Subscribe to RSS
Download PDF
DOI: 10.1055/s-2004-831845
© Georg Thieme Verlag Stuttgart · New York
Pulverinhalationssysteme
Dry powder inhalers - a reviewPublication History
eingereicht: 28.1.2004
akzeptiert: 8.7.2004
Publication Date:
22 September 2004 (online)
Zusammenfassung
Die medikamentöse Inhalationstherapie ist ein Hauptpfeiler in der Behandlung sowohl von Asthma als auch chronisch obstruktiven Lungenerkrankungen (COPD). Die durch den FCKW-Ausstieg ausgelöste stürmische Entwicklung auf dem Gebiet der Pulverinhalationssysteme (engl: dry powder inhaler, DPI) erschwert jedoch Arzt und Patient die Auswahl. Pulverdosieraerosolgeräte (DPI) stehen als Einzeldosis- und Multidosissysteme in wiederbefüllbaren oder nicht wiederbefüllbaren Systemen zur Verfügung. DPI unterscheiden sich von Treibgasaerosolen (MDI) im Wesentlichen durch Atemflussabhängigkeit von Dosisabgabe und Teilchengrößenverteilung, sowie der damit verbundenen höheren Variabilität der applizierten effektiven Medikamentendosis. Idealerweise sollte das therapeutisch relevante Partikelspektrum einen aerodynamischen Teilchendurchmesser (engl. mass median aerodynamic diameter, MMAD) von 2 - 5 µm aufweisen. Neben dem inspiratorischen Atemfluss des Patienten sind der Eigenwiderstand des Inhalationsgerätes und die Umgebungsfeuchtigkeit (bei unsachgemässer Behandlung) weitere potenzielle Einflussfaktoren auf die Dosisabgabe von Pulverinhalatoren. Für die Notfallbehandlung des schweren bis lebensbedrohlichen Asthmaanfalls sind Pulverinhalatoren nicht geeignet. Bei 92 - 96 % der Patienten kann jedoch auch bei Exazerbationen einer obstruktiven Lungenerkrankung, die noch spirometrische Messungen zulässt, mit einem Pulverinhalationssystem eine wirksame Bronchodilatation erreicht werden. Trockenpulverinhalatoren sind mit herkömmlichen treibgasgetriebenen Dosieraerosolen in der Effizienz der Inhalationstherapie vergleichbar. In der Präparateauswahl im klinischen Alltag stehen Kostenerwägungen, Patientencompliance und Bedienungskomfort im Vordergrund. Eine korrekte Einweisung zur Handhabung des Inhalationsgerätes sowie wiederholte Überprüfung der Inhalationstechnik ist von großer Bedeutung.
Summary
Inhalation of bronchodilators and corticosteroids is the mainstay treatment for patients with obstructive lung diseases. Many dry powder inhaler devices and drug combinations are now available, and competing promotional claims can confuse both prescribers and patients. The appropriate dose of a given drug may be different for a pressurized metered dose inhaler (pMDI) and a dry powder inhaler (DPI). DPIs create aerosols by drawing air through an aliquot of dry powder. The powder contains either micronized (< 5 µm in diameter) drug particles bound into loose aggregates, or micronized drug particles that are loosely bound to large (> 30 µm in diameter) lactose or glucose particles. Usually, the drug particles are bound to carrier particles and are stripped form the carrier particles by the energy provided by the patientŽs inhalation. The release of respirable particles of the drug requires inspiration at relatively high flow rates (30 - 120 L/min). Other important factors influencing aerosol generation and lung deposition are device design (resistance to airflow) and environmental conditions (humidity, temperature).
Preferably, patients should employ only one type of aerosol-generating device for inhalation therapy. The technique of use varies among devices, and repeated instruction is highly advisable, to ensure that the patient uses the device appropriately. At present, DPIs are recommended for prophylactic and maintenance therapy in patients with asthma and chronic obstructive pulmonary disease, but not for patients with acute severe bronchoconstriction or children less than 5 years of age.
Literatur
- 1
Assi K, Chrystyn H.
The different resistance of dry powder inhalers (DPIs).
Am J Respir Crit Care Med.
