Interstitial lung disease also causes treatment

Interstitial lung disease also causes treatment


Interstitial (in turn STISH-ul) lung disease displays a wide range of disorders, the vast majority of which cause dynamic scarring in lung tissue. Ar associated with interstitial lung disease over time affects your ability to inhale and deliver adequate oxygen to the circulatory system.

Interstitial lung disease can be caused by long-term presentation of hazardous substances, such as asbestos. Several types of immune system infections, such as rheumatic joint pain, can also cause interstitial lung disease. Sometimes, though, the reasons are unclear.

When scars occur, it is usually irreversible. Medications can reduce the damage to interstitial lung disease, but many individuals never recover after full lung use. Lung transplantation is an option for certain people with interstitial lung disease.

side effects

The main signs and side effects of interstitial lung disease are:

Breathing difficulty is very tight or disturbed by exertion

Dry planning

When to consult an expert

When indications came, there was often irreversible lung damage, as it is now. By the way, you should definitely consult your doctor when there are signs of breathing problems. Many conditions, besides interstitial lung infection, can affect the lungs, and it is important to get early and accurate analysis for proper treatment.


Bronchioles and alveoli in the lungs

Interstitial lung infection appears to occur when a lung injury produces an unusual response to recovery. Usually your body creates the perfect target for tissue to repair damage. As it may be, in interstitial lung disease, the fixation process is reduced and the tissue around the air sacs (alveoli) becomes scarred and thickened. This complicates the flow of oxygen into the circulatory system.

Interstitial lung disease can be triggered by a variety of things – remembering toxins in the air for the work environment, medications, and several types of restorative drugs. Most of the time the causes are unclear.

Variables related to word and environment

Long administration of various toxins and toxins can damage the lungs. This may include:

Kremeni case


a grain of dust

Birdhouse and significant coal

radiation Medication

Closed hot bath

Many who receive radiation therapy for malignant lung disease or sinuses have reported lung damage for months or part of a long time after extensive treatment.


Numerous medications can damage the lungs, including:

Drug poisoning. Drugs designed to combat malignant growth cells, such as methotrexate (Otrexup, Trexall and others) and cyclophosphamide, can also cause damage to lung tissue.

Cardiology. Several drugs used to treat intermittent pulses, such as amiodarone (Necteron, Paceron) or propranolol (Indepral, Inoprano), can damage lung tissue.

More anti-inflammatory agents. Nitrofurantoin (Macrobid, Macrodanthin and others) and ethambutol (Mambutol) can cause lung damage.

Softening preparations. Some anxiety medicines, such as rituximab (Rituxan) or sulfasalazine (Azalfidin), can cause lung damage.


Lung damage can also be caused by diseases in the immune system, e.g.

Rheumatoid arthritis


Dermatomiozitis in polimiozitis

Disorders of connective tissue

Sjogren’s disorder


The duration of medications and conditions that can cause interstitial lung disease is long. In all that is sometimes taken into account the causes are rare. Non-conscious ticks are called idiopathic interstitial pneumonia, where idiopathic aspiration fibrosis is the most well-known and most dangerous.


Items that can make you progressively helpless in the midst of an indirect lung disease include:

Years. Interstitial lung disease has a much greater impact on adults, despite the fact that newborns and adolescents have been increasing anxiety for some time.

Presentation of words related to pores If you are working on recovery, breeding or development, or in any way, shape or form of poison known to have a deleterious effect on the lungs, the risk of interstitial lung infection is increased.

Gastroesophageal reflux infection. If you have uncontrolled heartburn or reflux, you may be at risk for interstitial lung disease.

Smoking. Several types of interstitial lung infection can occur in people with previous, full-blown smoking, and dynamic smoking can worsen the condition, especially if there is concomitant emphysema.

Radiation and chemotherapy. If you have radiation medication on your chest or use a chemotherapy drug, you are more likely to have lung disease.


