Dlco/tlco
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Jan 18, 2020
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dlco or tlco explanation , diffusion capacity of lung measurement
Slide Content
DLCO/TLCO
DIFFUSION CAPACITY OF LUNGS forCO
(DLCO) or
TRANSFER FACTOR ofLUNGS for CO
( TLCO )
DrTanveerKamal Fahim
Phase B Resident , MD ( Pulmonology)
Medicine Unit VII , NIDCH
(DLCO) or
TRANSFER FACTOR ofLUNGS for CO
( TLCO )
DrTanveerKamal Fahim
Phase B Resident , MD ( Pulmonology)
Medicine Unit VII , NIDCH
DLCO TLCO
Diffusion capacity of lungs for COTransfer factorof lungs for CO
America Europe
Expressed as ml/min/mm of HGExpressed as mmol/min/KPa
Diffusion capacity of lungs for COTransfer factorof lungs for CO
America Europe
Expressed as ml/min/mm of HGExpressed as mmol/min/KPa
DLCO/TLCO
•Diffusing capacity of the lungs estimates the ability of lungs to
transfer oxygen from alveolar gas to red cell
•Also provides objective measurement of lung function
•Originally described by Krogh in 1915
•Carbon monoxide is used as a surrogate for O2
•Mesuresthe partial pressure difference between the inspired and
exhaled CO
•Diffusing capacity of the lungs estimates the ability of lungs to
transfer oxygen from alveolar gas to red cell
•Also provides objective measurement of lung function
•Originally described by Krogh in 1915
•Carbon monoxide is used as a surrogate for O2
•Mesuresthe partial pressure difference between the inspired and
exhaled CO
The amount of oxygen transferred is largely determined by three
factors :
•SURFACE AREA (A) of the ALVEOLAR-CAPILLARY MEMBRANE, which consists of the
alveolar and capillary walls
•THICKNESS (T) of the membrane
•DRIVING PRESSURE , that is , the difference in oxygen tension between the alveolar
gas and the venous blood (ΔPO
2)
A*ΔPO
2
T
Diffusion of Lung =
factors :
•SURFACE AREA (A) of the ALVEOLAR-CAPILLARY MEMBRANE, which consists of the
alveolar and capillary walls
•THICKNESS (T) of the membrane
•DRIVING PRESSURE , that is , the difference in oxygen tension between the alveolar
gas and the venous blood (ΔPO
2)
A*ΔPO
2
T
Diffusion of Lung =
Why use of CO ?
•Not normally present in alveoli/blood
•Transfer is diffusion limited rather than perfusion limited
•Avidly binds to Hb (210 times of Oxygen)
•As capillary PCO is very low normally , can be assumed to be negligible
and DlCO is calculated by dividing CO uptake (˙VCO) by alveolar PCO
•Harmless at low concentrations(<0.3%)
•Less affected by other factors
•Not normally present in alveoli/blood
•Transfer is diffusion limited rather than perfusion limited
•Avidly binds to Hb (210 times of Oxygen)
•As capillary PCO is very low normally , can be assumed to be negligible
and DlCO is calculated by dividing CO uptake (˙VCO) by alveolar PCO
•Harmless at low concentrations(<0.3%)
•Less affected by other factors
Oxygen :
•Perfusion limited
•Limited by ventilation perfusion mismatch , shunt etc
•Accurate measurement of PO
2during capillary transfer is very difficult
NO :
•Highly reactive with oxygen so requires special equipment
•Potential cardiovascular side effect
•Under research
•Perfusion limited
•Limited by ventilation perfusion mismatch , shunt etc
•Accurate measurement of PO
2during capillary transfer is very difficult
NO :
•Highly reactive with oxygen so requires special equipment
•Potential cardiovascular side effect
•Under research
Indications of DLCO
1.Categorize patients with Restrictive disease or Extrathoracicrestriction
(obesity,neuromasculardisease)
2.Identify early ILD in high risk patients ( H/O chest radiation,chronicAmiodarone etc)
3.To quantify anatomic emphysema
4.Before lung surgery
5.Pulmonary Vascular disease , chemotherapeutic agents
6.Response to treatment
7.Assess severity and progression
8.Disability documentation for legal purpose
1.Categorize patients with Restrictive disease or Extrathoracicrestriction
(obesity,neuromasculardisease)
2.Identify early ILD in high risk patients ( H/O chest radiation,chronicAmiodarone etc)
3.To quantify anatomic emphysema
4.Before lung surgery
5.Pulmonary Vascular disease , chemotherapeutic agents
6.Response to treatment
7.Assess severity and progression
8.Disability documentation for legal purpose
Single –Breath Holding method most widely used and
standard
standard
Procedure
1.Normal breathing ( uptoRV)
2.Take deep breathing and blow out all in the air (uptoTLC , panting )
3.Deep inspiration of supplied gas mixture and hold it for 10 s ( contains
Nitrogen , 0.3% CO , inert tracer gas Heliium, oxygen 18-21%)
4.Blow all the air out
5.Compute all
1.Normal breathing ( uptoRV)
2.Take deep breathing and blow out all in the air (uptoTLC , panting )
3.Deep inspiration of supplied gas mixture and hold it for 10 s ( contains
Nitrogen , 0.3% CO , inert tracer gas Heliium, oxygen 18-21%)
4.Blow all the air out
5.Compute all
