Respiratory Intensive 2021 PDF

Summary

This document is a study guide or lecture notes on respiratory intensive care. It discusses investigations of the respiratory system, measurement of ventilator capacity, and types of respiratory diseases. It also includes tables and diagrams relevant to the topic. The document mentions various parameters related to lung health and capacity.

Full Transcript

Respiratory Intensive 2021
Investigations of respiratory system:

Measurement of ventilator capacity
of lung is (spirometer).
*Tidal Volume: its volume of air that
is inspired & expired during rest.
*Forced vital capacity (FVC): its volume
of air that can be forcefully expired after
full inspiration.
*Residual volume: its volume of air which
remains in the lung after full expiration
(hyper-inflated chest)
+PEFM
*Total Lung Capacity: its (VC + RV).
*Functional residual capacity: its volume of
air which remains in the lung after normal expiration.
*Forced expiratory volume in 1st second (FEV1): its volumes of air which you can
forcibly expire in 1st second.

MCQ
Normaly FEV1 / FVC X 100= 70-80%.
But if pts has caugh … wheeze … or dypsnea then the type of respiratory disease is
either:
1- Obstructive FEV1 / FVC (Normal) x 100 = < 70%. Asthma – Bronchiectasis -COPD
2- Restrictive  FEV1 /FVC X 100= 70-80%.
Empysema
To differentiate between them we can use
Resting Transfer Factor (DLCO)= Chronic bronchitis
Any other cause
its increased in:
1-Obesity 2- B asthma 3- polycythemia
its decreased in :
1-Empysema 2- ILD 3- Pulmonary vasculitis
4-hypovolemia 5-PE
ABG analysis :
Normal Values of ABG: *PH: 7.35-7.45. *Po2: 80-100mmHg.. *PCO2: 35-45mmHg. *HCO3: 22-28mmol/L.
Uses : 1- respiratory failure 2- acid base balance
To convert from pKa to mmHg ( *7.5)
Respiratory Failure:
Def: inadequate to maintain metabolic requirements of body of O2 with or without increasing of CO2.

R.F I (due to ventilation perfusion Mismatch) R.F II (due to hypoventilation)
-Hypoxia (Mild). -Hypoxia (sever).
-CO2 (normal Or low due to compensatory -CO2 (High) hypercapnea,.
hyperventilation). - in chronic type II Hco3 is also high
MCQ
C/P: due to of hypoxia  irritability, confusion -due to hypoxia & corpulmonal
Reflex tachycardia / Dyspnea & central cyanosis. -hypercapnea
ICP  headache & papilledema.
Hyper dynamic circulation pounding pulse.
palmar erythema & warm hand.

Causes: *Respiratory center depression :
-Narcotics, CVA, Brain stem lesion.
Any other respiratory disease *Neuromuscular skeletal disease:
-G.B.S, M.G, Muscle fatigue in life threating
MCQ asthma, skeletal deformity.

*Airway obstruction:
-Chronic bronchitis, Late bronchiectasis, T
pneumothorax, sleep apnea syndrome.
Acute Type 2 RF:
Co2 high >50mmhg
1-life threating asthma
O2 low 28mmole (compensated)
Rx: high concentration O2 given via poly mask -Low concentration O2 (24-28%) given via
venture mask.
- mechanical ventilation if Co2 > 60 mmHg
- Acute cause = high o2
ACID BASE BALANCE:
Causes of respiratory Causes of Metabolic Causes of respiratory Causes of Metabolic
acidosis: acidosis: alkalosis: alkalosis:
Same as RF type 2 Causes of metabolic 1-stress ,panic attacks A. pts dehydrated
acidosis: 2-psychosis 1-Diarrea
Anion gap = (K+Na) – 3-high attitude 2- burns
Rx: (Hco3+ CL) 4-pyrexia 3-drugs (diuretics ,
normal = 8-16
Same as RF type 2 5-salcylates Carbonic anhydrase
A. Normal anion gap
Rx: inhibitors )
1- Gastrointestinal base
Rebreathing inside a bag
MCQ loss (diarrhea , fistula)
B. pts is volume
2-Renal tubular acidosis
overload
(RTA)
1- Cushing syndrome
3- poisoning with NH4Cl, Note: patient may
& acetazolamide 2- Conns syndrome
present with tetany as 3-drugs (steroids)
Note : B. Increased anion gap
* if the case is result of hypocalcemia 4- massive blood
1-Diabetic ketoacidosis
compensated it means transfusion
2-Starvation ketosis
chronic cause
3- Lactic acidosis
* If the case is Rx:
4-Renal failure
uncompensated it means If dehydrated -------- IV
acute cause 5-Aspirin poisoning,
fluids
Methanol poisoning ,
Ethylene glycol poisoning
If volume over loaded ---
---- acetazolamide or
Rx: if PH > 7 ----- treat dialysis if failed
cause only
If PH < 7 ----- treat
cause & give NaHco3

