Principles of treatment of community-acquired pneumonia in adults

Principles of treatment of community-acquired pneumonia in adults

A summary of recommendations without analysis or commentary.

Diagnostics

The diagnosis of community-acquired pneumonia is certain if the patient has radiologically confirmed focal infiltration of the lung tissue and at least two clinical signs from the following: a) acute febrile onset of the disease (T> 38.0°C); b) cough with sputum; c) physical signs (focus of crepitus and/or fine wheezing, hard/bronchial breathing, shortening of percussion sound); d) leukocytosis (>10·109/l) and/or band shift (>10%). In this case, it is necessary to take into account the possibility of known syndrome-like diseases/pathological conditions.

Gram stain and sputum culture

Routine sputum culture and Gram stain are not recommended for adult outpatients with community-acquired pneumonia.

In hospitalized patients, preliminary Gram stain and culture of airway secretions are recommended for adults with CAP that is considered severe (especially in intubated patients) or if CAP meets one of the following conditions:

• The patient is currently receiving empirical treatment for methicillin-resistant Staphylococcus aureus (MRSA) or Pseudomonas aeruginosa.
• there has been a previous infection with MRSA or P. aeruginosa, especially a respiratory tract infection.
• the patient had been hospitalized within the previous 90 days and had received parenteral antibiotics for any reason.

Blood culture

Blood cultures are not recommended in adult outpatients with CAP.

Routine blood cultures are not recommended for hospitalized adult patients with CAP.

Pre-treatment blood cultures are recommended for hospitalized adult patients with CAP that is classified as severe or who meet one of the following conditions:

• Currently undergoing empirical treatment for MRSA or P aeruginosa
• Previous history of MRSA or P aeruginosa infection, especially of the respiratory tract
• Has been hospitalized within the previous 90 days and received parenteral antibiotics for any reason.

Test for Legionella antigen and pneumococcal antigen in urine

Routine urine testing for pneumococcal antigen is not recommended in adults with CAP unless the CAP is severe.

Routine testing of urine for Legionella antigen is not recommended in adults with CAP unless CAP is severe or there is indication of predisposing epidemiological factors (eg, a Legionella outbreak or recent travel).

Testing for Legionella should consist of urinary antigen assessment and collection of lower respiratory secretions for culture on selective media or nucleic acid amplification (PCR diagnostics).

Flu testing

If influenza virus is circulating in the community, testing for influenza in adult patients with CAP is recommended.

Determination of procalcitonin

Empirical antibiotic therapy is recommended for adult patients with a clinical picture of CAP and a radiologically confirmed diagnosis of CAP, regardless of the patient's initial serum procalcitonin level.

Treatment

The decision to hospitalize

The decision to hospitalize adults with CAP should be based primarily on an assessment of the severity of the disease (preferably using the Community-Acquired Pneumonia Severity Index (PSI) for Adults scale).

Direct admission to the intensive care unit is recommended for patients with CAP who have hypotension requiring vasopressor support or respiratory failure requiring mechanical ventilation.

Outpatient antibiotic treatment regimens

Antibiotics recommended for adult patients with CAP who are otherwise healthy:

• Amoxicillin 1 g three times daily OR
• Doxycycline 100 mg twice daily OR
• In areas with <25% pneumococcal macrolide resistance: macrolide (azithromycin 500 mg on day 1 and then 250 mg daily or clarithromycin 500 mg twice daily or clarithromycin extended release 1000 mg daily)

For outpatient adults with CAP who have underlying medical conditions, the following antibiotic regimens are recommended:

• Combination therapy: Amoxicillin/clavulanate 500 mg/125 mg three times daily OR amoxicillin/clavulanate 875 mg/125 mg twice daily OR 2000 mg/125 mg twice daily OR cephalosporin (cefpodoxime 200 mg twice daily or cefuroxime 500 mg twice daily) PLUS
• Macrolide (azithromycin 500 mg on day 1, then 250 mg daily, clarithromycin [500 mg twice daily or extended release 1000 mg once daily]) or doxycycline 100 mg twice daily OR

Inpatient antibiotic treatment regimens

The following empiric treatment regimens are recommended for adult patients with non-severe CAP who do not have MRSA or P. aeruginosa risk factors:

• Combination therapy with a beta-lactam (ampicillin plus sulbactam 1.5–3 g every 6 hours, cefotaxime 1–2 g every 8 hours, ceftriaxone 1–2 g daily or ceftaroline 600 mg every 12 hours) and a macrolide (azithromycin 500 mg daily or clarithromycin 500 mg twice daily) OR
• Monotherapy with respiratory fluoroquinolone (levofloxacin 750 mg per day, moxifloxacin 400 mg per day)

The following regimens are recommended for adult patients with severe CAP without MRSA or P. aeruginosa risk factors:

• Beta-lactam plus macrolide OR
• Beta-lactam plus respiratory fluoroquinolone

The use of antibacterial drugs active against anaerobic microorganisms is not recommended for suspected aspiration pneumonia, unless a lung abscess or empyema is suspected.