2001;
163
A443
Reference Ris Wihthout Link
- 2
Beckman O, Bondesson E, Asking L, Källén A, Borgström L.
Intra-and interindividual variations in pulmonary deposition via Turbuhaler
and a pMDI.
J Aerosol Med.
1996;
9
A449
Reference Ris Wihthout Link
- 3
Borgström L.
On the use of dry powder inhalers in situations perceived as constrained.
J Aerosol Med.
2001;
14
281-287
Reference Ris Wihthout Link
- 4
Borgström L, Bengtsson T, Deron E, Pauwels R.
Variability in lung deposition of inhaled drug, within and between asthmatic
patients, with a pMDI and a dry powder inhaler, Turbuhaler.
Int J Pharm.
2000;
193
227-230
Reference Ris Wihthout Link
- 5 Borgström L, Bisgaard H, OŽCallaghan C, Pedersen S. Dry Powder Inhalers. New York, M. Dekker In: Bisgaard H, OŽCallaghan C, Smaldone G. Drug delivery to the lung 2002: 421-447
Reference Ris Wihthout Link
- 6
Brocklebank D, Wright J, Cates C. on behalf of the National Health Technology Assessment Inhaler Review Group .
Systematic review of clinical effectiveness of pressurised metered dose inhalers
versus other hand held inhaler devices for delivering corticosteroids in asthma.
Brit Med J.
2001;
323
896-900
Reference Ris Wihthout Link
- 7
Brown P H, Ning A C, Greening A P, McLean A, Crompton G K.
Peak inspiratory flow through Turbuhaler in acute asthma.
Eur Respir J.
1995;
8
1940-1941
Reference Ris Wihthout Link
- 8 Bundesanzeiger vom 7. Januar 2000
Reference Ris Wihthout Link
- 9 Bundesanzeiger vom 6. Dezember 2002
Reference Ris Wihthout Link
- 10
Clark A R, Hollingworth A.
The relationship between powder inhaler resistance and peak inspiratory conditions
in healthy volunteers-implications for in vitro testing.
J Aerosol Med.
1993;
6
99-110
Reference Ris Wihthout Link
- 11
Cochrane M G, Bala M V, Downs K E, Mauskopf J, Ben-Joseph R H.
Inhaled corticosteroids for asthma therapy. Patient compliance, devices, and
inhalation technique.
Chest.
2000;
177
542-550
Reference Ris Wihthout Link
- 12
Dewar M H, Jamieson A, McLean A, Crompton G K.
Peak inspiratory flow through Turbuhaler® in chronic obstructive airways disease.
Resp Med.
1999;
93
342-344
Reference Ris Wihthout Link
- 13
Dolovich M B, MacIntyre N R, Anderson P J. et al .
Consensus statement: Aerosols and delivery devices.
J Aerosol Med.
2000;
13
291-300
Reference Ris Wihthout Link
- 14
Everard M L.
Guidelines for devices and choices.
J Aerosol Med.
2001;
14
(Suppl 1)
S59-64
Reference Ris Wihthout Link
- 15
Everard M L, Devadason S G, Le Souref P N.
Flow early in the inspiratory manoeuvre affects the aerosol particle size distribution
form a Turbuhaler.
Respir Med.
1997;
91
624-628
Reference Ris Wihthout Link
- 16
Fink J B.
Aerosol device selection : evidence to practice.
Respiratory Care.
2000;
45
874-885
Reference Ris Wihthout Link
- 17
Gallefoss F, Bakke P S.
How does patient education and self-management among asthmatics and patients
with chronic obstructive pulmonary disease affect medication?.
Am J Respir Crit Care Med.
1999;
160
2000-2005
Reference Ris Wihthout Link
- 18
Giraud V, Roche N.
Misuse of corticosteroid metered-dose inhaler is associated with decreased asthma
stability.
Eur Respir J.
2002;
19
246-251
Reference Ris Wihthout Link
- 19
Haidl P, Köhler D.
Geographische und ökonomische Aspekte der Inhalationstherapie.
Pneumologie.
1999;
53
612-616
Reference Ris Wihthout Link
- 20
Hesselink A E, Penninx B W, Wijnhoven H A, Kriegsman D M, van Eiijk J T.