Contraindications
•Patient unable to perform maneuver, breath hold
•Smoking within 24 hr
•Vigorous exercise before test
•Significant desaturation
•Patient unable to perform maneuver, breath hold
•Smoking within 24 hr
•Vigorous exercise before test
•Significant desaturation
Normal value
Causes of increased DLCO
Supine position Increasedperfusion and blood volume of upper lobes
Exercise Increasedpulmonary blood flow
Asthma Pseudo-Increase , more uniform distribution of pulmonary
flow
Obesity Increasedpulmonary blood flow
Polycythemia Increased surface area due to increased RBC
mass
Intra-Alveolar Haemorrhage In Goodpasture’ssyndrome
Left to Right shunt Increasedpulmonary blood flow
Supine position Increasedperfusion and blood volume of upper lobes
Exercise Increasedpulmonary blood flow
Asthma Pseudo-Increase , more uniform distribution of pulmonary
flow
Obesity Increasedpulmonary blood flow
Polycythemia Increased surface area due to increased RBC
mass
Intra-Alveolar Haemorrhage In Goodpasture’ssyndrome
Left to Right shunt Increasedpulmonary blood flow
Causes of decreased DLCO
Reduced surface area-
•Anaemia
•Emphysema
•Lung/Lobe resection
•Bronchial obstruction by tumor
•Multiple emboli
Other –Elderly, female , Smoking , Pregnancy ,
ventilation perfusion mismatch
Increased thickness of membrane
•IPF , Sarcoidosis , Asbestosis ,
Hypersensivitypneumonitis
•Heart Failure , Pulmonary HTN
•Collagen Vascular Disease-SLE ,
Scleroderma
•Drug induced fibrosis
Reduced surface area-
•Anaemia
•Emphysema
•Lung/Lobe resection
•Bronchial obstruction by tumor
•Multiple emboli
Other –Elderly, female , Smoking , Pregnancy ,
ventilation perfusion mismatch
Increased thickness of membrane
•IPF , Sarcoidosis , Asbestosis ,
Hypersensivitypneumonitis
•Heart Failure , Pulmonary HTN
•Collagen Vascular Disease-SLE ,
Scleroderma
•Drug induced fibrosis
ReducedDLCO
Anaemia
Reduced Hb, reduced surface area
Emphysema
Alveolarwalls and capillaries are destroyed ,
reducing surface area
Emboli By blocking perfusion , reduces surface are
Bronchial obstruction Reduces lung area and volume
Heart failure lengthensthe pathway for diffusion due to
fluid
Smoker high CO tension in blood educes
driving pressure
Isolated unexplained reduction of
DLCO with normal spirometry and
lung volume
Primary Pulmonary HTN, Emboli, Obliterative
Vasculopathy
Anaemia
Reduced Hb, reduced surface area
Emphysema
Alveolarwalls and capillaries are destroyed ,
reducing surface area
Emboli By blocking perfusion , reduces surface are
Bronchial obstruction Reduces lung area and volume
Heart failure lengthensthe pathway for diffusion due to
fluid
Smoker high CO tension in blood educes
driving pressure
Isolated unexplained reduction of
DLCO with normal spirometry and
lung volume
Primary Pulmonary HTN, Emboli, Obliterative
Vasculopathy
•Adjusting DLCO
•For anaemia : adjusted downwards
•For polycythemia : adjusted upwards
•For low lung volumes : adjusted downwards
•For high lung volumes : adjusted upwards
•For anaemia : adjusted downwards
•For polycythemia : adjusted upwards
•For low lung volumes : adjusted downwards
•For high lung volumes : adjusted upwards
CRITERIA forACCEPTABILITY
•Inspired volume ⩾90% of the largest VC in the same test
session
•85% of test gas Inspired volume inhaled in < 4 second
•A stable calculated breath-hold for 10±2 seconds
•Sample collection completed within 4 second of the start of
exhalation
•Inspired volume ⩾90% of the largest VC in the same test
session
•85% of test gas Inspired volume inhaled in < 4 second
•A stable calculated breath-hold for 10±2 seconds
•Sample collection completed within 4 second of the start of
exhalation
KCO-TRANSFER CO-EFFICIENT forCO
•KCO in healthy young approximately 1.75 mmol/min/kPa/litre, an elderly
adult may be about 1.25
•If the patient has a disease that causes a decrease in lung surface area, or
had a lung removed or unable to expand , then there is a decrease in
transfer factor but there is a normal KCO
•In fibrosing alveolitis or emphysema, where there is damage to the lung
parenchyma there is a reduction in both transfer factor and transfer
coefficient
adult may be about 1.25
•If the patient has a disease that causes a decrease in lung surface area, or
had a lung removed or unable to expand , then there is a decrease in
transfer factor but there is a normal KCO
•In fibrosing alveolitis or emphysema, where there is damage to the lung
parenchyma there is a reduction in both transfer factor and transfer
coefficient
•KCO increases with age
•Raised/normal KCO but normal/reduced DLCO :
kypho-scoliosis
Pneumonectomy,lobectomy
Neuromascular disaeses
Ankylosing spondylitis
•Raised/normal KCO but normal/reduced DLCO :
kypho-scoliosis
Pneumonectomy,lobectomy
Neuromascular disaeses
Ankylosing spondylitis
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