Home Work: 2017: Q1 to Q16
1001: 112 – 116 – 124 – 139 – 142 – 151 – 154 – 155- 197- 202 – 216 – 223- 224 – 225

Obstructive airway disease
Physiology: Anatomy of Bronchial tree:

1-Function of URT Conduction of air.
2-Function of LRT  Gas Exchange.
MCQ

1)Chronic Obstruction airway diseases
Def: chronic slowly progressive airway disease which
is irreversible due to destruction of airway ( but
70yrs
Definition  abnormal dilation of airway distal terminal bronchiole. MCQ

Decrease in surfactant amount by damage of pneumocyte II & presented by pursed
lips as a reflex to prevent a collapse.
Due to of destruction of Elastic tissue  Active Exp (Dyspnea & w.t loss) become
thin & as a reflex to avoid a dyspnea  Tripod position.

R.F I

Mild hypoxia Normal or low Co2 (washout).
–Reflex 2ry polycythemia (malar rash) pink.

C/P: pursed lips breathing, tripod position (dyspnic). MCQ + clinic
Malar rash, thin & old pt.
Dx: by High C.T scan resolution.
 Patient with COPD has : 1/no clubbing. 2/no hemoptysis,
if present (devolpe to Bronchiectasis or Bronchogenic CA ).
KEY words in COPD:
Chest Examination in COPD :
1- Smoker
1/ Inspection: 2- Productive cough
*Lt thoracotomy, surgical removal of bleb (Emphysema). 3- Barrel shaped chest
*deformity barrel chest 60 Emphysema. 4- Bilateral basal crepitation
*chest movement restricted  air entry.
2/Percussion: hyper resonance = Hyperinflated chest  bilateral.
3/ palpation: chest expansion . TVF.
4/Auscultation: - Air entry  Diminished..
Breathing  Vesicular or (harsh vesicular in sever stage). Added sound:
Ronchi Expiratory musical sound due to passage of air in narrow tube below carini angle.
If there is Ins & Exp Ronchi at same time that mean its ER sever COPD.

Q= Clinical examination, How determine if the case need admission?
Harsh vesicular breathing – & Inspiratory & Expiratory Ronchi.
Bilateral Coarse Crepitation = Its Early inspiratory. & disappears with cough.
* Complication of COPD:
1/ Bulles Rupture  pneumothorax. 2/ Pulmonary HTN = R.t H.F.
3/ RFII. 4/ Recurrent Infection. 5/ Polycytemia

*Prognosis according to BODE:
1/BMI. 2/Obstruction. 3/Dyspnea. 4/Exercise.

1/RFI  Emphysema.
INV: ABG 2/RFII  ch.Bronchitis.

WBC: infection, if low due to inf with
staph aures b/c coagulase enzyme
LAB destruction of WBC.
HB: due to polycythemia.

PFT Imaging MCQ
*Chest X-ray:
*FEV1/FVC 60% (>60-70%).
Late, signs of hyper inflated chest.=
Moderate 33-59% (40-59%).
Sever FEV1
IF Asthma >15%. IF COPD add Theophylline, ( phosphodiesterase inhibiter  bronchodilator. (Theophylline is
a pro arythmogenic drug).
3/ Long Term Domiciliary O2 Therapy (LTOT): its small O2 tank gives low
concentration 2L/min by nasal cannula. Indications:
1-Sever hypoxia O2< 60 mmHg. 2-Sever hypercapnea > 60 mmHg.
3-Corpulmonale + 2ry polycythemia.
4/ Res infection Rx: (as soon as possible by Abs) if:
1-Increase in mucous amount. 2- Change of its colure.
3- Change smell. 4- Increase cosistancy
NB. So Abs not always required ( given in selected cases)
5/ Mucolytic & Expectorant:
- Advise physiotherapy. –Cough suppression (not used).
6/ Surgery to bullectomy.

Home work: 2017: Q17 to Q23. 1001: Q119 – 131 – 137 – 191 – 195 – 226 – 227

2)Bronchial Asthma.

