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Respiratory Pathophysiology 

S&S of Pulmonary Disease

  • Dyspnea: subjective sensation of uncomfortable breathing (SOB & difficulty breathing)

  • Orthopnea: dyspnea while laying down

  • Paroxysmal nocturnal dsypnea (PND): violent attacks of severe SOB and coughing; only occurs at night and awakes person from sleep

    • The emotional is more severe than the physical for patients

  • Finger clubbing → hypoxic epithelial tissue compensates and grows new blood vessels

    • 160º → normal finger and nail bed

    • 180º → early clubbing

    • 180º → moderate & advanced clubbing

  • Coughing

    • Acute cough → less than 14 days

    • Chronic cough → more than 14 days

  • Sputum: should generally be odorless (if putrid = tissue death)

    • Productive cough: coughing up sputum

    • Non-productive cough: no sputum

    • Bloody: hemoptysis

      • Blood-streaked sputum: inflammation, lung cancer in lower airway

      • Pink sputum: sputum evenly mixed with blood from alveoli and or small peripheral bronchi → CHF (pulmonary edema)

      • Massive blood: TB, tumor, abscess, pulmonary embolism

    • Yellow(ish): purulent/pus = bacterial pneumonia

    • Green/greenish: longstanding lung infection = chronic bronchitis

    • Rust colored: TB, pneumococcal pneumonia

Breathing Patterns

  • Tachy=fast/rapid

  • Brady=slow

  • Hypoventilation → Hypercapnia (deep breath)

  • Hyperventilation → Hypocapnia (shallow depth)

  • Eupnea: normal breathing rate and pattern

  • Tachypnea: increased respiratory rate, caused by: fever, anxiety, shock

  • Bradypnea: Decreased respiratory rate, caused by: sleep, drugs, metabolic disorders, head injury, stroke

  • Apnea: absence of breathing, caused by: death, head injury, stroke

  • Hyperpnea: normal rate, but deep respirations, caused by: emotional stress, diabetic ketoacidosis

  • Cheyne-Stokes: gradual increases and decreases in respirations with periods of apnea, caused by: NEURO, increasing intracranial pressure, brain stem injury

  • Biot’s: rapid deep respirations (gasps) with short pauses between sets, caused by: spinal meningitis, CNS causes, head injury

  • Kussmaul’s: tachypnea and hypernea, caused by: renal failure, metabolic acidosis, diabetic ketoacidosis

  • Apneustic: prolong inspiratory phase with shortened expiratory phase, caused by: lesion in brain stem

Adventitious Breath Sounds

  • Crackles (rales): bronchioectasis, bronchitis, pneumonia, fibrosis, CHF; course vs. fine

    • Discontinuous

  • Wheezes: asthma, COPD and airway obstruction

    • Continuous

  • Rhonchi: suggests secretions in the large airway

    • Continuous

Pleural Abnormalities

  • Pneumothorax → air ends up in thoracic cavity → causes lung collapse

    • Spontaneous (PRIMARY) pneumothorax: just happens, occurs in thin, tall, white, male, smokers at risk

    • Secondary pneumothorax: caused by obvious lung diseases; people with cancer, cysts, infection, inflammation (always pathogenic causes)

    • @@Traumatic pneumothorax: @@

      • Iatrogenic → hospital caused (bronchoscopy most common cause)

      • Blunt vs. penetrating → stab wounds, GSWs, car crash

    • Tension pneumothorax: complication from primary OR secondary pneumothorax; causes the pressure to shift to non-affected side (can cause tracheal deviation, heart compression), ⬆️ in mortality

Lung Diseases

Restrictive Pulmonary Disorder

  • Lungs are restricted from fully expanding; troubles inhaling

    • Air has a problem going into the lungs

  • Condition: stiffness in the lungs, chest wall, weak muscles, or damaged nerves may cause restriction

Obstructive Pulmonary Disorder

  • Hard to exhale all the air in the lungs

    • Air had a problem leaving the lungs, trapped in alveoli

  • Damage to the lungs or narrowing of the airways → high amounts of air may still linger in the lungs, ⬆️ in CO2 levels

