Patent USRE40045 - Medicaments

Veröffentlichungsnummer	USRE40045 E1
Publikationstyp	Erteilung
Anmeldenummer	10/933,483
Veröffentlichungsdatum	5. Febr. 2008
Eingetragen	3. Sept. 2004
Prioritätsdatum	8. Sept. 1989
Auch veröffentlicht unter	US5270305
Erfinder	James B. D. Palmer
Ursprünglich Bevollmächtigter	Glaxo Group Limited
US-Klassifikation	424/43 424/45 424/489 424/434 424/46 514/826 424/400
Internationale Klassifikation	A61K9/00 A61K31/57 A61K9/14 A61L9/04
Unternehmensklassifikation	A61K31/57
Europäische Klassifikation	A61K31/57
Referenzen	Patentzitate (38) Nichtpatentzitate (102)

Externe Links	USPTO USPTO-Zuordnung Espacenet

Medicaments

US RE40045 E1

Zusammenfassung

Pharmaceutical compositions comprising effective amounts of salmeterol (and a physiologically acceptable salt thereof) and fluctuations propionate as a combined preparation for simultaneous, sequential or separate administration by inhalation in the treatment of respiratory disorders.

Ansprüche

1. A pharmaceutical composition comprising effective amounts of salmeterol or a physiologically acceptable salt thereof and fluticasone propionate as a combined preparation for simultaneous, sequential or separate administration by inhalation in the treatment of respiratory disorders.

2. A composition as claimed in claim 1, wherein salmeterol is present as its 1-hydroxy-2-naphthalenecarboxylate salt.

3. A composition as claimed in claim 1 presented in the form of a metered dose inhaler or a metered dry powder composition.

4. A composition as claimed in claim 1 in dosage unit form containing 25-100 μg of salmeterol or a physiologically acceptable salt thereof and 25-500 μg of fluticasone propionate per dosage unit.

5. A composition as claimed in claim 2 presented in the form of a metered dose inhaler or a metered dry powder composition.

6. A composition as claimed in claim 2 in dosage unit form comprising 25-100 μg of the 1-hydroxy-2-naphthalenecarboxylate salt of salmeterol and 25-500 μg of fluticasone propionate per dosage unit.

7. A composition as claimed in claim 6 presented in the form of a metered dose inhaler or a metered dry powder composition.

8. The use of salmeterol or a physiologically acceptable salt thereof and fluticasone propionate in the manufacture of pharmaceutical compositions as combined preparations for simultaneous, sequential or separate administration of salmeterol and fluticasone propionate by inhalation in the treatment of respiratory disorders.

9. A method of treating respiratory disorders which comprises the simultaneous, sequential or separate administration by inhalation of effective amounts of salmeterol or a physiologically acceptable salt thereof and fluticasone propionate.

10. A method as claimed in claim 9 wherein the salmeterol or a physiologically acceptable salt thereof and the fluticasone propionate are administered on a twice daily basis.

11. A method as claimed in claim 10 wherein the effective amount of salmeterol or a physiologically acceptable salt thereof 50-200 μg per day and the effective amount of fluticasone propionate is 50-1000 μg per day.

Beschreibung

This application is a continuation of U.S. patent application Ser. No. 07/578,601, filed Sept. 7, 1990.

This application is a continuation of U.S. patent application Ser. No. 07/578,601, filed Sep. 7, 1990, now abandoned.

This invention relates to improvements in the treatment of asthma and other respiratory disorders. More particularly, it relates to the use of a bronchodilator drug in combination with a steroidal anti-inflammatory drug for the treatment of respiratory disorders such as asthma, and to pharmaceutically compositions containing the two active ingredients.

Asthma is a condition characterized by variable, reversible obstruction of the airways which is caused by a complex inflammatory process within the lungs. In most cases, this process is initiated and maintained by the inhalation of antigens by sensitive atopic individuals (extrinsic asthma). However, in some patients it is caused by other mechanisms which at present are poorly understood but do not involve an allergic process (intrinsic asthma). The disease has therefore two components, spasm of the bronchial (or breathing) tubes and inflammation or swelling of the breathing tubes.

Salbutamon, the first highly selective β₂-adrenoceptor stimulant has been used successfully and effectively by inhalation for the immediate relief of spasm in asthma. However, when given by inhalation, salbutamol has usually a four to six hour duration of action, which is too short either to control nocturnal asthma or for convenient maintenance of the disease in some patients.

Anti-inflammatory corticosteroids such as, for example, beclomethasone dipropionate have also been administered by inhalation in the treatment of asthma, although unlike salbutamol the therapeutic benefits resulting from reduced inflammation may not be immediately apparent.