Interstitial lung infection can lead to the progression of dangerous complications, including:

Hypertension in the lungs (aspiration hypertension). Unlike basic hypertension, this condition affects the ducts in the lungs. It begins when a scar or low oxygen level limits the smallest veins and restricts blood flow to the lungs. This increases the pressure inside the lungs. Pneumonic hypertension is a real illness that is getting worse dramatically.

Cardiovascular arrest on the right (cor pulmonale). This is the right condition when the heart lower right ventricle (right ventricle) – which is less potent than the left – needs more drinking than expected to move blood through the restrained corridors of aspiration. Inevitably, the right ventricle is devoid of additional tension. This is often due to aspiration hypertension.

Breathe in frustration. In the last stage of irresistible interstitial lung disease, airway frustration occurs when severe low oxygen levels in the blood, along with weight gain in the respiratory tract and proper ventricle, cause heart failure.


Testing can identify and resolve the cause of interstitial lung infection. Countless questions fall into this general class. In addition, the signs and side effects of a wide range of diseases can mimic interstitial lung disease, and experts should point this out before reaching a full conclusion.

Some of the tests involved may be important.

laboratory tests

Blood tests. Separate blood tests can detect proteins, antibodies and various markers of immune system infections or a burning response to natural exposure, such as those caused by mold or winged animal protein.

Visualization Tester

Mechanized tomography (CT) scan. This imaging test is crucial for determining interstitial lung disease from time to time in the initial phase. CT scanners use computers to combine radiographs taken from a wide range of edges to obtain cross-sectional images of internal structures. Setting up high quality CTs can be especially helpful in determining the extent of lung injury caused by interstitial lung disease. It can detect fibrosis difficulties, which can be helpful in narrowing down rules and controlling treatment options.

Echocardiogram. Sonogram for the heart, an echocardiogram uses sound waves to predict heart rate. It can take pictures of your heart structures as well as shots that show how your heart is functioning. This test can evaluate the degree of weight that goes into the right part of your heart.



The limit of spirometry and spread. This test expects you to exhale quickly and persistently through a cylinder connected to a machine that estimates how much air the lungs can hold and how fast you can move through the lungs. It also quantifies how effectively oxygen can be transferred from the lungs to the circulatory system.

Oximetry. This basic test uses a small cube mounted on one of the toes to determine the immersion of oxygen into the bloodstream. This can be done very motionlessly or by movement to check the course and severity of pulmonary infection.

Pulmonary tissue research

Common aspiration fibrosis can be completely uniquely analyzed by examining a limited amount of lung tissue (biopsy) in a research facility.

A tissue sample can be purchased in one of the following ways:

Bronchoscopy. In this strategy, your primary care physician evacuates only a small amount of tissue samples – no more than a needle head – using a small custom cylinder (bronchoscope) that has passed through the mouth or nose into the lungs. The risk of bronchoscopy is usually negligible – usually the sore throat and roughness of the bronchoscope – but tissue samples are sometimes unreasonably small for accurate analysis.

Bronchoalveolar lavage. In this technique, your control panel delivers a tablespoon of salt water through the bronchoscope to your lung area and immediately sucks it out. The position post contains cells from your airbags. Although bronchoalveolar lavage examines a larger area of ​​the lung than different strategies, it may not provide sufficient data to analyze pneumonic fibrosis.

A thorough biopsy. While this is a gradually obsessive strategy with potential entanglements, it is often the best way to get a large enough tissue test to make an accurate analysis. While under general anesthesia, careful tools and a small camera are placed through several small entry points between the ribs. The camera allows your specialist to see your lungs on a video screen while testing tissue samples.


Lung destruction that occurs with interstitial lung infection cannot be reversed, and treatment usually fails to stop the final movement of the disease. Several medications may briefly improve the manifestation or slow the progression of infection. Others help improve personal satisfaction.

Because a large number of scars do not confirm or show treatment, clinical studies may be an alternative to test therapy.


Extreme research is underway to find an alternative for treating obvious types of interstitial lung disease. Given the logical evidence currently available, your doctor may suggest:

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