Def: chronic reversible MCQ
inflammatory characterized by hyper-
responsiveness (HSVI disorder
{IgE-Esinophils}) of air way stimuli 
Obstruction.
 Types of clinical bronchial asthma :
MCQ
Extrinsic Asthma. Intrinsic Asthma.
Triggering Pollen – dust mite MCC- pits- Exercise-smoking Internally.
factor: Infection-house mite-cold air.
Age: Childhood. Age: Adult hood.
*+ skin prick test. *No allergen. *SPT: -ve.
* Atopy +ve (H/S).(Smoking during Pregnancy *Atopy-ve.
increases risk) *All over the year.
*Seasonal. *Attacks more severe
*Attacks(less severe & frequent). *poor prognosis
*Good prognosis Remission with Teens.
Rx: Stop expose to allergen. Mast cell stabilizer (Na chromgylate).
 Bronchospasm. Bronchospasm.
Drug Induced Asthma:
1/ NSAIDS: Aspirine inhibation of (Cyclo oxygenase) pathway  P.G with increasing of leukotriene
by (Lypo oxygenase)  Bronchospasm.

Nasal Polyps *Sametr’s Triad
*Widals Syndrome.
Aspirin induced Asthma Sinusitis.
MCQ
2/B-Blocker  block of B receptor  bronchospasm Rx: stop the drug.

*Exercise Induced Asthma:
Dryness of airway  Histamine  by Rupture of mast cell.
Dx: FEV1 decreases after exercise by (>15%).
Rx: -warming up. – short duration (salbutamol) -Leukotrein Antagonist (Zafir leukast - Monte leukast).
–Swimming. - Corticosteroids can be used

*Occupational Asthma : CP increases in weekend Rx: change work

*Nocturnal Asthma: Rx:  long acting B-agonist (Salmetrol).

C/P: Chronic Dry Cough. Cough variant asthma=
patient only CP is cough
Dyspnea. Wheeze.
Nocturnal due to:
Types of Asthma: 1-Mite.
MCQ + clinic
1- Bronchial Asthma. 2- Cortisone level.
2-Gastric Asthma  GERD. 3- function of cilia.
4-cold air.
3-Cardiac Asthma  L.t H.F.

Key words in Bronchial Asthma:
1- Cough ( dry)
2- Wheeze , dyspnea (intermittent)
3- Barrel shaped chest
 4-Infectioues Asthma Whooping Cough & T.B.
Examination: Same as COPD But there is No Crepitation.

ABG 1/RFI  Mild Moderate & Sever.
INV: 2/RFII  Life threating Asthma, due to fatigability.

LAB
PFT Imaging CXR: signs of hyper inflated chest during
attack but not diagnostic.
*FEV1/FVC 33%. Admission. crystalscrystals of Eosinophilia.
Life Threating Asthma FEV1. *FEV1: --- oral pridinsilone (14 days ) – how much > FEV1IF
Asthma >15% improvement. IF COPD 20
Clinical grading in Bronchial Asthma :
GINA (Day). GINA (Night). PFT
Mild Intermittent 2/months. Normal
Moderate persistent Daily with affect activity. >1/week. 60-70%
Sever persistent Interfere with daily activity. Frequent. 50-60

MCQ + clinic
*Management of Chronic Bronchial Asthma:
s/e= tremor,
Before starting this step (5) YOU should
1- Salbutamol (Short muscle cramps ,
ask pt about:
acting) B2 Agonist inhaler. hypokalemia
- How does he use a drug?.
2- Salbutamol + Corticosteroid 400mg inhaler. -
-make sure pharmaceutical company.
-Do Bronchoscopy to exclude aspergillosis.
Advise Pt to gurgling by mouth wash to fungal
infection & vocal cord paralysis due to fibrosis.

3-A= Salbutamol + C.S 400mg + Salmetrol.
B= Salbutamol + C.S 800mg + Salmetrol.

4-A= Salbutamol + C.S 800mg + Salmetrol + L.K Antagonist or Aminophylline
B= Salbutamol + C.S 2000mg + Salmetrol + L.K Antagonist or Aminophylline

5-Salbutamol + C.S 2000mg + Salmetrol + L.K Antagonist or Aminophylline + oral Steroid.
Acute severe Asthma & Life Threating Asthma
MCQ + clinic
Acute severe Asthma Life Threating Asthma
PEFR 110 b/min. Bradycardia.
Bp Pulses paradoxical. /
C/P Unable complete a sentence. Drowsy & Cyanosed.
Chest Rhonchi all over the chest. Silent.
CO2 Normal. CO2
PH Normal. Acidosis.

Home work: 2017: Q24 to Q33. 1001: Q113 – 123 – 126 – 130 – 134 – 136 – 153 – 161 – 189 – 203 – 208 –
215 – 217 – 229 – 230 – 231

3-Bronchiectasis

Def: Abnormal dilatation of large air way due to destruction.
Causes:
MCQ Destruction
Inflammation
1-suppurative pneumonia
2- measles or whopping cough All layers

H/o of Pneumonia Infection hypogammaglobulinemia

Mucous accumulation

Cilliary Dysfunction. Air way

Ex Bronchi: Intra Bronchi:
1/kartagener syndrome -T.B (Broc’s Syndrome) -F.B.
2/Youngs Syndrome - Br carcinoma. -Aspergellposis

3/Immotile cilia.