It has been recognized that asthma may be treated by using both a bronchodilator or immediate relief and a prophylactic anti-inflammatory corticosteroid to treat the underlying inflammation. Such combination therapy directed at the two main underlying events in the lung (i.e., relief of spasm in the breathing tubes and treatment of inflammation in the breathing tubes) using a combination of salbutamol and beclomethasone dipropionate has previously been proposed (Ventide, Glaxo Group trade mark), but suffers a number of disadvantages in view of the above-mentioned short duration of action exhibited by salbutamol. Thus the need for a 4-hourly dosing regimen may discourage effective patient compliance and also renders the product less than satisfactory in the treatment of nocturnal asthma since the bronchodilator may no remain effective for the duration of the night, leading to impaired sleep for asthmatics troubled by nocturnal cough, breathlessness and wheeze.

The present invention is based on the concept of a novel combination therapy which has markedly greater efficiency and duration of bronchodilator action than previously known combinations and which permits the establishment of a twice daily (bis in dime—b.i.d.) dosing regimen with consequent substantial benefits in, for example, the treatment of asthma, particularly nocturnal asthma.

Thus we have foundwe believe that if the β₂-adrenoreceptor stimulant brochodilator salmeterol and/or a physiologically acceptable salt thereof is combined with the anti-inflammatory corticosteroid fluticasone propionate in a form suitable for administration by inhalation, the resulting compositions may be administered on a b.i.d. basis to provide highly effective treatment and/or prophylactic therapy for asthmatics. In particular we believe that such administration has been shown towill lead to significant improvement in daytime lung functions, requirement for additional symptomatic bronchodilator and almost complete abolition of nocturnal asthma while giving rise to minimal systemic side effects.

Salmeterol is one of a range of bronchodilators having extended duration of action which is described in British Patent Specification No. 2140800, and is systematically named 4-hydroxy-α¹-[[[6-(4-phenylbutoxy)hexyl]amino]methyl]-1,3-benzenedimethanol. Fluticasone propionate is one of a range of topical anti-inflammatory corticosteroids with minimal liability to undesired systemic side effects which is described in British Patent Specification No. 2088877, and is systematically named S-fluoromethyl 6α,9α-difluoro-11β-hydroxy-16β-methyl-17α-pripionyloxy-3-oxoandros-1,4-diene-17β-carbothionate. We have foundWe believe these two compounds to be particularly compatible and complementary in their activity and thus highly effective in the treatment of asthma and other respiratory disorders.

Thus according to one aspect of the invention there are provided pharmaceutical compositions comprising effective amounts of salmeterol (and/or a physiologically acceptable salt thereof) and fluticasone propionate as a combined preparation for simultaneous, sequential or separate administration by inhalation in the treatment of respiratory disorders.

The invention additionally relates to the use of salmeterol (and/or a physiologically acceptable salt thereof) and fluticasone propionate in the manufacture of pharmaceutical composition as combined preparations for simultaneous, sequential or separate administration of salmeterol and fluticasone propionate by inhalation in the treatment of respiratory element.

According to further feature of the invention there is provided a method of treating respiratory disorders which comprises the simultaneous, sequential or separate administration by inhalation of effective amounts of salmeterol (and/or a physiologically acceptable salt thereof) and fluticasone propionte.

Suitable physiologically acceptable salts of salmeterol include acid addition salts derived from inorganic and organic acids, such as the hydrochloride, hydrobromide, sulphate, phosphonate, maleaste, tartrate, citrate, benzone, 4-methoxybenzoate, 2- or 4-hydroxybenzoate, 4-chlorobenzoate, p-toluenesulphonate, methanesulphonate, ascorbate, salicylate acetate, fumarate, succinate, lactate, glutarate, gluconate, tricarballylate, hydroxynaphthalencarboxylate e.g. 1-hydroxy- or 3-hydroxy-2-naphthalenecarboxylate, or oleate. Salmeterol is preferably used in the form of its 1-hydroxy-2-napthalene carboxylate salt ( hydroxynaphthoate).

For administration by inhalation, the compositions according to the invention are conveniently delivered by conventional means, e.g. in the form of a metered dose inhaler prepared in a conventional manner or in combinations with a spacer device such as the Volumatic (Glaxo Group trade mark) device. In the case of a metered dose inhaler, a metering valve is provided to deliver a metered amount of the composition. Spray compositions may for example be formulated as aqueous solutions or suspensions and may be administered by a nebuliser. Aerosol spray formations, for example in which the active ingredients are suspended, optionally together with one or more stabilisers, in a propellant, e.g. a halogenated hydrocarbon such as trichlorofluoromethane, dichlorofluoromethane, 1,2-dichlorotetrafluoroethane, trichlorotrifluoroethane, monochloropentafluoroethane, chloroform or methylene chloride, may also be employed. The two drugs may be administered separately in similar ways.

