7. PATTERNS OF INVOLVEMENT
Cystic fibrosis and post radiation fibrosis – upper lobe
c/c recurrent aspiration, end stage fibrotic lung d/s,
recurrent immunodeficiency conditions – lower lobe
Non TB mycobacteria, ciliary motility dysfunction
disorders – middle lobe
ABPA, tracheomegaly (Moynier – Kuhn syndrome),
williams campbell syndrome – central airways.
8. EPIDEMIOLOGY
Most commonly affects right upper lobe
Incidence increases with age.
More common in women.
MAC – more in non smoking women >50yrs of age.
Cystic fibrosis – presents in late adolescence or early
adulthood.
10. PATHOGENESIS & PATHOLOGY
Vicious cycle hypothesis
Microbes -> c/c inflammation -> damage to airway
and impaired mucociliary clearance –> more infection.
Ongoing inflammation – reactive oxygen species,
proinflammatory cytokines – damage to lung tissues –
obstruction to airflow.
Non infective conditions – immune mediated damage
to airways and lungs
11. CLINICAL FEATURES
M.C symptom – persistent productive cough with
ongoing production of thick tenaceous sputum.
Signs – clubbing, crackles and wheeze on auscultation.
PFT – shows mild to moderate airway obstruction
Acute exacerbations – characterized by change in
nature of sputum production and increase in volume
and purulence.
12. DIAGNOSIS
Clinical history + radiographic features.
Lab testing – CBC – TC,DC , Sputum culture
X Ray chest
HRCT thorax – imaging modality of choice – findings
include –
Airway dilation – tram track, signet ring
Lack of bronchial tapering
Bronchial wall thickening in dilated airways
Inspissated secretion – tree in bud
FOB to r/o foreign body or underlying mass
15. PULMONARY FUNCTION TESTS
• Reveal an obstructive pattern with reduced FEV1 and
reduced FVC.
• Other bedside tests include :
• Sabrasez breath holding test
• Schneider’s match blowing test
• Cough test – ability, strength and effectiveness
17. SPUTUM ANALYSIS
Amount of sputum
24 hr Sputum Production
Mild < 10 ml/day
Moderate <150 ml/day
Severe >150 ml/day
Visual Impression – colour, consistency
Microbiology
Sputum AFB -3 sputum samples on 3 consecutive days
18. MANAGEMENT
Anti microbial therapy to decrease the microbial load.
Maintenance of hygeine and clearance of secretions by
postural drainage and mucolytics.
Anti inflammatory therapy and bronchodialation with
corticosteroids and bronchodilators.
Refractory cases – resection of the affected lung.
19. COMPLICATIONS
Life threatening hemoptysis – erosion into a blood
vessel.
Recurrent pneumonia
Empyema
Pneumothorax
Lung abscess
Brain abscess
Cor pulmonale
Anti microbial resistance due to repeated infections
and repeated use of antibiotics
20. PRE OP EVALUATION
Adequate history – to r/o other coexisting diseases,
frequency of exacerbations, onset and duration,
sputum – amount, colour, dyspnea, stridor.
Examination of vitals, chest examination and CVS
examinaion to r/o RVH and signs of PAH, airway
assessment.
Optimisation of pulmonary status – antibiotics,
bronchodilators, postural drainage to clear off
secretions.
Pulmonary function tests and baseline ABG
21. Cough - indirectly increases airway irritability.
Blood-stained sputum or episodes of gross hemoptysis
should raise the possibility of a tumor invading the
respiratory tract (e.g., the main stem bronchus), which
might interfere with endobronchial intubation.
Smoking increases the airway reactivity and increases
the incidence of post operative complications.
Presence of central cyanosis –suggestive of poor
cardiopulmonary reserve
22. Acute phase – airway hyper reactivity will take 6wks or
more to subside – increased secretions can increase
incidence of broncho/laryngospasms.
Tracheal mucociliary flow and pulmonary bactericidal
activity can be reduced by GA.
Positive pressure ventilation can cause increase
spreading of infections from upper to lower respiratory
tract.
23. PRE OP PFT
PFT with special reference to VC, FEV1, PEFR.
Criteria which indicates increased mortality & morbidity
after lung resection:
FVC <50% of predicted value
FEV1 <50% of FVC
Maximum breathing capacity <50% of predicted value
PaCO2 > 45mmHg
Gas transfer <50% of predicted value
Mean Pulmonary artery pressure >30mm Hg during unilateral
occlusion of pulmonary artery.