Types of Restrictive Lung Disorders

  • Parenchymal:

    • Atelectasis

    • Fluid (edema, pus, blood)

    • ARDS

    • Trauma

    • Autoimmune

    • Chronic infections

    • Occupational

    • Environmental

  • Extra-pulmonary

    • Obesity

    • Scoliosis

  • Neuromuscular

    • Myasthenia gravis

    • ALS

Types of Obstructive Lung Disorders

  • Airway narrowing and obstruction that is worse with expiration

    • Accessory muscles of expiration required

    • Increased work of breathing

  • Dyspnea and wheezing most seen with this disorder

  • Asthma, COPD (emphysema & chronic bronchitis)

Atelectasis

  • RESTRICTIVE

  • Loss of lung volume due to the collapse of alveoli

Pathogenesis:

  • Absorptions (obstructive) → can develop pneumonia → the reason why patients have to get up and walk after surgery → spirometer also reduces risk

  • Non-obstructive → loss of contact between visceral and parietal pleura; surfectant impairment (adhesive)

    • Compression (fluid, air, mass, bed-ridden)

    • Contraction (smokers, fibrosis, infection, pneumoconiosis)

ARDS

  • RESTRICTIVE

  • Acute respiratory distress syndrome

  • Most severe form of acute lung injury; highest mortality rate (impacts both alveoli & blood vessels/ alveolocapillary membrane)

Development

Acute lung injury (to blood vessels) → endothelial cell damage → activation of neutrophils/macrophages/platelets → release of inflammatory cytokines → increase aveolocapillary permeability w/edema → V/Q mismatch (shunt) & hypoxemia → ==acute respiratory failure ==

**Acute lung injury (to alveoli)**→ epithelial cell damage → type II pneumocyte damage → decreased surfectant → alveoli collapse → atelectasis and decreased lung compliance → decreased tidal volume & hypercapnia (muscles tire out) → ==acute respiratory failure ==

Manifestations

  • Dyspnea & hypoxemia (O2 sats drop)

  • Pulmonary edema

  • Increased work of breathing → hyperventilation and respir. alkalosis

  • Bilateral infiltrates on chest x-ray

  • Respiratory failure, decreased cardiac output, hypotension, death

Diagnosis & Care

  • Have to treat accordingly = supportive care

  • Hx of lung injury

  • Physical exam (won’t really show)

  • Analysis of ABGs

  • Radiologic exam

  • No exact Tx… only support

    • COVID → give antibiotics

    • Smoke inhalation → O2 treatment

    • Chemical inhalation → no Tx, have the let the chemicals absorb into the body before Tx can even be considered to treat

Asthma

  • OBSTRUCTIVE

  • Reversible airflow obstruction

  • LOCATION: Small bronchi, bronchioles

  • Typer I hypersensitivity reaction

  • Most common chronic disease in children

  • NO KNOWN CAUSE (genetic vs. environmental)

Pathogenesis

  1. Allergen or irritant exposure

  2. Mast cell degranulation and release of mediators → bind to receptors

  3. Mediator effects:

    1. Mucus production → mucus plug

    2. Vascular leak → cell edema

    3. Airway smooth muscle constriction → bronchoconstriction

    4. Neutrophil activiation → release of serotonin, histamine, and heparin

  • Trifecta of Asthma: a,b,c only

  • All have one thing shared: air is trapped in the alveoli and can’t get out (can get air in but not out)

Manifestations

  • Cough

  • Wheezing

    • Expiratory only = mild & moderate

    • Expiratory & inspiratory = SEVERE

  • SOB, tachypnea

  • Nasal flaring

  • Use of accessory muscles

  • Exercise intolerance → seen in adult population (cool weather can cause bronchospasms)

Diagnosis

  • Clinical, doesn’t require $ testing

  • ABGs

  • Pulse Ox.

  • Chest radiography

    • ABGs and Pulse Ox. determine severity

Management

  • Corticosteroids → decreases inflammatory response (edemas, mucus plugs, etc.)