Alternatively, for administration by inhalation or insufflation, the compositions according to the invention may take the form of a dry powder composition, for example a powder mix of the active ingredients and a suitable carrier such as lactose. The powder compositions may be presented in unit dosages form in, for example, capsules, cartridges or blister packs from which the powder may be administered with the aid of an inhaler such as the Rotahaler inhaler (Glaxo Group trade mark) or in the case of blister packs by means of the Diskhaler inhaler (Glaxo Group trade mark).

The ratio of salmeterol to fluctuations propionate in the compositions according to the invention is preferably within the range of 4:1 to 1:20. The two drugs may be administered separately in the same ratio. Each metered dose or actuation of the inhaler will generally contain from 25 μg to 100 μg of salmeterol and from 25 μg to 500 μg of fluticasone propionate. As hereinafter indicated, it is intended that the pharmaceutical compositions will be administered twice daily.

A suitable daily dose of salmeterol for inhalation is in the range 50 μg to 200 μg.

A suitable daily dose of fluticasone propionate for inhalation is in the range 50 μg to 2000 μg depending on the severity of the disease.

The precise dose employed will of course depend on the method of administration, the age, weight and condition of the patient and will be determined by the clinician depending on the severity and the type of asthma.

In order that the invention may be more fully understood, the following example are given by way of illustration only.

EXAMPLE 1 Metered Dose Inhaler


	Target per	Per Inhaler
Active Ingredient	Actuation	% w/w


Salmeterol	25.0	μg	0.0448
(as hydroxynaphthoate)
Fluticasone propionate	25.0	μg	0.0309
Stabiliser	5.0	μg	0.0076
Trichlorofluoromethane	23.70	mg	27.8759
Dichlorodifluoromethane	61.25	mg	72.0588

EXAMPLE 2 Metered Dose Inhaler


	Target per	Per Inhaler
Active Ingredient	Actuation	% w/w


Salmeterol	25.0	μg	0.0448
(as hydroxynaphthoate)
Fluticasone propionate	50.0	μg	0.0618
Stabiliser	7.5	μg	0.0106
Trichlorofluoromethane	23.67	mg	27.8240
Dichlorodifluoromethane	61.25	mg	72.0588

EXAMPLE 3 Metered Dose Inhaler


	Target per	Per Inhaler
Active Ingredient	Actuation	% w/w


Salmeterol	25.0	μg	0.0448
(as hydroxynaphthoate)
Fluticasone propionate	250.0	μg	0.3088
Stabiliser	25.0	μg	0.0309
Trichlorofluoromethane	23.45	mg	27.5567
Dichlorodifluoromethane	61.25	mg	72.0588

EXAMPLE 4 Metered Dose Inhaler


	Target per	Per Inhaler
Active Ingredient	Actuation	% w/w


Salmeterol	25.0	μg	0.0448
(as hydroxynaphthoate)
Fluticasone propionate	125.0	μg	0.1544
Stabiliser	15.0	μg	0.0175
Trichlorofluoromethane	23.56	mg	27.7244
Dichlorodifluoromethane	61.25	mg	72.0588

EXAMPLE 5 Metered Dose Inhaler


	Target per	Per Inhaler
Active Ingredient	Actuation	% w/w


Salmeterol	100.0	μg	0.1791
(as hydroxynaphthoate)
Fluticasone propionate	250.0	μg	0.3088
Stabiliser	25.0	μg	0.0309
Trichlorofluoromethane	23.43	mg	27.4224
Dichlorodifluoromethane	61.25	mg	72.0588

In Examples 1 to 5 micronised fluticasone propionate and micronised salmeterol (as the hydroxynaphthoate) are added in the proportions given above either dry or after predispersal in a small quantity of stabiliser (disodium dioctylsulphosuccinate, lecithin, oleic acid or sorbitan trioleate)/trichlorofluoromethane solution to a suspension vessel containing the main bulk of the trichlorofluoromethane solution. The resulting suspension is further dispersed by an appropriate mixing system using, for example, a high shear bladder, ultrasonic or a microfluidiser until an ultrafine dispersion is created. The suspension is then continuously recirculated to suitable filling equipment designed for cold fill or pressure filling of dichlorodifluoromethane. Alternatively, the suspension may be prepared in a suitable chilled solution of stabiliser, in trichlorofluoromethane/ dichlorodifluoromethane.

