meccanica toraco-polmonare: dalla fisiologia alla misura · meccanica toraco-polmonare: dalla...

Meccanica Toraco-Polmonare:

dalla fisiologia alla misura

Lorenzo Lorenzo AppendiniAppendini

Fondazione “Salvatore Maugeri”, IRCCS, Fondazione “Salvatore Maugeri”, IRCCS,

Istituto Scientifico di Veruno, Divisione di Pneumologia Istituto Scientifico di Veruno, Divisione di Pneumologia

Veruno (NO), Italy.Veruno (NO), Italy.

www.aitfr

.com

www.aitfr

.com

VA

VE

VA = VE x (1 – VD/VT)

VE = VT x fwww.a

itfr.co

m

www.aitfr

.com

www.aitfr

.com

www.aitfr

.com

Gastric Pressure

Esophageal Pressure

Airways Opening

Pressure

Ampl.

Ampl.

Ampl.

Ampl.Tracheal Pressure

Pga

Pes

PaoPtr

Respiratory Mechanics - Experimental Setup

Ampl.Tracheal Pressure

Pneumotach

3 CH EMG

Flow

www.aitfr

.com

ELASTICITA’ – DISTENSIBILITA’

www.aitfr

.com

www.aitfr

.com

www.aitfr

.com

CURVA P/V STATICA

www.aitfr

.com

(P2)

(P2)

www.aitfr

.com

www.aitfr

.com

www.aitfr

.com

www.aitfr

.com

RESISTENZE

www.aitfr

.com

Pπr4

V’=

8ηl

P 8ηl

= R =

V’ πr4www.a

itfr.co

m

www.aitfr

.com

www.aitfr

.com

www.aitfr

.com

www.aitfr

.com

IPERINFLAZIONE DINAMICA PEEPi PEEPi (Pressione Positiva di Fine Espirazione intrinseca)

www.aitfr

.com

www.aitfr

.com

www.aitfr

.com

www.aitfr

.com

www.aitfr

.com

www.aitfr

.com

(P2)

(P2)

www.aitfr

.com

PawPaw

==

((VVTTxExE + V’+ V’xRxR + + PEEPPEEPii))

==

www.aitfr

.com

MECCANICA RESPIRATORIA MECCANICA RESPIRATORIA DURANTE RESPIRO SPONTANEO

www.aitfr

.com

Gastric Pressure

Esophageal Pressure

Airways Opening

Pressure

Ampl.

Ampl.

Ampl.

Ampl.Tracheal Pressure

Pga

Pes

PaoPtr

Respiratory Mechanics - Experimental Setup

Ampl.Tracheal Pressure

Pneumotach

3 CH EMG

Flow

www.aitfr

.com

Computed Parameters

• inspiratory time per breath (TI = t2-t1)

• expiratory time per breath (TE = t1*-t2),

• respiratory cycle duration (TT= TI + TE)

•

A zero crossing algorithm detects the beginning time of the

inspiratory and expiratory phases (t1, t2 respectively). The onset

of Pdi pressure is computed to measure the time (t0) in which

the transpulmonary and the transdiaphragmatic pressures begin

to leave the end expiratory level. (Fig.2)

Reference Points and Parameters

5

10

15

-0.6

-0.4

-0.2

0

0.2

0.4

0.6

1 2 3 4 5 6

-0.1

0

0.1

0.2

0.3

0.4

0.5

VT/2

dP3

Flow(L)

PL=Pao-Pes (cmH2O)

Volume (L)

dP0

VT

dP2dP1

dF2 dF1

• respiratory cycle duration (TT= TI + TE)

• duty cycle (TI/TT)

• tidal volume (VT)

• breathing frequency ( f = 60 / TT )

• minute ventilation (V’E = VT x f)

• rapid shallow breathing index (RSB = f / VT)

• PEEPi both on esophageal (PEEPi) and trans-

diaphragmatic (PEEPi,corr) pressure

• Dynamic lung elastance EL,dyn=dP0/VT

• Mean resistance RL = dP1/dF1

• Mean inspiratory resistance RL,insp = (dP2 – dP3)/dF2

• Pressure Time Product on Pdi and Pes (PTPdi and PTPes,

respectively)

0

5

10

15

20

25

30

0 1 2 3 4 5 6

-10

-5

0

1 2 3 4 5 6

-20

-15

-10

-5

0

5

10

1 2 3 4 5 6

PEEPi

PEEPi (1,2), Resitive (3), Lung (4) and Chest Wall (5) elastic components of PTPes

5

1 2 3

4

PEEPi,corr

t1 t4 t2 t5

Pdi=Pga-Pes (cmH2O)

t0 t6

Pes (cmH2O)

t1 t2t0 t6

t1*

www.aitfr

.com

CONCLUSIONICONCLUSIONI

www.aitfr

.com

PmusPmus == ((VVTTxExE + V’+ V’xRxR + + PEEPPEEPii))

Respiratory workloadRespiratory workload

NORMALS

Inspiratory muscleInspiratory muscleperformanceperformance

NMD

COPD

Aldrich TK, Prezant DJ. 1994Aldrich TK, Prezant DJ. 1994

Ventilatory Ventilatory

failurefailure

www.aitfr

.com

Respiratory workloadRespiratory workload

NORMALS

Inspiratory muscleInspiratory muscleperformanceperformance

Pmus = VPmus = VTTxE + V’xR + PEEPxE + V’xR + PEEPii

COPD

NMD

MVMV

MVMV

Pmus + Paw = VPmus + Paw = VTTxE + V’xR + PEEPxE + V’xR + PEEPiiwww.aitfr

.com