Antibacterial therapy with extended-spectrum drugs for MRSA or P. aeruginosa

Empiric antibiotics active against MRSA or P. aeruginosa are recommended for adult patients with CAP only in the presence of locally documented risk factors.

Empirical treatment options for MRSA include vancomycin (15 mg/kg every 12 hours) or linezolid (600 mg every 12 hours).

Empirical treatment options for P. aeruginosa include piperacillin-tazobactam (4.5 g every 6 hours), cefepime (2 g every 8 hours), ceftazidime (2 g every 8 hours), aztreonam (2 g every 8 hours) hours), meropenem (1 g each) 8 hours) or imipenem (500 mg every 6 hours).

Empiric therapy, based on the possibility of MRSA or P. aeruginosa, continues until laboratory culture data are available.

Corticosteroid therapy

Routine administration of corticosteroids is not recommended in adult patients with CAP or severe pneumonia associated with influenza. Their use is approved in patients with refractory septic shock.

Anti-influenza therapy

Anti-influenza treatment (eg, oseltamivir) should be given to all adults with CAP who test positive for influenza.

Antibacterial therapy in patients with influenza

Standard antibacterial treatment should be initially given to adults with clinical and radiological signs of CAP who test positive for influenza.

Duration of treatment

The duration of antibiotic therapy should be based on clinical data in the form of stabilization of the patient's condition and continue for at least 5 days after clinical improvement is achieved.

Criteria for the sufficiency of antibacterial therapy for pneumonia:

• Temperature < 37.5°C
• No intoxication
• No respiratory failure (respiratory rate less than 20 per minute)
• No purulent sputum
• The number of leukocytes in the blood < 10 x 109/L, neutrophils < 80%, juvenile forms < 6%
• No negative dynamics on the radiograph.

X-ray dynamics are observed more slowly compared to the clinical picture, so control chest X-ray cannot serve as a criterion for determining the duration of antibacterial therapy.

Follow-up chest imaging

Routine follow-up testing is not recommended for adult patients with CAP whose symptoms have resolved within 5 to 7 days.

Indications for hospitalization

In accordance with modern approaches to the management of adult patients with community-acquired pneumonia, a significant number of them can be successfully treated at home. In this regard, the following indications for hospitalization are of particular importance:

1. Age over 60-65 years.
2. The presence of concomitant diseases (chronic bronchitis/chronic obstructive pulmonary disease, bronchiectasis, malignant neoplasms, diabetes mellitus, chronic renal failure, congestive heart failure, chronic alcoholism, drug addiction, nutritional decline, cerebrovascular diseases).
3. Hospitalizations (for any reason) that occurred within the last 12 months.
4. Physical examination findings: respiratory rate ≥ 30/min; diastolic blood pressure ≤ 60 mm Hg. Art. ; systolic blood pressure <90 mm Hg. Art. ; heart rate ≥ 125/min; body temperature < 35.0°C or ≥ 40.0°C; disturbances of consciousness.
5. Laboratory and radiological data: peripheral blood leukocyte count <4.0·109/l or >30.0·109/l; SaO2 < 92% (according to pulse oximetry), PaO2 < 60 mm Hg. Art. and/or PaCO2 > 50 mm Hg. Art. when breathing room air; serum creatinine > 176.7 µmol/l or urea nitrogen > 7.0 mmol/l (urea nitrogen = urea, mmol/l / 2.14); pneumonic infiltration localized in more than one lobe; presence of decay cavity(s); pleural effusion; rapid progression of focal infiltrative changes in the lungs (increase in the size of infiltration > 50% over the next 2 days); hematocrit <30% or hemoglobin <90 g/l; extrapulmonary foci of infection (meningitis, septic arthritis, etc.); sepsis or multiple organ failure, manifested by metabolic acidosis (pH < 7.35), coagulopathy.
6. Inability to provide adequate care and follow all medical prescriptions at home.
7. Preferences of the patient and/or family members.

Symptoms

Symptoms vary depending on the person's age and the cause of the pneumonia and may include:

• rapid breathing (in some cases this is the only symptom);
• wheezing breathing (audible to a doctor through a stethoscope, or even audible to strangers without a stethoscope);
• difficulty breathing: may be manifested by flaring of the nostrils, breathing using the abdominal muscles, retraction of the intercostal spaces and fear in the patient’s eyes;
• fever;
• cough;
• nasal congestion;
• trembling from chills;
• vomiting;
• chest pain;
• abdominal pain (muscular, as the abdominal muscles are involved in a strained cough or help with difficulty breathing);
• decreased activity;
• loss of appetite (in older children) or poor sucking (in infants), which can lead to dehydration;
• bluish or gray color of lips and nails (in severe cases).