EXAMPLE 6 Metered Dose Dry Powder Formulation


Active Ingredient	μg/cartridge or blister


Salmeterol	36.3
(as hydroxynaphthoate)
Fluticasone propionate	50.00
Lactose Ph. Eur.	to 12.5	mg or
	to 25.0	mg

EXAMPLE 7 Metered Dose Dry Powder Formulation


Active Ingredient	μg/cartridge or blister


Salmeterol	72.5
(as hydroxynaphthoate)
Fluticasone propionate	50.00
Lactose Ph. Eur.	to 12.5	mg or
	to 25.0	mg

EXAMPLE 8 Metered Dose Dry Powder Formulation


Active Ingredient	μg/cartridge or blister


Salmeterol	72.5
(as hydroxynaphthoate)
Fluticasone propionate	100.00
Lactose Ph. Eur.	to 12.5	mg or
	to 25.0	mg

EXAMPLE 9 Metered Dose Dry Powder Formulation


Active Ingredient	μg/cartridge or blister


Salmeterol	72.5
(as hydroxynaphthoate)
Fluticasone propionate	250
Lactose Ph. Eur.	to 12.5	mg or
	to 25.0	mg

EXAMPLE 10 Metered Dose Dry Powder Formulation


Active Ingredient	μg/cartridge or blister


Salmeterol	72.5
(as hydroxynaphthoate)
Fluticasone propionate	500.0
Lactose Ph. Eur.	to 12.5	mg or
	to 25.0	mg

EXAMPLE 11 Metered Dose Dry Powder Formulation


Active Ingredient	μg/cartridge or blister


Salmeterol	145.0
(as hydroxynaphthoate)
Fluticasone propionate	250.0
Lactose Ph. Eur.	to 12.5	mg or
	to 25.0	mg

In Examples 6 to 11 the active ingredients are micronised and bulk blended with the lactose in the proportions given above. The blend is filled into hard gelatin capsules or cartridges or in specifically constructed double foil blister packets (Rotadisks blister packs, Glaxo Group trade mark) to be administered by an inhaler such as the Rotahaler inhaler (Glaxo Group trade mark) or in the case of the blister packs with the Diskhaler inhaler (Glaxo Group trade mark).

Patentzitate

Zitiertes Patent	Eingetragen	Veröffentlichungsdatum	Antragsteller	Titel
US4199578	27. Nov. 1978	22. Apr. 1980	Fisons Limited	Composition
US4278673	4. Sept. 1979	14. Juli 1981	Allen & Hanburys Limited	Pharmacologically active compounds
US4335121	13. Febr. 1981	15. Juni 1982	Glaxo Group Limited	Androstane carbothioates
US4352789	17. März 1980	5. Okt. 1982	Minnesota Mining And Manufacturing Company	Aerosol compositions containing finely divided solid materials
US4513001	22. März 1983	23. Apr. 1985	Laboratoire Roger Bellon	β-Adrenergic 1-[1-benzimidazolyl]-N-[2-(4-hydroxy-3-methoxy-phenyl)-2-hydroxy-ethyl]-3-amino butane and salts and hydrates thereof
US4578221	14. Juli 1983	25. März 1986	Glaxo Group Limited	Androstane carbothioic acids
US4778054	1. Dez. 1986	18. Okt. 1988	Glaxo Group Limited	Pack for administering medicaments to patients
US4811731	29. Juli 1986	14. März 1989	Glaxo Group Limited	Devices for administering medicaments to patients
US4814161	2. Jan. 1986	21. März 1989	Riker Laboratories, Inc.	Drug-containing chlorofluorocarbon aerosol propellent formulations
US4866051	30. Jan. 1985	12. Sept. 1989	Glaxo Group Limited	Micronised beclomethasone dipropionate monohydrate compositions and methods of use