4/Cystic Fibrosis(AR defect in long arm of chromosome 7)

Complications of cystic fibrosis
1- Infective exacerbations of bronchiectasis
2- Spontaneous pneumothorax 3- Haemoptysis
4- Nasal polyps 5- Respiratory failure
C/P:

Constitutional Symptoms Inflammation Destruction
*(Fever – malaise – headache – *Massive Hemoptysis.
Anorexia – Vomiting – loss of w.t). *Dry Bronchiectasis( Sica).

*Pus formation Infection *Headache & convulsions.

-Halitosis. Wheeze
-Clubbing.
-High Grade Fever. Mucous Accumulation
-Amyloidosis.
Productive cough Dyspnea

MCQ *Cillary Dysfunction
-Massive sputum.
DD of hemoptysis -Thick purulent.
Bronchial disease -Worse at morning.
*Carcinoma -Coarse crepitation.
*Bronchiectasis
*Acute bronchitis
- Related to posture.
Bronchial adenoma
FB+ Endotracheal intubation Clinical examination same as COPD
Parenchymal disease
*Tuberculosis
Lung abscess & Infections
Complications:
MCQ
Trauma 1-Pneumonia,
Asbestosis (rare) 2-Lung Abscess,
Lung vascular disease 3-metastatic brain abscess,
*Pulmonary infarction 4-open pneumothorax,
Goodpasture's syndrome 5- pleurtic chest pain,
Idiopathic pulmonary 6-Empyema
haemosiderosis + PAN 7-lung collapse
A-V malformation
8- 2ry amyloidosis
Cardiovascular disease
*Acute left ventricular failure
Mitral stenosis
Aortic aneurysm Key words in Bronchiectasis :
Blood disorders 1- Productive caugh ( Purulent, positional)
Leukaemia 2- Hemoptysis
Haemophilia 3- Clubbing
Anticoagulants 4- Bilateral basal crepitation
 CBC, ESR, CRP
Sputum analysis
To detect cause:
Chest xray = Air bronchogram , dextrocardia
Investigation:
Sweat test
RF 1 ABG positive perception of aspergillus niger

PFT Imaging
FEV1/FVC LAB Chest x ray or CT scan (honey
500 5-Oligimic lung field MCQ
ECG:
LAB 1- S.T, T wave abnormality,
2- sins tachycardia – common
Imaging: 3- S1Q3T3 --- specific but not sensitive
Any Exudate filling with 4- incomplete RT BBB
Eosinophil’s  Pulmonary V/Q Scan Abnormal Ventilation perfusion
Embolism. scan exclude Dx.
C.T angiogram: Diagnostic of site of
obstruction.
 Management of pulmonary Embolism:
MCQ + Clinic
Do quick assessment to the pts.

A: Maintain Air Way.
Give Morphine & Metoclopramide.
B: Breathing, give O2 (60%).
C: insert 2 large cannulas.
To Pain & Anxiety.
CBC, CRP + D-dimer
ABG
C- X ray & ECG
CT pulmonary angio Give immediately 10,000 unit of
Heparin. ( Not safe in renal faliuer)
Un- stable
Maintenance: dose 18u/kg/hr.

>90/60:
- Rapid Colloid Effusion. stable
-Thrombolytic.
Give Warfarin 10mg /24hr.

Note: in pregnancy DOC is LMW heparin *Identifiable *Non Identifiable

-Continues 3months. -Continue for 6 months

*Recurrence*
- On warfarin & recurrence IVC & Filter Paper.
-Continues for warfarin for a life.

Home work: 2017: Q88 to Q96. 1001: Q45 – 111 – 120 – 135 – 150 – 170 – 172 – 190 – 207 – 211 – 233

Pleural Effusion.

Def: Accumulation of fluid in the pleural space > 50ml.
MCQ
C/P: as short case
Inspection: scar  chest tube scar (which indicate recurrence P.E d/t
malignancy. Bulging in the lower part  chest movement.
Palpation: -chest expansion. -TVF
Percussion: - Dullness in the lower part  Stony Dullness
 D/D: -Pleural effusion. –Lung Fibrosis. –Lung consolidation.. -Pleural Thickening. –Raised Hemi diaphragm. Key Words:
Auscultation: 1- Dyspnea
Diminished air entry. 2- Absent of pluritic rub
3- Stony dullness
Vesicular Breathing which is very hard to heard at site of effusion,
*bronchial breathing if you put a stethoscope at upper part of pleural effusion

INV: ABG RFI. MCQ + Clinic

*Mild Pleural Effusion: 50-200ml
Lateral Decubitus X-Ray showing 
LAB Obliteration of constophrenic angle,
U/Sbest.
PFT > 70%. Imaging

*Moderate Pleural Effusion: 200- *Massive Pleural Effusion: >500ml
500ml Chest X-Ray showing  Chest X-Ray showing  Homogenous white
Homogenous white opacity in lower zone opacity with obliteration of costo phrenic &
Crescent shape (Meniscus Sign). cardio phrenic angle. Trachea is pushed.