  • Beta agonist: albuterol → inhaled, smooth muscle relaxation

  • Anti-cholinergic: ipratropium → relaxes muscle

  • Phosphodiesterase enzyme inhibitor: theophylline (xanthine) → vasodilation

  • Mast cell stabilizer: cromolyn sodium → for those who go outside and exercise

  • Leukotrine receptor antagonist: Zafirulkast → blocks inflammatory response

  • Monoclonal antibodies: omalizumab

  • Combination drugs → steroids, agonists/cholinergic drugs mixed together

How many attacks = how many drugs the patient will take

Classification of Asthmas

Class

Days w/symptoms

Nights w/symptoms

Severe persistent

Continual

Frequent

Moderate persistent

Daily

>5/mo

Mild persistent

>2/wk

3-4/mo

Mild intermittent

<2/wk

<2/mo

COPD

  • OBSTRUCTIVE

  • Chronic obstructive pulmonary disease

  • Umbrella term for other disease (chronic bronchitis & emphysema)

  • Not fully reversible, but can be managed

  • MOST COMMON CHRONIC LUNG DISEASE IN THE WORLD

  • Risk Factors:

    • Tobacco smoke → vaping popular in US, smoking still popular in Europe/Asia

    • Air pollution → highly populated cities with smog/pollution

    • Genetics

Chronic Bronchitis

  • ^^BLUE BLOATERS ^^

  • Hypersecretion of mucus and chronic productive cough that lasts for at least 3 consecutive months of the year and for at least 2 consecutive years

  • LOCATION: Bronchi

  • Hx of smoking

  • Living in urban areas, “dirty air”

  • 3rd leading cause of death in the US

  • Greater than 40 years old

  • ^^Overweight, cyanotic, elevated Hgb’s, peripheral edemas, rhonchi and wheezing ^^

    • Frequent infections, common CHF, large amounts of purulent pus coughed up

Emphysema

  • PINK PUFFERS

  • Abnormal, permanent dilation of gas-exchange airways accompanied by the destruction of alveolar walls (elastic septum) without obvious fibrosis

  • LOCATION: Alveoli

  • Disease of the air spaces

  • Loss of elastic recoil

  • @@Barrel chested, pursed lips, older and thin, severe dyspnea, quiet chest @@

    • Little sputum, late CHF

  • Caused by smoking or inherited deficit of alpha 1-antitrypsin

    • Trypsin digests elastic fibers, antitrypsin prevents it from digesting the elastic fibers, appears like a history of smoking; this deficit is seen in younger patients only ; loses the ability to protect elastic fibers

Diagnosis

  • Spirometry

  • ERB measured for COPD

    • IRB & ERB = functional vital capacity

  • Pulmonary function test = baseline

  • ABGs → checks for pH of blood, PO2, PCO2, HCO3-

  • Serum chemistries

  • Alpha-1-antitrypsin levels → ALWAYS DO THIS (young vs. old patients)

  • Sputum evaluation → bacteria → inflammation/infection → antibiotics to treat

Treatment & Management

  • ==In truth, some patients just won’t make the changes and won’t care about their health ==

  • Improvement of functional status, symptoms, and quality of life

  • Preventing recurrences

  • NO Tx available to improve lung function, other than lung transplants

  • O2 therapy when appropriate

  • Smoking cessation may reduce mortality

Pneumonia

  • Any infection of the lung tissue (parenchyma); alveoli filled with fluid & pus

  • Typical pneumonia: fever (high, 101.5), cough (productive), rigor (chills); lobar pneumonia & bronchopneumonia

  • Atypical pneumonia: fever (low, <100), cough (non-productive); “walking pneumonia (PAP)”

Community Acquired Pneumonia

  • Clinical setting = community (walking into hospital/doctor’s office)

  • Non-hospitalized or previous ambulatory patient

  • Bronchial breath sounds and crackles on auscultation; fever, cough, sputum production, rigors, pleuritic chest pain, dyspnea, tachycardia

  • TYPICAL:

    • S. pneumonia, H. influenza, Legionella

      • S. pneumonia is most common and most fatal

  • ==ATYPICAL: ==

    • Mycoplasma, Chlamydia

      • Virus

        • Respiratory syncytial virus → children

        • Para-influenza → children

        • Influenza A & B → older population

        • Adenovirus → military barracks

Nosocomial Pneumonia

  • Gram - rods

  • MRSA

  • Alcoholics, bed-ridden, stroke, unconscious

  • ==Ventilators = highest chance to develop nosocomial infections (pseudomonas aerugionsa) ==

  • Asplenic patients

  • Chronic

  • Necrotizing

  • Immunocompromised (HIV, cancer therapy)

Pulmonary Tuberculosis

  • Caused by an acid-fast bacillus, mycobacterium tuberculosis (AIRBORNE)

    • Living in crowded conditions

    • Immunodeficiency

    • Malnutrition & alcoholism → seen in the homeless

    • War

    • Chronic disease

  • Pathogenesis → tubercule/granuloma formation → caseous necrosis

Clinical Presentation (for chronic infectious disease)

  • Cough w/blood

  • Weight loss/anorexia

  • Fever (low grade, 100-100.5)

  • ==NIGHT SWEATS = distinctive sign of active infection ==

  • Hemoptysis

  • Chest pain

  • Fatigue

Active Infections

  • Acid-fast sputum smear test (when + = active TB)

    • Early morning, 3 consecutive days of collecting

  • Chest radiography → shows active TB

  • Drug susceptibility testing

  • Tx depends

Diagnostics

  • Blood test: IGRAs

    • $

    • Single patient visit

    • CDC recommended

  • Tuberculin skin test: TST

    • Recorded 2-3 days after 1st administration

5 mm

==HIGH RISK ==

HIV infected patients, people exposed to a person w/active TB, asplenic patients

10 mm

Moderate risk

Recent immigrants, drug users (injections), children <4yrs, infants/children/adolescents exposed to adults at high risk for developing TB

15 mm

Low risk

Any person including persons with NO known risk factors for TB

  • HIV serology test → HIV & TB go hand in hand, so always good to check if HIV is +

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Respiratory Pathophysiology 

S&S of Pulmonary Disease

  • Dyspnea: subjective sensation of uncomfortable breathing (SOB & difficulty breathing)

  • Orthopnea: dyspnea while laying down

  • Paroxysmal nocturnal dsypnea (PND): violent attacks of severe SOB and coughing; only occurs at night and awakes person from sleep

    • The emotional is more severe than the physical for patients

  • Finger clubbing → hypoxic epithelial tissue compensates and grows new blood vessels

    • 160º → normal finger and nail bed

    • 180º → early clubbing

    • 180º → moderate & advanced clubbing

  • Coughing

    • Acute cough → less than 14 days

    • Chronic cough → more than 14 days

  • Sputum: should generally be odorless (if putrid = tissue death)

    • Productive cough: coughing up sputum

    • Non-productive cough: no sputum

    • Bloody: hemoptysis

      • Blood-streaked sputum: inflammation, lung cancer in lower airway

      • Pink sputum: sputum evenly mixed with blood from alveoli and or small peripheral bronchi → CHF (pulmonary edema)

      • Massive blood: TB, tumor, abscess, pulmonary embolism

    • Yellow(ish): purulent/pus = bacterial pneumonia

    • Green/greenish: longstanding lung infection = chronic bronchitis

    • Rust colored: TB, pneumococcal pneumonia

Breathing Patterns

  • Tachy=fast/rapid

  • Brady=slow

  • Hypoventilation → Hypercapnia (deep breath)

  • Hyperventilation → Hypocapnia (shallow depth)

  • Eupnea: normal breathing rate and pattern

  • Tachypnea: increased respiratory rate, caused by: fever, anxiety, shock

  • Bradypnea: Decreased respiratory rate, caused by: sleep, drugs, metabolic disorders, head injury, stroke

  • Apnea: absence of breathing, caused by: death, head injury, stroke

  • Hyperpnea: normal rate, but deep respirations, caused by: emotional stress, diabetic ketoacidosis