Determinants of an incorrect inhalation technique in patients with asthma and
COPD.
Scand J Prim Health Care.
2001;
19
255-260
Reference Ris Wihthout Link
- 21 Heyder J, Svartengren M U. Basic principles of particle behavior in the human respiratory tract. Marcel Dekker, New York Basel In: Bisgaard H, OŽCallaghan CO, Smaldone GC. Drug delivery to the lung 2002: 21-45
Reference Ris Wihthout Link
- 22
Jones C, Santanello N C, Boccuzzi S J, Wogen J, Strub P, Nelsen L M.
Adherence to prescribed treatment for asthma: evidence from pharmacy benefits
data.
J Asthma.
2003;
40
93-101
Reference Ris Wihthout Link
- 23
Kamin W ES, Genz T, Roeder S, Scheuch G, Cloes R, Juenemann R, Trammer T H.
The inhalation manager - a new computer-based device to assess inhalation technique
and drug delivery to the patient.
J Aerosol Med.
2003;
16
21-29
Reference Ris Wihthout Link
- 24
Kamps A W, van Ewijk B, Roorda R J, Brand P L.
Poor inhalation technique, even after inhalation instructions, in children with
asthma.
Pediatr Pulmonol.
2000;
29
39-42
Reference Ris Wihthout Link
- 25
Köhler D.
Wirksamkeit und Akzeptanz von Pulverinhalatoren.
Dtsch med Wochenschr.
1995;
120
1401-1404
Reference Ris Wihthout Link
- 26 Köhler D, Fleischer W. Theorie und Praxis der Inhalationstherapie. Arcis Verlag, München 2000
Reference Ris Wihthout Link
- 27
Kohlhäufl M, Brand P, Scheuch G. et al .
Increased fine particle deposition in women with asymptomatic nonspecific airway
hyperresponsiveness.
Am J Respir Crit Care Med.
1999;
159
902-906
Reference Ris Wihthout Link
- 28 Kohlhäufl M, Häußinger K. Der Wechsel von MDI zu DPI. Eine Untersuchung zur Patientencompliance. Dustri, München-Deisenhofen In: Scheuch G: Aerosole in der Inhalationstherapie V 2001: 101-104
Reference Ris Wihthout Link
- 29
Kohlhäufl M, Weber N, Scheuch G, Herpich C h, Trammer T H.
Inspiratory flow profiles of patients with severe COPD achieved through Autohaler,
Diskus, Turbohaler and in-vitro-assessment of corresponding output characteristics.
Eur Resp J.
2003;
22
(Suppl 45)
409s
Reference Ris Wihthout Link
- 30
Magnussen H.
Inhalation therapy for bronchial asthma:strategies and targets.
Curr Opin Pulm Med.
2003;
9
(Suppl 1)
S3-7
Reference Ris Wihthout Link
- 31
Meakin B J, Cainey J, Woodcock P M.
Effect of exposure to humidity on terbutaline delivery from turbuhaler dry powder
inhalation devices.
Eur Respir J.
1992;
5
1143-1145
Reference Ris Wihthout Link
- 32
Meijer R, van der Mark T W, Aalders B J, Postma D S, Koeter G H.
Home assessment of peak inspiratory flow through the Turbohaler in asthmatic
patients.
Thorax.
1996;
51
433-434
Reference Ris Wihthout Link
- 33
Newman S.
A comparison of lung deposition patterns between different asthma inhalers.
J Aerosol Med.
1995;
8
S21-S26
Reference Ris Wihthout Link
- 34
Newman S, Hollingworth A, Clark A.
Effect of different modes of inhalation on drug delivery form a dry powder inhaler.
Int J Pharm.
1994;
102
127-132
Reference Ris Wihthout Link
- 35
Newman S, Morén F, Trofast E, Talaee N, Clarke S.
Turbutaline sulphate Turbuhaler: effect of inhaled flow rate on drug deposition
and efficiacy.
Int J Pharm.
1991;
74
209-213
Reference Ris Wihthout Link
- 36
Nora Y K, Chew P, Hak-Kim C.