Q- Detect the underlying cause? -By Tab or Diagnostic Thoracocentesis 40ml.
-Bacteriology: Gram stain – Ziehl neelsen stain.(not always isolated)
–Biochemistry: (Pr – LDH – Amylase – Sugar & PH).
–Cytology: Types of cells.
–Immunology: * Rheumatoid factor ----> R.A. *ANA----> SLE.

*Macroscopically Examination of pleural fluid:
1/ Red  Hemi thorax D/D (T.B, Infection, Trauma, Pneumonia, Malignancy).
2/Yellow  Empyema D/D (Infection, T.B, Sub diaphragmatic Abscess).
3/White  Chylothorax D/D (Nephrotic Syndrome, L.N obstruction, R.A, Liver Cirrhosis)
 Transudate Transudate Exudate Exudate
*CHD (LT + RT). Malnutrition TB Acute pancreatitis
*Hypothyroidism
Ma Malabsorption. Pneumonia= Malignancy.
*Meigs syndrome
Liv Liver cirrhosis. (Para pneumonic Uremia.
*PE= 0.5 (Ex) 0.6 (Ex) 200 IU/L (Ex) 1018 (Ex). 60 (Ex). 110 TAG + 5
Disappear  Resolution & days  surgery if
Re accumulation 
Discharge. Recurrent  C.T.
aspiration (6hr CXR) 
multiple bullae
do Pleurodesis.
Home work: 2017: Q44 to Q45. 1001: Q143 – 147 – 162 – 182 – 196

Bronchogenic Carcinoma

-Most common cause of death ( 17 – 18% ) M > F.
MCQ
*Causes:
1- Smoking (90%). Active or passive 2- Air pollution (5%).
3- Lung Fibrosis (ILD) Risk by 3 times 4- Occupational (Asbestosis, Arsenic, Cadium).
*Types of Lung Cancer: 2) Small Cell CA: 20%
1) Sq.Cell.CA (Epidermoid cell carcinom): -Characterized by sudden onset, rapid
-35%. –Slowly Progressive. progressive.
-Excellent Response to chemotherapy early.
–Centrally. –Solid or Caveating.
-High Risk with smoking.
- PTH like peptides  Ca+. MCQ -(+ve) F/H.
– Good response to surgery. MCQ
-Poor Prognosis.
2) Adenocarcinoma: 30%
– peripherally. –By CXR  Solid. –common in non-smoker & Female.
3) Large Cell CA:
-Periphrally. –CXR: caveating.
C/P: (majority have advanced disease at clinical presentation)
*General Manifestation:
1)Anorexia. 2)N&V. 3)Cachexia. 4)Fever & Sweating.
*Local Invasion:
1) Alveoli & Alveolar duct  collapse  Pulmonary B.V Scanty Hemoptysis, if including
Bronchiectasis (Massive Hemoptysis).
2) Pleura  Pleurisy  Pleural effusion.
* Surrounding:
-Trachea: Dyspnea & Stridor. -Esophagus: Dysphagia.
-Left Recurrent Laryngeal Nerve: Hoarseness of voice.
-Sympathetic Chain: Horner Syndrome (partial ptosis, meiosis & Anhydrosis enoptalmos).
-Superior vena cava syndrome:
-Brachial Plexus: Weakness of upper limb Muscles.
–Diaphragm: Raised, phrenic nerve palsy.
–Heart: Pericarditis  pericardial effusion. –Thoracic cage: Chest wall pain.
*Metastasis: Distal organ involvement with evidence of malignant cell.
-Lymph Node (80%) -Liver: Jaundice (45%). -Adrenal gland (35%)
-Bone (35%). -renal (35%) -CNS : Meningitis & Convulsions (20%)
*Para neoplastic Syndrome: ( non-metastatic ) Common with Sq. cell carcinoma
Distal organ involvement with evidence of metastatic (Malignant Cells).
1/ Clubbing  stage V, Hyper trophic pulmonary osteoarthropathy. With tenderness at wrist &
head of fibula.
2/ Nephrotic Syndrome.
3/ Poly myositis & Dermatomyositis.
4/ Hematological  Anemia.
5/ Neurological  Eaten lambert Syndrome -Myasthenia Grave’s -Cerebellar Degeneration.
6/ Endocrine
-Adrenal Gland  ACTH Cushing Syndrome.
–PTH like Peptides, Ca+( para neoplastic & metastatic).
–SIADH secreation ( leads to hyponatremia).
–Gynecomastia. –Hypoglycemia
 CXR:
MCQ

INV: ABG RF I.