US4906476	14. Dez. 1988	6. März 1990	Liposome Technology, Inc.	Novel liposome composition for sustained release of steroidal drugs in lungs
US4985418	23. Dez. 1987	15. Jan. 1991	Glaxo Group Limited	Pharmaceutical compositions
US5091422	21. Juni 1990	25. Febr. 1992	Glaxo Group Limited	Phenethanolamine derivatives
US5208226	3. Sept. 1991	4. Mai 1993	Glaxo Group Limited	Medicaments
US5658549	19. Mai 1995	19. Aug. 1997	Glaxo Group Limited	Aerosol formulations containing propellant 134a and fluticasone propionate
US5674472	19. Mai 1995	7. Okt. 1997	Glaxo Group Limited	Canisters containing aerosol formulations containing P134a and fluticasone propionate
US5736124	30. Mai 1995	7. Apr. 1998	Glaxo Group Limited	Aerosol formulations containing P134a and particulate medicament
US5817293	30. Mai 1995	6. Okt. 1998	Glaxo Group Limited	Canister containing aerosol formulations containing P134a and particulate medicaments
US5916540	6. Apr. 1998	29. Juni 1999	Glaxo Group Limited	Aerosol formulations containing P134A and/or P227 and particulate medicament
US5955439	22. Dez. 1995	21. Sept. 1999	Glaxo Group Limited	Pharmaceutical aerosol containing at least one sugar
US6143277	19. Dez. 1996	7. Nov. 2000	Glaxo Group Limited	Metered dose inhaler for salmeterol
US6153173	8. Dez. 1995	28. Nov. 2000	Glaxo Group Limited	Propellant mixture for aerosol formulation
US6251368	17. Juni 1997	26. Juni 2001	Glaxo Group Limited	Pharmaceutical aerosol formulation containing a particulate medicament, a propellant and substantially free of a surfactant
US6253762	31. März 1997	3. Juli 2001	Glaxo Wellcome Inc.	Metered dose inhaler for fluticasone propionate
US6536427	9. Aug. 2001	25. März 2003	Glaxo Group Limited	Inhalation device
US6880722	19. Okt. 2001	19. Apr. 2005	Glaxo Group Limited	Medicament dispenser
US6919069	30. Apr. 2003	19. Juli 2005	Glaxo Group Limited	Aerosol formulation containing particulate formoterol, propellant and polar cosolvent
US6926178	4. Juli 2000	9. Aug. 2005	Glaxo Group Limited	Valve with a two-component seal
EP0223671A1	16. Okt. 1986	27. Mai 1987	Centre International De Recherches Dermatologiques Galderma - Cird Galderma	Medicament with a synergistic anti-inflammatory effect on the basis of a corticosteroid and a beta-agonist
EP0416951A1	7. Sept. 1990	13. März 1991	Glaxo Group Limited	Medicaments comprising salmeterol and fluticason
GB2088877A				Titel nicht verfügbar
GB2107715A				Titel nicht verfügbar
GB2140800A				Titel nicht verfügbar
GB2187953A				Titel nicht verfügbar
GB2235626A				Titel nicht verfügbar
GB2235627A				Titel nicht verfügbar
WO1987005213A1	27. Febr. 1987	11. Sept. 1987	Chiesi Farmaceutici S.P.A.	New pharmaceutical compositions for inhalation
WO1990006775A1	6. Dez. 1989	28. Juni 1990	Liposome Technology, Inc.	A novel nonphospholipid liposome composition for sustained release of drugs