In vitro aerosol performance and dose uniformity between the Foradile® Aerolizer®
and the Oxis® Turbuhaler®.
J Aerosol Med.
2003;
14
495-501
Reference Ris Wihthout Link
- 37
Olsson B.
Aerosol particle generation from dry powder inhalers:can they equal pressurized
metered dose inhalers?.
J Aerosol Med.
1995;
8
S13-S18
Reference Ris Wihthout Link
- 38
Price R, Young P M, Edge S, Staniforth J N.
The influence of relative humidity on particulate interactions in carrier-based
dry powder inhaler formulations.
Int J Pharm.
2002;
246
47-59
Reference Ris Wihthout Link
- 39
Ram F SF, Wright J, Brocklebank D, White J ES. on behalf of the National Health Technology Assessment Inhaler Review Group .
Systematic review of clinical effectiveness of pressurised metered dose inhalers
versus other hand held inhaler devices for delivering b2 agonists bronchodilators in asthma.
BMJ.
2001;
323
901-905
Reference Ris Wihthout Link
- 40
Richards R.
Need for a comparative performance standard for dry powder inhalers.
Thorax.
1993;
48
1186-1187
Reference Ris Wihthout Link
- 41
Sarinas P SA, Robinson T E, Clark A R, Canfield J, Chitkara R K, Fick R B.
Inspiratory flow rate and dynamic lung function in cystic fibrosis and chronic
obstructive lung disease.
Chest.
1998;
114
988-992
Reference Ris Wihthout Link
- 42 Schmidt F. Vergleichende Untersuchung des Wirkungseintritts von Formoterol Pulverinhalat
und Salbutamol Dosieraerosol bei der Behandlung der schwergradigen metacholininduzierten
bronchialen Obstruktion. Dissertation, Philipps-Universität, Marburg 2002
Reference Ris Wihthout Link
- 43
Serra-Batlles J, Plaza V, Badiola C, Morejon E. on behalf of the Inhalation devices study group .
Patients perception and acceptability of multidose dry powder inhalers: a randomized
crossover comparison of Diskus /Accuhaler with Turbuhaler.
J Aerosol Med.
2002;
15
59-64
Reference Ris Wihthout Link
- 44
Stanescu D, Veriter C, Van de Woestijne K P.
Maximal inspiratory flow rates in patients with COPD.
Chest.
2000;
118
976-980
Reference Ris Wihthout Link
- 45 Stiftung Warentest .Schwach auf der Brust. 2002 01: 90-94
Reference Ris Wihthout Link
- 46
Svartengren K, Lindestad P, Svartengren M, Philipson K, Bylin G, Camner P.
Added external resistance reduces oropharyngeal deposition and increases lung
deposition of aerosol particles in asthmatics.
Am J Respir Crit Care Med.
1995;
152
32-37
Reference Ris Wihthout Link
- 47
Van der Palen J, Klein J J, van Herwaarden C L, Zielhuis G A, Seydel E R.
Multiple inhalers confuse asthma patients.
Eur Respir J.
1999;
14
1034-1037
Reference Ris Wihthout Link
- 48
Voshaar Th, App E M, Berdel D. et al .
Empfehlungen für die Auswahl von Inhalationssystemen zur Medikamentenverabreichung.
Pneumologie.
2001;
55
579-586
Reference Ris Wihthout Link
- 49
Voss A, Finlay W H.
Deagglomeration of dry powder pharmaceutical aerosols.
Int J Pharm.
2002;
284
39-50
Reference Ris Wihthout Link
- 50
Zellweger J -P, Anderhub H -P, Langloh P.
Efficacité et tolérance e la terbutaline et du budésonide administré à láide
dŽun aérosol-doseur pressurisé ou dŽun Turbuhaler® aux patients asthmatiques.
Schweiz Rundschau Med.
1993;
82
561-564
Reference Ris Wihthout Link
Priv.-Doz. Dr. med. M. Kohlhäufl
Asklepios Fachklinik München-Gauting, Zentrum für Pneumologie und Thoraxchirurgie
Robert-Koch-Allee 2
82131 Gauting
Phone: 089/857910
Email: m.kohlhaeufl@asklepios.com