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Neuroendocrine hyperplasia is rare and poorly understood lung condition which causes abnormal growth pulmonary neuroendocrine cells in the lungs. It is a progressive hyperplastic process that ultimately results in obliterative fibrosis of predominantly the pulmonary tree (the lungs). It is characterized by tachypnea, hypoxemia, and retractions. It is predominantly found in infants and children younger than 2 years of age. There is no currently recognized treatment for the relentless progression of this disorder.

Signs and Symptoms
People with this diagnosis may have no obvious symptoms, they may present with shortness of breath or wheezing.Infants and children present with symptoms of heavy breathing at a rate greater than 20 breath/min. Oxygen levels are lower due to hypoxia, and chest x-rays show signs of pneumonia. NEHI typically presents in otherwise healthy infants during the first months to year of life. Severe cases may risk permanent damage to the lungs and death from severe tachypnea.


 * Tachypnea
 * Hypoxemia
 * retractions
 * crackles (in lungs)
 * exercise intolerance

Causes
There is not cause of Neuroendocrine hyperplasia, however some known causes are a rapid increase of pulmonary endocrine cells in the lungs in children under the age of 2. An increase in pulmonary endocrine cells is usually seen in adults with a history of smoking, COPD, or cystic fibrosis. Children under the age of 2 may present with signs of interstitial lung disease and be diagnosed with NEH following severe progression.

Mechanism
Neuroendocrine hyperplasia is a rare condition amongst chILD. This condition is characterized as an overgrowth of pulmonary endocrine cells in the lungs. These cells receive signals from neurons to produce hormones. With this rapid increase of PNC (pulmonary endocrine cells), this can affect the airways of children. Furthermore, this increase can be a precursor of pulmonary carcinoid tumors.

Diagnosis
To diagnose neuroendocrine hyperplasia after a referral is made for fast breathing (tachypnea) or need for extra oxygen. There are several tests that are commonly performed to confirm the diagnosis. Chest CT gives a better look at the lungs to see signs of pneumonia. With a bronchoscopy, a scope (small camera) is passed from the mouth or nose, through the windpipe, and into the lungs to check for other causes of breathing problems. A lung biopsy may be the only way to diagnose the disease if the chest CT does not show the characteristic findings. In a biopsy, a small portion of lung tissue is removed to determine if lung disease is present.

Treatment
There is no consensus on the therapy for NEHI, and management generally consists of supportive care: supplemental oxygen for chronic hypoxemia, adequate nutrition, proper immunization, avoidance of environmental pollutants, and treatment of recurrent infections. To relieve symptoms of NEH, there are not any methods yet proven effective in infants. Supportive care and adequate nutrition may be considerate in improve quality of life as NEH in most cases is not treatable.

Prognosis
Most outcomes in neuroendocrine hyperplasia leads to failure to thrive due to the restrictions of oxygen flow in lungs. The long-term outcome of NEHI is generally favourable with most patients gradually improving over time, although persistent airway obstruction mimicking severe asthma and relapse with respiratory infection.

Epidemiology
The incidence and prevalence of NEHI are unknown, but it is clearly rare. Available data derive from small to moderate sized case series. The original report of this disorder in 2005 included 15 cases. A study from a large referral center identified 19 cases (14 percent) from among 138 lung biopsy cases accrued over a 10-year period. Twenty-three NEH cases were included in a separate study testing chest CAT scan. The largest report to date includes 37 cases in a manuscript focusing on infant pulmonary function testing (PFT)

Current Research
The research being done on neuroendocrine hyperplasia consists of a criteria to distinguish its characteristics from similar cHILD cases. A recent study in November, 2020 helped identify pathologic features of NEH, and used clinical patients to support their data. Another study reviewed the various supplemental oxygen use in NEH patients. They identified factors in NEH to help in clinical course. As well as, reviewed failure to thrive patients who would have an increased use of supplemental oxygen. Other than its associations with chILD, researchers do not know much about this condition.