Nichtpatentzitate

Referenz
1	ABPI data sheet compendium entry for 1988-9 ("the VENTIDE data sheet").
2	Allergy and asthma, new trends and approaches to therapy. (Proceedings of a November 1987 conference) Ed. by A.B. Kay, Blackwell Scientific Publications, Boston, MA (1989).
3	Anani, A. et al., Breath-actuated inhalers: comparison of terbutaline Turbohaler with salbutamol Rotahaler, European Respiratory Journal, 2:640-642 (1989).
4	Arossa, W. et al., Salbutamol plus beclomethasone dipropionate versus theophylline for the prevention of methacholine-induced bronchospasm in patients with chronic bronchitis, International Journal of Clinical Pharmacology, Therapy and Toxicology, 23(10):565-568 (1985).
5	Ball, D.I. et al., Bronchodilator Activity of Salmeterol, A Long-acting beta<SUB>2</SUB>-Adrenoceptor Agonist, British Journal of Pharmacology, 92:746P (1987).
6	Ball, D.I. et al., In Vitro Characterisation of the beta<SUB>2</SUB>-Adrenoceptor agonist, Salmeterol, British Journal of Pharmacology, vol. 92:591P (1987).
7	Barazzone, C., Asthme: nouveautés thérapeutiques (Asthma: new therapies), Médecine et Hygiene, 48:3642-3645 (1990).
8	Barnes, P.J., The Drug Therapy of Asthma: Directions for the 21st Century, Directions for New Anti-Asthma Drugs, 293-313 (Stella R. O'Donnell et al. eds. 1988).
9	Bateman, E.D. et al., Salmeterol/Fluticasone Combination Inhaler, A New, Effective and Well Tolerated Treatment for Asthma, Clin. Drug. Invest., 16(3):193-201 (1998).
10	Bauer, K. et al., The Effect of Inhaled Fluticasone Propionate (FP), A New Potent Corticosteriod in Severe Asthma, European Respiratory Journal, 1 (Suppl. 2): 201S (1988) (Abstract).
11	Bennati, D. et al., Changes in Bronchial Reactivity in Asthmatic Children After Treatment with Beclomethasone Alone or in Association with Salbutamol, Journal of Asthma, 26(6):359-364 (1989).
12	Bloomfield, P. et al., Comparison of salbutamol given intravenously and by intermittent positive-pressure breathing in life-threatening asthma, British Medical Journal, 1(6167):848-850 (1979).
13	Bradshaw, J. et al., The Design of Salmeterol, a Long-acting Selective beta<SUB>2</SUB>-adrenoceptor agonist, Brit. Pharm. Soc'y, Oxford, England, UK, Sep. 9-11, 1987. Br. J. Pharmacology 92 Suppl. (1987) (Abstract 590P).
14	British Thoracic Society, Guidelines for management of asthma in adults: I-Chronic persistent asthma, British Medical Journal, 301: 651-653 (Sep. 29, 1990).
15	Brittain et al, Further Studies on the long duration of action of salmeterol, a new, selective Beta<SUB>2</SUB>-stimulant bronchodilator, 125th Brit. Pharm. Conference, Aberdeen, Scotland, UK, Sep. 11-17, 1988, J. Pharm. Pharmacology 40 Suppl. (1988) (Abstract 93P).
16	Bronchodilators, in New Yakurigaku ("New Pharmacology"), Ed. by Chikako Tanaka and Ryuichi Katoh, Nankoudou, K.K., 427-428 (1989).
17	Butchers, P.R. et al., Salmeterol: A potent and long-acting inhibitor of the release of inflammatory and spasmogenic mediators from human lung, British Journal of Pharmacology, 92:745P (1987).
18	Cameron, S.J. et al., Substitution of Beclomethasone Aerosol for Oral Prednisolone in the Treatment of Chronic Asthma, British Medical Journal, 4(5886):205-207 (1973).
19	Carmichael, J. et al., Beclomethasone dipropionate dry-powder inhalation compared with conventional aerosol in chronic asthma, British Medical Journal, 2(6137):657-658 (1978).
20	Carmichael, J. et al., Corticosteroid resistance in chronic asthma, British Medical Journal, 282(6274):1419-1422 (1981).
21	Chapman, K.R. et al., Salmeterol and fluticasone propionate (50/250 mug) administered via combination Diskus inhaler: As effective as when given via separate Diskus Inhalers, Can. Resp. J., 6(1):45-51 (1999).
22	Chung, K.F. et al., Drug Treatment of Asthma, Drugs of Today, 25(11):721-732 (1989).
23	Church, M.K. et al., Influence of Salbutamol and Sodium Cromoglycate on Mast Cell Mediator Release In Vivo, The Journal of Allergy and Clinical Immunology, 75(1-Part 2):195 (1985) (Abstract 361).
24	Clark, R.A. et al., Is 200 mug Beclomethasone Diproprionate (BDP) Twice Daily as Effective as 100 mug Given Four Times Each Day?, Scottish Medical Journal, 30:195 (1985).
25	Clark, T.J.H. et al., The effects of beclomethasone dipropionate aerosol given in high doses to patients with asthma, Postgraduate Medical Journal, 51(Suppl. 4):72-75 (1975).
26	Clarke, S.W. et al., Therapeutic aerosols 2-Drugs available by the inhaled route, Thorax, 39(1):1-7 (1984).
27	Cochrane, G.M. et al., A Colour Atlas of Asthma (1989).
28	Cochrane, G.M., et al., Algorithms for treatment of asthma, A Colour Atlas of Asthma, 125-129 (1989).