24. RESPIRATORY MECHANICS
Rather than absolute values, % values are more
important in predicting the post operative outcomes.
Single most important – predicted postoperative FEV1:
= preoperative FEV1% x (1-%lung tissue removed/100)
Patients with >40% of ppoFEV1 – less chance of post
thoracotomy complications
27. SPLIT LUNG FUNCTION TESTS
Regional lung function studies - predict the function of the lung tissue
that would remain after lung resection.
Regional Perfusion Test - Intravenous injection of insoluble radioactive
xenon (133Xe). The peak radioactivity of each lung is proportional to the
degree of perfusion of each lung.
Regional Ventilation Test - Using an inhaled, insoluble radioactive gas,
the peak radioactivity over each lung is proportional to the degree of
ventilation.
Combining radiospirometry with whole-lung testing (FEV1, FVC,
maximal breathing capacity) has resulted in a fair degree of correlation
between predicted volumes and pulmonary function tests measured
after pneumonectomy.
29. BREATH SOUNDS
Wet sounds (crackles) are usually caused by excessive
fluid in the airways and indicate sputum retention or
edema.
Dry sounds (wheezes) are produced by high-velocity
gas flow through bronchi and are a sign of airway
obstruction.
30. POSITION OF TRACHEA
The trachea should be in the midline.
Displacement of the trachea may be secondary to a
number of causes, including mediastinal mass, and
should raise the possibility of difficult intubation of
the trachea or airway obstruction at induction of
anesthesia.
31. ABG
Important to know the baseline blood pH status and
blood gas status.
Patients with underlying COPD – especially blue
bloaters – have high levels of blood CO2 – have a
hypoxic drive to breath – supplementing high oxygen –
abolish the respiratory drive.
Pink puffers – usually have a near normal ABG
32. EVALUATION OF CVS
Pulmonary circulation - normally a low-pressure, high-
compliance system
In COPD- decreased compliance - increase in
pulmonary vascular resistance - pulmonary
hypertension
Acidosis, sepsis, hypoxia, and application of positive
end-expiratory pressure (PEEP), all further increase the
pulmonary vascular resistance and increase the chance
of right ventricular failure.
33. EVALUATION OF CVS
In patients with ischemic or valvular heart disease, the
function of the left side of the heart should also be carefully
evaluated.
Electrocardiogram - features of right atrial and ventricular
hypertrophy and strain - low-voltage QRS complex due to
lung hyperinflation and poor R-wave progression across
the precordial leads.
Enlarged P wave (“P pulmonale”) in standard lead II is
diagnostic of right atrial hypertrophy. The
electrocardiographic changes of right ventricular
hypertrophy are an R/S ratio of greater than 1.0 in lead V1
34. CHEST RADIOGRAPHY
Hyperinflation and increased vascular markings -
COPD.
Prominent lung markings -bronchitis, but decreased
in emphysema, particularly at the bases.
A mediastinal mass may indicate difficulty with
ventilation, a difficult and bloody dissection, difficulty
in placing a double-lumen tube (DLT; because of
deviation of the main stem bronchus), or a collapsed
lobe owing to bronchial obstruction.
Presence of pneumothorax should be ruled out
35. CT & PET-Patients normally undergo CT scanning.
The CT scan can delineate the size of the tumor. It
can also reveal if there is airway or cardiovascular
compression. PET scan can detect tumor based on
the metabolic activity.
DLCO –denotes the ability of the lung to perform
gas exchange – impaired in interstitial lung disease,.
A predicted postoperative diffusing capacity for
carbon monoxide <40% is associated with increased
risk.
36. SIGNIFICANCE OF
BRONCHODILATOR THERAPY
Pulmonary function tests - before and after
bronchodilator therapy - to assess the reversibility of
airway obstruction.
A 15% improvement in pulmonary function tests may
be considered a positive response to bronchodilator
therapy and indicates that this therapy should be
initiated before surgery.