LAB
PFT Imaging

Due to phrenic nerve palsy
CBC, CRP, ESR: High than 100. Bronchoscopy: Central Tumors (INV of Choice).
Sputum analysis & cytology Percutaneous Needle aspiration under C.T or U/S
Guided  peripheral Tumors.
C.T: for staging & Metastasis  Medstinoscopy &
*Management: Thoracoscopy. 1)
Radiotherapy (palliative):
-Restriction of Tumor Size.
- Pr Symptoms (Hemoptysis, Cough W& D, Dysphagia, Horner syndrome, upper limb
weakness).
MCQ
2) Chemotherapy (palliative & curative):
-Killing of cell, not regular used in B.CA which is effective in small Cell CA.
3) Surgery (Curative):
-Dissect with safe margin, most effective to B.CA all types except in:
(Metastasis, Contralateral L.N, Pleural Effusion, Pericardial effusion, severe
obstruction, and mediastinum structure).

This is effective in a (Pleurisy without P.E, Pericarditis without Pericardial effusion,
Diaphragm, Trachea above carina 2cm & Chest wall).
*Prognosis: Depends on stage of tumor 20%-30% survive  1ry. 5% survive  5yrs

Home work: 2017: Q53 – 65. 1001: 117 – 128 – 156 – 160 – 164 – 178 – 185 – 199 –206 – 212 – 219 – 238

Pneumonia
- Def: inflammation of pulmonary parenchyma ass’ with Recently Developed X-ray changes (12-
18hr) to be changed.
MCQ
Classification to Pneumonia:
-According to etiology:
Infective  Bacterial (MCC), Fungal, Virus, Parasitic.
Non-Infective  chemical, Aspiration, Collagen, Radiation.
-According to Radiology:
Lobar Pneumonia  Localized. Broncho Pneumonia  Diffused.

-According to Clinical:
*Community Acquired Pneumonia (CAP). *Hospital Acquired Pneumonia (HAP).
*Aspiration Pneumonia. *Pneumonia of Chronic Illness.
*Pathophysiology:
Source of infection - Droplet inhalation (Internally)( Function of cilia  Smoking, Old Age, Alcohol,
Corticosteroid.) OR as result of blood born of septic foci
-Once arriving to air way  Ag-Presenting Cells ---> Stimulation of inflammation  C.K IL & other inflammatory
materials  Death Tissue & Cells Pus Formation
(End 1stday).= C/P: Malaise, Fatigue, Anorexia, Fever.
-Compress on alveolar duct & sac’s = C/P: Early dry cough (painful), Wheeze, Dyspnea.
-Continues inflammation to 2nd day; will accumulate more pus & more inflammatory process  erosion of B.V =
(*Hemoptysis) & compress on it  back to R.t H.F = (cor pulmunale)  then erosion of alveoli  *Rupture 
escaping f mucous  *productive cough  (end of 2nd day) & pleurisy (*pleurtic chest pain).
-presence of pus  High grade fever, rigor & convulsions
– blood spread = Bacteremia  Shock (Septic)  R.F.  Death
 healing by Attraction Fibroblast  deposition  fibrous tissue & collagen  Consolidation.

Note:
-If the symptoms are mentioned above are showed is called = Typical Pneumonia.
-If the symptoms were extra pulmonary is called = Atypical pneumonia. MCQ
Examination:
Inspection: - Chest movement at affected site restricted.
Palpation: -Chest Expansion Decreased –increased TVF increased b/c of Consolidation.
Percussion: - Dullness
Auscultation: -Bronchial Breathing + MCQ

(+ve Egophony test & Whispread test.)
-Added Sound: Ronchi & Crepitation ( Early
Fine Crepitation , Late Harsh Crepitation)

Key words:
1- Bronchial breathing
2- Increase TVF or VR
 Chest X ray:( takes weeks to months to resolve )
1-Lobar or Broncho Pneumonia.
2-Pleural Effusion.
INV: ABG  RFI MCQ
3 –Pneumothorax.
4–Lymphadenopathy.
5-cavity & Lung Abscess.
LAB
CT scan
Bronchoscopy
>70% PFT Imaging
Radionuclide bone scan (to detect spread of