29	Cochrane, G.M., Inhaled Steroids and their role in the treatment of asthma, Bronchus, 2(3):8 (1987).
30	Cochrane, G.M., The Difficult Chronic Asthmatic, Br. J. Dis. Chest, 81(4): 313-320 (1987).
31	Combined inhaler is key to therapy, General Practitioner (Feb. 2, 1990).
32	Cooke, N.J. et al., Response to Rimiterol and Salbutamol Aerosols Administered by Intermittent Positive-pressure Ventilation, British Medical Journal, 2(5913):250-252 (1974).
33	Costello, J.F. et al., Nebulised salbutamol in life-threatening asthma, and further letters of Anderson, P.B. and Bloomfield, P. et al., British Medical Journal, 1(6173):1284-1285 (1979).
34	Costello, J.F. et al., Response of patients receiving high dose beclomethasone dipropionate, Thorax, 7(29):571-573 (1974).
35	Crane, J. et al., Prescribed Fenoterol and Death from Asthma in New Zealand, 1981-83: Case-Control Study, The Lancet, 917-922 (1989).
36	Creemers, J.P.H.M. et al., A Multicentre Comparative Study of Salbutamol Controlled Release (Volmax)(R) and Sustained-Release Theophylline (Theo-dur)(R) in the Control of Nocturnal Asthma, The European Respiratory Journal Abstracts Book, 1(Supplement 2):333s (1988).
37	Crompton, G., Intravenous beta-agonist in severe acute asthma, British Medical Journal, and further letters of Ward, M.J. and McKay, S. et al., 297(6651):791-792 (1988).
38	Crompton, G.K., "All asthmatics should have inhaler therapy," The Pharmaceutical Journal, 232(6270):365-366 (1984).
39	Crompton, G.K., High dose inhaled steroids, Research and Clinical Forums, 11:51 (1989).
40	Crompton, G.K., Illogical warnings on Ventolin inhalers, Br. Med. J (Clin Res. Ed), 288(6425):1231 (1984).
41	Dal Negro, R.W. et al., Airways Flow Limitation: Acute Responsiveness to Combined Salbutamol+Beclomethasone Dipropionate (Ventolin(R) Flogo), Current Therapeutic Research, 35(4):561-565 (1984).
42	Dal Negro, R.W. et al., Chronic Airways Obstruction Responsiveness to Combined, Pressurized Salbutamol-Beclomethasone Dipropionate (Ventolin Flogo*), Clinical Trials Journal, 20(6):366-372 (1983).
43	Davies, Saffron, Health: Breathing space is not the same as a cure for asthmatics: Saffron Davies on the fears that new drugs to cope with the symptoms of asthma neglect to treat the disease itself, The Independent (Apr. 18, 1989).
44	Deucher, N., Salmeterol-new 'designer' bronchodilator, Pulse, 14:86 (1989).
45	Douglas, J.G. et al., A Comparative Study of Two Doses of Salbutamol Nebulized at 4 and 8 Litres per Minute in Patients with Chronic Asthma, British Journal of Diseases of the Chest, 80(1):55-58 (1986).
46	Douglas, J.G. et al., Nebulised salbutamol without oxygen in severe acute asthma: how effective and how safe?, Thorax, 40(3):180-183 (1985).
47	Drazen, J.M. et al., Comparison of Regularly Scheduled with As-Needed Use of Albuterol in Mild Asthma, The New England Journal of Medicine, 335(12):841-847 (1996).
48	Duncan, D. et al., Comparison of the Bronchodilator Effects of Salbutamol Inhaled as a Dry Powder and by Conventional Pressurised Aerosol, British Journal of Clinical Pharmacology, 4(6):669-671 (1977).
49	Duncan, D. et al., Salbutamol in the treatment of asthma, The Practitioner, 223:843-844 (1979).
50	Entzian, P. et al., Glucocorticoid receptor binding is influenced by a beta adrenoceptor agonist in vitro, Department of Medicine, Christian-Albrechts-Universitat, Kiel, FRG European Respiratory Journal, 1 (Suppl. 2): 196S (1988) (Abstract).
51	Expert calls for dual drugs in asthma, General Practitioner, 19 (Mar. 17, 1989).
52	Extract from British National Formulary No. 16, "Drugs used in the treatment of diseases of the respiratory system," Chapter 3, 113-123 (1988).
53	Extracts from MIMS (1989) and MIMS (1990).
54	Fancourt, G.J. et al., The effects of high does (2000 micrograms/day) inhaled Beclomethasone dipropionate (Becloforte) on glucose tolerance in diet controlled elderly diabetic subjects, Leicester General Hospital Leicester, England European Respiratory Journal, 1 (Suppl. 2): 196S (1988) (Abstract).
55	Ferguson, A.C., Persistence of Bronchial Hyper-Responsiveness in Asthmatic Children Treated with Inhaled Beclomethasone, Supplement to Clinical and Investigative Medicine, 12(4):B5 (1989) (Abstract R-4).
56	Fergusson, R.J. et al., Nebulized Salbutamol in Life-Threatening Asthma: Is IPPB Necessary?, British Journal of Diseases of the Chest, 77(3):255-261 (1983).
57	Fischbacher, C.M. et al., Comparison of Duovent and Salbutamol Inhalers in Chronic Stable Asthma, Scottish Medical Journal, 30:195 (1985).
58	Flatt, A. et al., Comparison of Cardiovascular Effects of Inhaled Fenoterol, Salbutamol and Placebo, The European Respiratory Journal Abstracts Book, 1(Supplement 2):333s (1988).