  • Cheyne-Stokes: gradual increases and decreases in respirations with periods of apnea, caused by: NEURO, increasing intracranial pressure, brain stem injury

  • Biot’s: rapid deep respirations (gasps) with short pauses between sets, caused by: spinal meningitis, CNS causes, head injury

  • Kussmaul’s: tachypnea and hypernea, caused by: renal failure, metabolic acidosis, diabetic ketoacidosis

  • Apneustic: prolong inspiratory phase with shortened expiratory phase, caused by: lesion in brain stem

Adventitious Breath Sounds

  • Crackles (rales): bronchioectasis, bronchitis, pneumonia, fibrosis, CHF; course vs. fine

    • Discontinuous

  • Wheezes: asthma, COPD and airway obstruction

    • Continuous

  • Rhonchi: suggests secretions in the large airway

    • Continuous

Pleural Abnormalities

  • Pneumothorax → air ends up in thoracic cavity → causes lung collapse

    • Spontaneous (PRIMARY) pneumothorax: just happens, occurs in thin, tall, white, male, smokers at risk

    • Secondary pneumothorax: caused by obvious lung diseases; people with cancer, cysts, infection, inflammation (always pathogenic causes)

    • @@Traumatic pneumothorax: @@

      • Iatrogenic → hospital caused (bronchoscopy most common cause)

      • Blunt vs. penetrating → stab wounds, GSWs, car crash

    • Tension pneumothorax: complication from primary OR secondary pneumothorax; causes the pressure to shift to non-affected side (can cause tracheal deviation, heart compression), ⬆️ in mortality

Lung Diseases

Restrictive Pulmonary Disorder

  • Lungs are restricted from fully expanding; troubles inhaling

    • Air has a problem going into the lungs

  • Condition: stiffness in the lungs, chest wall, weak muscles, or damaged nerves may cause restriction

Obstructive Pulmonary Disorder

  • Hard to exhale all the air in the lungs

    • Air had a problem leaving the lungs, trapped in alveoli

  • Damage to the lungs or narrowing of the airways → high amounts of air may still linger in the lungs, ⬆️ in CO2 levels

Types of Restrictive Lung Disorders

  • Parenchymal:

    • Atelectasis

    • Fluid (edema, pus, blood)

    • ARDS

    • Trauma

    • Autoimmune

    • Chronic infections

    • Occupational

    • Environmental

  • Extra-pulmonary

    • Obesity

    • Scoliosis

  • Neuromuscular

    • Myasthenia gravis

    • ALS

Types of Obstructive Lung Disorders

  • Airway narrowing and obstruction that is worse with expiration

    • Accessory muscles of expiration required

    • Increased work of breathing

  • Dyspnea and wheezing most seen with this disorder

  • Asthma, COPD (emphysema & chronic bronchitis)

Atelectasis

  • RESTRICTIVE

  • Loss of lung volume due to the collapse of alveoli

Pathogenesis:

  • Absorptions (obstructive) → can develop pneumonia → the reason why patients have to get up and walk after surgery → spirometer also reduces risk

  • Non-obstructive → loss of contact between visceral and parietal pleura; surfectant impairment (adhesive)

    • Compression (fluid, air, mass, bed-ridden)

    • Contraction (smokers, fibrosis, infection, pneumoconiosis)

ARDS

  • RESTRICTIVE

  • Acute respiratory distress syndrome

  • Most severe form of acute lung injury; highest mortality rate (impacts both alveoli & blood vessels/ alveolocapillary membrane)

Development

Acute lung injury (to blood vessels) → endothelial cell damage → activation of neutrophils/macrophages/platelets → release of inflammatory cytokines → increase aveolocapillary permeability w/edema → V/Q mismatch (shunt) & hypoxemia → ==acute respiratory failure ==

**Acute lung injury (to alveoli)**→ epithelial cell damage → type II pneumocyte damage → decreased surfectant → alveoli collapse → atelectasis and decreased lung compliance → decreased tidal volume & hypercapnia (muscles tire out) → ==acute respiratory failure ==

Manifestations

  • Dyspnea & hypoxemia (O2 sats drop)