CBC: -WBC N, decrease, increase infection to bone)
ESR, CRP = Prognosis if than 300 indicates
pus.
Sputum or B.Culture & Serology 60% can
isolated (Mycoplasma usually –ve)

Rx: Bed Rest.
According to clinical
presentation & severity

Specific

I.V fluid. O2: due to hypoxia. Anti-pyritic
*Mild  Moderate: Orally 7-10 Days. *Assessment of severity (According to CURB-65):
*Severe: I.V 14 days. C= Confusion. U=Urea >80. R= RR >30.
*Resistant: I.V 21 day (3wks). B= Bp
Dyspnea. Wheeze. which may lead to clubbing

-Mild compression  Lung Collapse (not markedly).
-pressure on Bronchus  Bronchiectasis
-Hypersensitivity  1- Kerato conjunctivitis.
2-Ductility’s, 3-Skin Tender Erythema

 Slightly Pleura effusion due to
A-B complex = pleurisy.

-Blood Stream  invasion of other organs  Liver & Spleen (Miliary TB).

Miliary T.B: Hematogenous spread of T.B if with

-1ry Classical. -Post 1ryCryptogenic.

1ry-Classical T.B. Post 1ry-Cryptogenic.
-Constitutional C/P. -Constitutional C/P.
-Mild Hepatosplenomegaly. -Markedly H.S megally 50% not Dx by CXR.
-Coroidal Tubrcle. MCQ -Confirmatory by Biopsy.
-affect CNS  Meningitis,
rare but Fetally, so BCG given to
Childs a Vac against Miliary T.B.
-Miliary seeds (Micro). Bilateral by CXR.
 CXR: Mass (Ghons Focus)
*INV: ABG RFI.
-Seeds of M.Tb.
-Pleural effusion.
-Lung Collapse.
LA -Consolidation.
Restricting PFT. Imaging.

CBC:
WBC mostly Low.
–Bone marrow suppression by pus formation.= (Hb & WBC &
PLT  pancytopenia).
–ESR 25  >100. ( ESR & CRP to monitor prognosis)
*Sputum 
1) Ziehl Neelsen (Acid Fast Bacilli) early morning  3 samples, at least 24hr apart if +ve
( red rods in blue media) sputum +ve T.b. (+ in more than 80%)
MCQ
0r Auramin Stain, can also stain Acid fast T.b.
2) Media: Lowesten Jensen Media = 4-8wks (Solid). Or BACTEC media= 1-2wks (Liquid).
3) Biopsy by U/S guided or C.T scan  Abraham’s Needle.
4) PCR = Quantiferon test & interferon release assay
5) Tuberculin test (Mantox test)

Anti Tb Drugs: ( LFT & RFT done before & during Therapy)
1/ Isoniazid: *S/E: –Tingling & parasthesia. (Peripheral neuropathy.)  Rx by B12.
2/ Rifampicin: *S/E–Orange body fluids.
MCQ
3/ Pyrazinamide: *S/E: -Hyper uracemia  Gout
4/ Ethanbuotol: *S/E: -Retro bulbar neuritis. –Peripheral neuropathy.
th
5/ Streptomycin: *S/E: 8 CN damage.
BCG vaccine giving
NB…… add + Orally Steroids if ass’ with Pleural Effusion.
during birth to protect
against Meningitis
*Regime:
1- *Prophylactic……….*Family member. *Childs. *Medical Stuff.
 3 months (Rifampicin + Isoniazid) or isoniazid /6months.
2- *Recently Dx T.b:
((Isoniazid + Rifampicin + Pyrazinamide & Ethambutol)) 2 Months.
((Isoniazid + Rifampicin))  4 Months.
3- *Relapsing T.b: ‫ أشر رجعت الحالة‬6 ‫عالج و بعد‬
((Isoniazid + Rifampicin + Pyrazinamide + Ethambutol & streptomycin)) 2 Months.
((Isoniazid + Rifampicin + Pyrazinamide & Ethambutol))  1 Months.
((Isoniazid + Rifampicin))  5-6 Months.
4- *Miliary T.B:
((Isoniazid + Rifampicin + Pyrazinamide + Ethambutol & streptomycin)) 2 Months.
((Isoniazid + Rifampicin + Pyrazinamide & Ethambutol))  1 Months.
((Isoniazid + Rifampicin))  9 Months.
5- *Multidrug Resistance: (if reisistant to Isoniazid + Rifampicin) common in HIV
Amoxicillin.
 Ciprofloxacin. 2nd Line Drug for 2 yrs.
Cyclosporine.
Para Amino obnetric Acid.