37. CARDIOPULMONARY RISK INDEX
(CPRI) FOR LUNG RESECTION
Cardiac and pulmonary risk indices
CPRI score of 4 or higher is associated with 22 fold
increase in post thoracotomy complications than in
patients with score less than 4
38. CARDIAC RISK INDICES
VARIABLE SCORE
Congestive heart failure 11
MI (within 6 months of surgery) 10
> 5 PVCs per minute 7
Other arrythmias 7
Age > 70yrs 5
Aortic stenosis 3
Poor general medical condition 3
Thoracic operation 3
Score = 1 (0-5 CRI points)
2 (6-12 points)
3 (12-25 points)
4 (>25 points)
39. PULMONARY RISK INDICES
VARIABLE SCORE
Obesity 1
Cigarette smoking (within 8 weeks of
surgery)
1
Productive cough (within 5 days of
surgery)
1
Diffuse wheeze or ronchi (within 5 days
of surgery)
1
FEV1/FVC <70% 1
PaCO2 >45 mm Hg 1
40. CPRI SCORE
Score is calculated by adding CRI and PRI scores
CPRI score of 4 or higher is associated with 22 fold
increase in post thoracotomy complications than in
patients with score less than 4
41. PRE OPERATIVE PREPARATIONS
Infection, dehydration, electrolyte imbalance,
wheezing, obesity, cigarette smoking, cor
pulmonale, and malnutrition, show particular
correlations with postoperative complications.
42. SMOKING
cessation of smoking for a period of longer than 4
to 6 weeks before surgery - reduced postoperative
complications.
Most of the beneficial effects of cessation of
smoking, such as improvement in ciliary function,
improvement in closing volume, increase in FEF25–
75%, and reduction in sputum production, usually
occur 2 to 3 months after smoking has ceased.
44. Hydration and Removal of
Bronchial Secretions
Correction of hypovolemia and electrolyte imbalance should
be accomplished before surgery - adequate hydration
decreases the viscosity of bronchial secretions and facilitates
their removal from the bronchial tree.
Humidification of inspired gas is extremely useful.
Mucolytic drugs, such as acetylcysteine, or oral expectorants
(potassium iodide) can be beneficial to patients with viscous
secretions.
Commonly used methods for removing secretions from the
bronchial tree include postural drainage, vigorous coughing,
chest percussion, deep breathing, and the use of an incentive
spirometer.
45. Wheezing and Bronchodilation
In the presence of acute wheezing elective surgery
should be postponed until effective treatment has
been instituted.
Chronic wheezing is often seen in patients with
COPD and is attributable to the presence of gas
flow obstruction secondary to smooth muscle
contraction, accumulation of secretions, and
mucosal edema.
46. Sympathomimetic Drugs –
increase the formation of 3′5′-cyclic adenosine
monophosphate (cAMP).
cAMP - produces bronchodilation, and cGMP produces
bronchoconstriction, determines the state of contraction
of the bronchial smooth muscle.
The β1 (cardiac effects) of these drugs are often
undesirable in patients with COPD. Selective β2
sympathomimetic drugs, such as albuterol, terbutaline,
and metaproterenol, given as inhaled aerosols, are the
preferred drugs for the treatment of bronchospasm,
particularly in patients with cardiac disease.
47. Phosphodiesterase Inhibitors –
inhibit the breakdown of cAMP by cytoplasmic
phosphodiesterase - increase the level of cAMP,
resulting in bronchodilation.
Aminophylline improves diaphragmatic contractility
and increases the patient's resistance to fatigue.
Therapeutic blood levels of aminophylline are 5 to 20
µg/mL and can be achieved by infusing a loading dose
of 5 to 7 mg/kg over 20 minutes, followed by a
continuous intravenous infusion of 0.5 to 0.7 mg/kg/hr.
Aminophylline may cause ventricular dysrhythmias,
and this side effect should be borne in mind when
treating patients who have myocardial ischemia.
48. Steroids –
traditionally considered to decrease mucosal edema and may
prevent the release of bronchoconstricting substances.
Cromolyn Sodium –
o stabilizes mast cells and inhibits degranulation and histamine
release. It is useful in the prevention of bronchospastic attacks.
Parasympatholytic Drugs –
o include atropine and ipratropium. In the past, atropine has been
avoided in patients with COPD and bronchitis because of
concern regarding increases in the viscosity of mucus produced
by this agent. However, atropine blocks the formation of cyclic
guanosine monophosphate and therefore has a bronchodilator
effect.
Pulmonary Rehabilitation –
o included education in a variety of areas such as breathing,
exercise, and nutrition. It has reduced the incidence of
complications following surgeries and have shown to accelerate
the healing process and improvement of lung functions.
49. POSTURAL DRAINAGE
Method of drainage of secretions from bronchial
airways.