  • Pulmonary edema

  • Increased work of breathing → hyperventilation and respir. alkalosis

  • Bilateral infiltrates on chest x-ray

  • Respiratory failure, decreased cardiac output, hypotension, death

Diagnosis & Care

  • Have to treat accordingly = supportive care

  • Hx of lung injury

  • Physical exam (won’t really show)

  • Analysis of ABGs

  • Radiologic exam

  • No exact Tx… only support

    • COVID → give antibiotics

    • Smoke inhalation → O2 treatment

    • Chemical inhalation → no Tx, have the let the chemicals absorb into the body before Tx can even be considered to treat

Asthma

  • OBSTRUCTIVE

  • Reversible airflow obstruction

  • LOCATION: Small bronchi, bronchioles

  • Typer I hypersensitivity reaction

  • Most common chronic disease in children

  • NO KNOWN CAUSE (genetic vs. environmental)

Pathogenesis

  1. Allergen or irritant exposure

  2. Mast cell degranulation and release of mediators → bind to receptors

  3. Mediator effects:

    1. Mucus production → mucus plug

    2. Vascular leak → cell edema

    3. Airway smooth muscle constriction → bronchoconstriction

    4. Neutrophil activiation → release of serotonin, histamine, and heparin

  • Trifecta of Asthma: a,b,c only

  • All have one thing shared: air is trapped in the alveoli and can’t get out (can get air in but not out)

Manifestations

  • Cough

  • Wheezing

    • Expiratory only = mild & moderate

    • Expiratory & inspiratory = SEVERE

  • SOB, tachypnea

  • Nasal flaring

  • Use of accessory muscles

  • Exercise intolerance → seen in adult population (cool weather can cause bronchospasms)

Diagnosis

  • Clinical, doesn’t require $ testing

  • ABGs

  • Pulse Ox.

  • Chest radiography

    • ABGs and Pulse Ox. determine severity

Management

  • Corticosteroids → decreases inflammatory response (edemas, mucus plugs, etc.)

  • Beta agonist: albuterol → inhaled, smooth muscle relaxation

  • Anti-cholinergic: ipratropium → relaxes muscle

  • Phosphodiesterase enzyme inhibitor: theophylline (xanthine) → vasodilation

  • Mast cell stabilizer: cromolyn sodium → for those who go outside and exercise

  • Leukotrine receptor antagonist: Zafirulkast → blocks inflammatory response

  • Monoclonal antibodies: omalizumab

  • Combination drugs → steroids, agonists/cholinergic drugs mixed together

How many attacks = how many drugs the patient will take

Classification of Asthmas

Class

Days w/symptoms

Nights w/symptoms

Severe persistent

Continual

Frequent

Moderate persistent

Daily

>5/mo

Mild persistent

>2/wk

3-4/mo

Mild intermittent

<2/wk

<2/mo

COPD

  • OBSTRUCTIVE

  • Chronic obstructive pulmonary disease

  • Umbrella term for other disease (chronic bronchitis & emphysema)

  • Not fully reversible, but can be managed

  • MOST COMMON CHRONIC LUNG DISEASE IN THE WORLD

  • Risk Factors:

    • Tobacco smoke → vaping popular in US, smoking still popular in Europe/Asia

    • Air pollution → highly populated cities with smog/pollution

    • Genetics

Chronic Bronchitis

  • ^^BLUE BLOATERS ^^

  • Hypersecretion of mucus and chronic productive cough that lasts for at least 3 consecutive months of the year and for at least 2 consecutive years

  • LOCATION: Bronchi

  • Hx of smoking

  • Living in urban areas, “dirty air”

  • 3rd leading cause of death in the US

  • Greater than 40 years old

  • ^^Overweight, cyanotic, elevated Hgb’s, peripheral edemas, rhonchi and wheezing ^^

    • Frequent infections, common CHF, large amounts of purulent pus coughed up

Emphysema

  • PINK PUFFERS

  • Abnormal, permanent dilation of gas-exchange airways accompanied by the destruction of alveolar walls (elastic septum) without obvious fibrosis