Home work: 2017: Q66 – 73
1001: 121 – 140 – 145 – 163 – 174 – 175 – 184 – 193 – 198 – 201 – 205 – 220 – 235
*Interstitial Lung Disease *
-Progressive Disease affect parenchyma of lung between alveoli & capillary inflammation  fibrous tissue
around filled with fluid  prevent alveolar expansion = (Cough & Dyspnea) & prevent Gas Exchange  R.FI.
late = cor pulmonal
*Causes: ( > 125 cause) but most important is
-Sarcoidosis. -Cryptogenic fibrosing alveolitis.(Idiopathic pulmonary fibrosis)

Hx: -Mostly middle age +(Cough, Dyspnea are progressive slowly & over years, wheeze rare &
clinical picture of RT side HF.
*Examination:
1) Inspection: - Chest movement bilaterally.
2) Palpation: - Chest expansion. –TVF, not affecting, late by fibrosis.
3) Percussion: -Dullness (late).
4) Auscultation: -Air entry. –Vesicular Breathing.
-May ass’ with crepitation  Fine (late Inspiration). Reticular fibrosis = upper
INV: ABG  RFI zone(Sarcoidosis) or lower
zone (CFA)

Broncho alveolar lavage.
LAB
>70%PFT Imaging: CXR but most accurate  C.T scan.
Rx: Auto immune  Steroid + immunosuppressant.
 MCQ
Sarcoidosis Cryptogenic fibrosing alveolitis:
male = Female (Middle Age) smoking (decrease risk) Male > female. (old Age) smoking (increase risk)
Clinical picture Clinical picture
Asymptomatic 30%.
Accidently by CXRBHL.
Symptomatic: Gradually Symptomatic: Gradually
1-Flue like symptoms. 1-Flue like symptoms.
2-Lung: 90% Dyspnea is progressive. 2-Lung: Caugh & Dyspnea is progressive.
*BHL + Lung Fibrosis 20%. *Central Cyanosis + Clubbing 2/3 cases.
*Fine Crepitation (rare). *Fine Crepitation (Common).
3-Skin: *Erythema nodosum + Symptomatic: Acute
*Lupus pernio(violaceous plaque lesions).
*Lofgren Syndrome:
4-Arthralgia: *Pharyngeal Cyst.
(BHL+ Poly Arthritis + Erythema Nodosum).
5-Uveitis.
6-Superficial L.N (cervical). *Heerfordt Syndrome:
7-Parotid enlargement. (Uveitis + Parotitis + Facial palsy).
8- Ca+. *Mikulicz syndrome:
9–Diabetes insipidus. (Parotid Enlargement +Lacrimal Enlargement).
10- CNS: cranial nerve palsy
11- cardiac : arrhythmia ( H.B )
*INV: *INV:
1 -LAB  ACE 60%. + Ca + ESR 1 -LAB: R.F, ANA & LDH.
2-Broncho alveolar lavage  Lymphocyte. 2-Broncho alveolar lavage -Neutr & Eosinophil’s.
3-CXR 3-CXR: Bilateral basal Reticulonoduler shadow +
-Stage 0: Normal. Honey comb.
-Stage I: BHL. - C.T is Diagnost
- Stage II: BHL & interstitial infiltrates.
-Stage III: Diffuse pulmonary Shadow.
-Stage IV: pulmonary fibrosis.
4- Biopsy ---- non caseating granuloma 4- Biopsy ---- if in doubt

*Rx: *Rx:
-Stage I &II  Resolution spontaneously. -Oral steroid & immunosuppressant.
-Stage III & IV + Extrapulmonary  corticosteroid. -Response  < 50%. POOR PROGNOSIS.

*Asbestosis = Clubbing + Cancer larynx + Adenocarcinoma lung & mesothelioma + Exudate pleural effusion +
lower pulmonary infiltrate
*Silicosis = upper pulmonary infiltrate + TB MCQ
*Hypersensitivity pneumonitis (extrinsic allergic alveolitis)= organic antigens inhalation (farm worker's
lung and bird fancier's lung) + (Fever, Dry cough + breathlessness + Cyanosis) Common + lower zone
infiltration
Home work: 2017: Q97 – 103. 1001: 118 – 138 – 157 – 159 – 171 – 210 – 218 – 239 – 240
 ARDS (non-cardiogenic pulmonary edema)

Cause inflammatory damage to alveoli vascular permeability edema

Clinical picture:
1-sepsis
2-gastric aspiration Sudden onset of cough
3-fat embolism
4-burn Wheeze dyspnea
MCQ
5- multiple blood transfusion
6-acute pancreatitis
7- near drowning

Dx : RF type 1 + Ground glass appearance in chest x ray
Rx: 1- treat underlying cause
2- PEEP
Home work: 1001: Q: 148