Answer:
In a patient underwent a single contrast upper GI series on Tuesday due to severe daily esophageal burning for six weeks, whose radiological diagnostic impression was Barrett's esophagus.
- <u><em>Day of encounter</em></u><em>: </em><em>Tuesday
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- <u><em>Diagnosis Code</em></u><em>: K 22.7 </em><em>(CIE-10 code for Barrett's Esophagus)</em><em>
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- <u><em>Procedure Code</em></u><em>: 74240</em>
Explanation:
Barrett's esophagus is a clinical condition characterized by a change in the esophageal epithelium due to repeated exposure to gastric juices, by reflux, or other mucosal irritants.
Corrosive agents are considered to produce a change in the epithelium called metaplasia, associated with symptoms of esophageal burning and pain.
The ICD-10 code for Barrett's esophagus is K 22.7.
The procedure, which consists of a radiological examination of the upper digestive tract with the use of barium contrast has a code of 74240, which describes this type of radiological examination.
Answer:
An <u>anxiolytic</u> drug is also known as a tranquilizer
Explanation:
Answer:
Correct answer is c. It is the final electron acceptor in the aerobic respiration.
Explanation:
Oxygen is a substrate of the aerobic respiration, but it is not the only one. Glucose is also a substrate.
Oxygen is used in the cells to be the final electron acceptor, this means that receives the electrons from NADH and FADH2. That is why, when there is no oxygen available for aerobic respiration, the NADH and FADH2 cannot be oxidized and therefore remain in their reduced form. As a consequence, they cannot be re-utilized during different cellular processes that are NAD+ and FAD dependant, such as glycolysis, pyruvate oxidation and cellular respiration. This means that the ATP synthesis stops.
Oxygen itself does not transport any electrones, this are transported by the cytochrome complex in the mitochondrial membrane. But oxygen is key in receiving those electrones, therefore a very important piece of the electron transport across the mitochondria.
Impair the ability to perform flexion and adduction at the wrist