  • LOCATION: Alveoli

  • Disease of the air spaces

  • Loss of elastic recoil

  • @@Barrel chested, pursed lips, older and thin, severe dyspnea, quiet chest @@

    • Little sputum, late CHF

  • Caused by smoking or inherited deficit of alpha 1-antitrypsin

    • Trypsin digests elastic fibers, antitrypsin prevents it from digesting the elastic fibers, appears like a history of smoking; this deficit is seen in younger patients only ; loses the ability to protect elastic fibers

Diagnosis

  • Spirometry

  • ERB measured for COPD

    • IRB & ERB = functional vital capacity

  • Pulmonary function test = baseline

  • ABGs → checks for pH of blood, PO2, PCO2, HCO3-

  • Serum chemistries

  • Alpha-1-antitrypsin levels → ALWAYS DO THIS (young vs. old patients)

  • Sputum evaluation → bacteria → inflammation/infection → antibiotics to treat

Treatment & Management

  • ==In truth, some patients just won’t make the changes and won’t care about their health ==

  • Improvement of functional status, symptoms, and quality of life

  • Preventing recurrences

  • NO Tx available to improve lung function, other than lung transplants

  • O2 therapy when appropriate

  • Smoking cessation may reduce mortality

Pneumonia

  • Any infection of the lung tissue (parenchyma); alveoli filled with fluid & pus

  • Typical pneumonia: fever (high, 101.5), cough (productive), rigor (chills); lobar pneumonia & bronchopneumonia

  • Atypical pneumonia: fever (low, <100), cough (non-productive); “walking pneumonia (PAP)”

Community Acquired Pneumonia

  • Clinical setting = community (walking into hospital/doctor’s office)

  • Non-hospitalized or previous ambulatory patient

  • Bronchial breath sounds and crackles on auscultation; fever, cough, sputum production, rigors, pleuritic chest pain, dyspnea, tachycardia

  • TYPICAL:

    • S. pneumonia, H. influenza, Legionella

      • S. pneumonia is most common and most fatal

  • ==ATYPICAL: ==

    • Mycoplasma, Chlamydia

      • Virus

        • Respiratory syncytial virus → children

        • Para-influenza → children

        • Influenza A & B → older population

        • Adenovirus → military barracks

Nosocomial Pneumonia

  • Gram - rods

  • MRSA

  • Alcoholics, bed-ridden, stroke, unconscious

  • ==Ventilators = highest chance to develop nosocomial infections (pseudomonas aerugionsa) ==

  • Asplenic patients

  • Chronic

  • Necrotizing

  • Immunocompromised (HIV, cancer therapy)

Pulmonary Tuberculosis

  • Caused by an acid-fast bacillus, mycobacterium tuberculosis (AIRBORNE)

    • Living in crowded conditions

    • Immunodeficiency

    • Malnutrition & alcoholism → seen in the homeless

    • War

    • Chronic disease

  • Pathogenesis → tubercule/granuloma formation → caseous necrosis

Clinical Presentation (for chronic infectious disease)

  • Cough w/blood

  • Weight loss/anorexia

  • Fever (low grade, 100-100.5)

  • ==NIGHT SWEATS = distinctive sign of active infection ==

  • Hemoptysis

  • Chest pain

  • Fatigue

Active Infections

  • Acid-fast sputum smear test (when + = active TB)

    • Early morning, 3 consecutive days of collecting

  • Chest radiography → shows active TB

  • Drug susceptibility testing

  • Tx depends

Diagnostics

  • Blood test: IGRAs

    • $

    • Single patient visit

    • CDC recommended

  • Tuberculin skin test: TST

    • Recorded 2-3 days after 1st administration

5 mm

==HIGH RISK ==

HIV infected patients, people exposed to a person w/active TB, asplenic patients

10 mm

Moderate risk

Recent immigrants, drug users (injections), children <4yrs, infants/children/adolescents exposed to adults at high risk for developing TB

15 mm

Low risk

Any person including persons with NO known risk factors for TB

  • HIV serology test → HIV & TB go hand in hand, so always good to check if HIV is +