Aided by gravity and the secretions easily coughed out.
Chest percussion and vibration.
Best done before meals or one and half to two hours
after meals to decrease the chance of vomiting.
52. POSTURAL DRAINAGE
All the positions are contraindicated in:
Increased ICP
Active hemoptysis
Unstable head and neck injury
Bronchopleural fistula
Empyema
Hemodynamically unstable patient
Rib fracture without flail chest
Pulmonary embolism
Large pleural effusions
53. INTRA OPERATIVE MANAGEMENT
Lung isolation techniques – single lumen tube, double
lumen tube, bronchial blockers.
Ventilation – problems include the VQ mismatch –
increase in the shunt – arterial hypoxemia –
minimised by
Optimal ventilatory pattern
Early clamping of pulmonary vessels
Insufflation of oxygen to upper lung and cessation of
two lung ventilation as late as possible
54. INTRA OPERATIVE MANAGEMENT
Optimal ventilatory pattern – small tidal volume
(7ml/kg) delivered at an increased respiratory rate (20
per min), short inspiratory duration (I:E approx 1:2),
reduced PEEP – all these prevents excess rise in intra
alveolar pressure – hence reduces the blood diversion
from alveoli - maintain PaCO2 (36-40 mmHg)
Early clamping of pulmonary vessels – eliminate most
of the venous admixture during OLV, but not always
possible
55. INTRA OPERATIVE MANAGEMENT
Insufflation of oxygen to the upper lung – improves
oxygenation if carried out at a positive pressure of
10cm H2O – particularly applicable in oesophageal
surgeries.
Cessation of ventilation to the upper lung – both lungs
to be ventilated as long as possible – decreasing the
period and extent of hypoxia.
56. MAINTENANCE OF ANAESTHESIA
Light GA with muscular relaxation and controlled
ventilation is the ideal combination.
Opioids – increase the quality of analgesia.
Low concentration of inhaled anaesthetics can
increase the depth of anaesthesia, prevent the excess
rise in blood pressure and decreases the patient
awareness – iso, sevo or desflurane is preferred.
Volatile agents themselves can act as bronchodilators –
like halothane, enflurane, desflurane, isoflurane and
sevoflurane
57. Drugs with histamine release property are preferably
avoided – can cause bronchospasm (TPS, ms relaxants
like atracurium, mivacurium and curare).
Ketamine – bronchodilatory properties, maintain
hypoxic pulmonary vasoconstriction response –
minimises VQ mismatch
58. MONITORING
Blood pressure – NIBP/arterial.
Arterial line – advantage of drawing arterial samples
for ABG analysis
IJV cannulation – preferably on the same side of
surgery – for CVP monitoring, fluid and blood
transfusions during the procedure – also a wide bore
peripheral cannula.
Heat loss – minimised by using a warming blanket,
warm fluids and warming of inspired gases.
59. CHEST CLOSURE AND DRAINAGE
Aim at the end of thoracotomy – to achieve full
expansion of all remaining lung tissue with the
mediastinum approximately central.
Wide bore tubing – usually two – anterior and
posterior – to allow the escape of air (tube at apex) and
clots/fluids (tube at base).
Underwater seal – to prevent air from entering during
inspiration back to the tube.
Drains are closed when there is no appreciable blood
loss and air leak.
60. IMMEDIATE POST OPERATIVE
PERIOD
Muscle relaxation reversed – lungs suctioned –
remaining lung tissue reinflated with chest drains
open before ET tube is removed once satisfactory
pattern of respiration has been established.
Mechanical ventilation is usually avoided post surgery
– due to the complications of infection, air leaks.
If controlled ventilation needed – inflation pressures
kept to the minimum.
61. IMMEDIATE POST OPERATIVE
PERIOD
Post extubation – humidified oxygen delivered by face
mask & patient made to sit up as soon as possible – to
avoid abdominal contents interfering with
diaphragmatic movements.
Post operative analgesia – by NSAIDs, narcotics IM/IV
– continuous/intermittent, intercostal blocks
intraoperatively, paravertebral and thoracic epidural,
interpleural instillation of drugs (A/E – increased
systemic absorption and loss through drains).
Cryoanalgesia – by freezing of intercostal nerves
62. POST OP COMPLICATIONS
Atelectasis
Airway trauma
Penumothorax
Caridac herniation
Haemorrage
Post pneumonectomy pulmonary edema.
Dysrhytmias
Right heart failure