation.
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