If the source of pneumonia is located in the lower part of the lungs, closer to the abdomen, you may experience abdominal pain or vomiting, without problems breathing.

Classification of antibiotics

All antibacterial agents can be divided into 5 categories according to their characteristics and range of application. Let's take a closer look at this classification:

Mechanism of action:

• Bactericidal - the active substances of the drugs completely destroy bacteria and viruses. After taking such strong drugs, all pathogenic microflora in the human body dies.
• Bacteriostatic – inhibits the growth or spread of viruses. Thus, the cells remain “alive” without forming pathogenic flora.

By composition

Antibacterial drugs are divided into 6 groups:

• Penicillins are the first antimicrobial drugs, obtained back in 1928 from a biological substance (Penicillium fungi). For a long time they remained the most popular medicine for the treatment of infectious diseases.
• Cephalosporins belong to the group of the most powerful antimicrobial agents with a wide range of applications. They completely destroy pathogenic flora and are well tolerated by humans.
• Macrolides are the name of a group of narrow-range antimicrobial agents. They do not destroy the diseased cell, but only stop its growth. This category includes the following drugs: erythromycin, spiramycin, azithromycin.
• Tetracyclines are good drugs for the treatment of infectious diseases of the respiratory and urinary tract.
• Fluoroquinolones are antimicrobial agents with a wide range of effects. Completely destroy pathogenic microorganisms. You can find 1st-2nd generation medications on sale. Doctors usually prescribe them to combat Pseudomonas aeruginosa.
• Aminoglycosides are antimicrobial drugs with a wide range of applications. Popular drugs in this group - streptomycin (therapy of tuberculosis, plague) and gentamicin - are used as ointments, eye drops, and injections for ophthalmic infections.

Generations of drugs. Advanced antimicrobial drugs already have six generations. For example, penicillin was the first drug of natural origin, while the third or sixth generation is an already improved version, which includes the strongest inhibitors. The relationship is direct: the newer the generation, the more effective the effect of drugs on pathogenic microflora.

By method of administration. Oral – taken by mouth. These are various syrups, tablets, soluble capsules, suspensions. Parenteral - administered intravenously or intramuscularly. They work faster than oral medications. Rectal medications are injected into the rectum.

Important! Taking antibiotics is allowed only after consulting a doctor, otherwise antibiotic resistance will develop.

Summary

We reviewed Russian and imported broad-spectrum antibiotics and briefly described the classification of drugs. Let's answer the question: which antibacterial agents to choose?

It is important to understand that antimicrobial drugs for extensive use are toxic and therefore negatively affect the microflora. In addition, bacteria mutate, which means the drugs lose their effectiveness. Therefore, antibacterial agents with the latest structure will be a priority over their earlier counterparts.

Self-medication with antibiotics is dangerous to health. In case of an infectious disease, the first step is to consult a doctor. The specialist will determine the cause of the disease and prescribe effective antibacterial agents. Self-medication “at random” leads to the development of antibiotic resistance.

Spectrum of action

There are antibacterial agents:

Causes

Pneumonia is caused by various microbes (viruses, bacteria, fungi and parasites). However, in most cases the cause is viruses. These include adenoviruses, rhinoviruses, influenza virus (influenza), respiratory syncytial virus (RS virus), coronaviruses, and parainfluenza virus (which can also cause false croup).

Often, pneumonia begins after an upper respiratory tract infection (URTI), and symptoms of pneumonia appear after 2-3 days of a “cold” or sore throat. Sometimes in such cases they say that the infection “went down to the lungs.” Fluid, white blood cells and “all sorts of debris” begin to accumulate in the air spaces of the lungs and block the unobstructed passage of air, complicating gas exchange.

Children with pneumonia caused by bacteria usually become very ill; against the background of complete health, a high fever with chills rises sharply, and shortness of breath appears. Children with pneumonia caused by viruses often have a more gradual onset of acute respiratory viral infections, although wheezing may be more pronounced.

Some symptoms provide important clues about which microorganism is causing pneumonia. For example:

• Pneumonia caused by mycoplasma is very common in older children and adolescents. In addition to the usual symptoms of pneumonia, it causes a severe sore throat, headache and rash.
• In infants, pneumonia caused by chlamydia can cause conjunctivitis and be mild and without fever.
• When pneumonia is caused by whooping cough, the baby may have characteristic, prolonged coughing spells, during which they may turn blue from lack of air or make the classic screaming sound when trying to take a breath (reprise). See video. Fortunately, there is a whooping cough vaccine that protects against both this form of pneumonia and the disease.
• The length of the incubation period (the time interval between infection and the onset of symptoms) varies depending on the organism causing the pneumonia (for example, 4 to 6 days for the RS virus and 18 to 72 hours for the flu).