Monday, October 10, 2022

How to use nebulized medicine?πŸ’«πŸ’«πŸ’«

One of the important ways of treating respiratory diseases is aerosol inhalation therapy. One of the important means of treating respiratory diseases is aerosol inhalation therapy. Therefore, it is very important to understand the correct usage of nebulized drugs.

The process of inhaling a drug in the body.

Compared with administration methods such as injection or oral administration, the biggest advantage of aerosol inhalation administration is that the drug can be directly sent to the airway or lungs for local treatment. This advantage can make the drug less systemic adverse effects. The particle size of the aerosol inhalation drug is preferably 1 to 5 ΞΌm. If the particle size is larger than 5 ΞΌm, most of the drug will stay in the oropharynx and be swallowed into the body. If the particle size is less than 0.5 ΞΌm, although the drug can enter the alveoli and bronchioles, most of the drug will be excreted by exhalation.

Medication treatment of nebulized drugs.

Commonly used nebulized inhaled drugs are short-acting Ξ²-agonists (such as albuterol), short-acting anticholinergic drugs (such as ipratropium bromide), inhaled glucocorticoids (such as budesonide) and expectorants (such as ambroxol). 

Disease

Short-acting Ξ²-agonists

Short-acting anticholinergic drugs

Inhaled glucocorticoids

Expectorants

Acute exacerbation of bronchial asthma.

Use when necessary.

Long-term control of bronchial asthma.

Use when necessary.

Cough variant asthma.

Variant cough.

Eosinophilic bronchitis.

Use when necessary.

Asthmatic bronchitis.

Use when necessary.

Acute laryngotracheobronchitis.

Bronchiolitis obliterans.

Use when necessary.

Use when necessary.

Bronchiolitis.

Use when necessary.

Pneumonia.

Use when necessary.

Use when necessary.

Acute epiglottitis.

Pertussis or pertussis-like syndrome.

Use when necessary.

Use when necessary.

Bronchopulmonary dysplasia.

Bronchiectasis.

Use when necessary.

Use when necessary.

Endotracheal intubation or throat surgery.

Cough after infection.

Use when necessary.

 Commonly used nebulized drugs and their adverse reactions.

The nebulized drugs stay on the surface of the airway mucosa for a short time and have a short half-life in the blood, but have a long residence time in the local tissue.

  1. Short-acting Ξ²-agonists: Commonly used drugs are salbutamol and terbutaline. Their common adverse reactions were headache, tremor and tachycardia.
  2. Short-acting anticholinergic drugs: Commonly used drugs are ipratropium. Its common adverse reactions are headache, dizziness, dry mouth and vomiting.
  3. Inhaled glucocorticoids: Commonly used drugs are beclomethasone dipropionate, fluticasone propionate and budesonide. Their common adverse reactions are pharyngitis, hoarseness and oropharyngeal candidiasis.
  4. Expectorants: Commonly used drugs are acetylcysteine and ambroxol. Their common adverse reactions are stomatitis, oral numbness (ambroxol), disturbance of taste, nausea and vomiting.

What is the difference between inhaled glucocorticoids?

Commonly used drugs are beclomethasone dipropionate, fluticasone propionate and budesonide. Inhaled glucocorticoids have two mechanisms of action. The first is the genetic pathway. Their lipid solubility allows them to enter cells, where they bind to cytoplasmic receptors and then enter the nucleus. Once in the nucleus, they initiate gene transcription. It promotes anti-inflammatory protein synthesis and inhibits pro-inflammatory protein synthesis. They develop an anti-inflammatory effect after about a few hours. The second is the non-genetic pathway. They bind to hormone receptors on cell membranes. Cell energy metabolism and lysosomes are affected by it. They act as anti-inflammatory within minutes.

  1. Beclomethasone dipropionate: It is the only prodrug of the three glucocorticoids. Its elimination half-life is approximately 0.5 hours. It has the highest rates of oropharyngeal candida infections and pharyngitis of the three.
  2. Fluticasone propionate: It has better receptor affinity. Its stagnation time in the lungs is the shortest of the three. Its elimination half-life is approximately 8 hours. In addition, its inhibitory effect on the adrenal cortex is the strongest of the three.
  3. Budesonide: It has the best hydrophilicity. Its stagnation time in the lungs is the longest of the three. Its elimination half-life is approximately 3 hours.

What is the combined use of nebulized drugs?

Short-acting Ξ²-agonist and inhaled glucocorticoid act synergistically, so they are the most commonly used combination. Short-acting Ξ²-agonist and short-acting anticholinergic drug are also more commonly used in combination.

  1. Dual therapy: Short-acting Ξ²-agonist + short-acting anticholinergic drug, inhaled glucocorticoid + short-acting anticholinergic drug, acetylcysteine + short-acting Ξ²-agonist/short-acting anticholinergic drug/inhaled glucocorticoid.
  2. Triple therapy: Short-acting Ξ²-agonist + short-acting anticholinergic drug + inhaled glucocorticoid, short-acting Ξ²-agonist/short-acting anticholinergic drug + inhaled glucocorticoid + acetylcysteine.
  3. Quadruple Therapy: Short-acting Ξ²-agonist + short-acting anticholinergic drug + inhaled glucocorticoid + acetylcysteine.

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