59	Gader, A.M.A. et al., Fibrinoltic, Factor VIII and Pulse Rate Responses to Intravenous Adreline During Chronic Oral Salbutamol Administration, Thrombosis Research, 3(2):137-143 (1973).
60	Galleguillos, F., Study on the Association of Beclomethasone Dipropionate (BDP) and Salbutamol Ventide(R) In the Treatment of Asthma, Annals of Allergy (55 2 of Pt. 2) 407:Abstract 726 (1985).
61	Glaxo's R&D progressing on target, SCRIP No. 1411 (May 12, 1989).
62	Grant, I.W.B. et al., Becloforte inhaler, and further letter from Slessor, I.M. in British Medical Journal, 286(6365):645 (1983).
63	Grant, I.W.B. et al., Beclomethasone Aerosol in Chronic Bronchial Asthma, with further letter of Turner-Warwick, M. et al., The Lancet, II(7884):838-839 (1974).
64	Gregg, I., A new treatment for asthma: promotional expediency versus pharmaceutical responsibility, with further letter of Slessor, I.M., British Medical Journal, 288(6410):68-69 (1984).
65	Gregg, I., Treatment of Asthma with Beclomethasone Aerosol, with further letter of Grant, I.W.B. et al., British Medical Journal, 2(5805):110 (1972).
66	Haahtela, T. et al., The superiority of combination beclomethasone and salbutamol over standard dosing of salbutamol in the treatment of chronic asthma, Annals of Allergy, 62(1):63-66 (1989).
67	Harding et al, A Comparison of the Tolerance and Systemic Effects of Fluticasone Propionate (FP) and Beclomethasone Dipropionate (BDP) in Healthy Volunteers, European Respiratory Journal, 1 (2): 196S, 1988.
68	Harding, S.M. et al., A Comparison of the Tolerance and Systemic Effects of Fluticasone Propionate (FP) and Beclomethasone Dipropionate (BDP) in Healthy Volunteers, European Respiratory Journal, 1 (Suppl. 2): 196S (1988) (Abstract).
69	Holtkamp, U., Glucocorticoide früher einsetzen (Apply Glucocorticoids Earlier), Deutsche Apotheker Zeitung (German Pharmacists Journal), 130(8):407-408 (1990).
70	Howarth, P.H. et al., Influence of Salbutamol and Sodium Cromoglycate on Mast Cell Mediator Release in vivo, Respiration, 46(S1):22-23 (1984) (Abstract).
71	Ind, P.W., Rational treatment of asthma, British Medical Journal, 288(6415):484-485 (1984).
72	Jack, D., The Challenge of Drug Discovery, Drug Design and Delivery, 4(3):167-186 (J.S. Morley et al. eds., Harwood Academic Publishers 1989).
73	Jeppsson, A.B. et al., Pharmacodynamic and pharmacokinetic aspects on the transport of bronchodilator drugs through the tracheal epithelium of the guinea pig, Pharmacol. Toxicol. (Copenhagen), 64(1):58-63 (Chemical Abstracts 110:147583r) (1989).
74	Jeppsson, A.-B. et al., Pharmacodynamic and Pharmacokinetic Aspects on the Transport of Bronchodilator Drugs Through the Tracheal Epithelium of the Guinea-Pig, Pharmacology & Toxicology, 64(1):58-63 (1989).
75	Joubert, J.R. et al., Inhalation therapy during acute asthma, South African Medical Journal, 68(6):381-384 (1985).
76	Kemp, J.P. et al., A Comparative Study of Salmeterol, Albuterol, and Placebo via MDI in Asthmatic Adults, The Journal of Allergy and Clinical Immunology, 83(1):186 (1989) (Abstract 58).
77	Kerrebijn, K.F. et al., Effect of long-term treatment with inhaled corticosteroids and beta-agonists on the bronchial responsiveness in children with asthma, J. Allergy Clin. Immunol., 79(4):653-659 (1987).
78	Konig, P., The role of inhaled steroids in the treatment of asthma, Respiratory Medicine, 83(Supplement A):43-47 (1989).
79	Kotaniemi, J. et al., Salbutamol Controlled Release Tablets (Volmax)(R) and Individually Titrated Slow Release Theophylline (Theo-Dur)(R) in the management of Chronic Obstructive Airways Disease (COAD), Central Hospitals, Sweden European Respiratory Journal, 1 (Suppl. 2): 196S (1988) (Abstract).
80	Kraan, J. et al., Changes in bronchial hyperreactivity induced by 4 weeks of treatment with antiasthmatic drugs in patients with allergic ashtma: A comparison between budesonide and terbutaline, J. Allergy Clin. Immunol., 76(4):628-636 (1985).
81	Leitch, A.G. et al., Effect of intravenous infusion of salbutamol on ventilatory response to carbon dioxide and hypoxia and on heart rate and plasma potassium in normal men, British Medical Journal, 1(6006):365-367 (1976).
82	Lindsay, Fixed does combination therapy in the treatment of asthma-the case against it, Mechanism in Asthma: Pharmacology, Physiology and Management, pp. 421-425 (1988).
83	Lipworth, B. et al., The Pharmacokinetics of Salbutamol Controlled Release Tablets (SCR) in Asthmatic Patients, The European Respiratory Journal Abstracts Book, 1(Supplement 2):333s (1988).
84	Lipworth, B.J. et al., Airways, tremor and haemodynamic responses to inhaled salbutamol in normal subjects, British Journal of Clinical Pharmacology, 26(2):208P-209P (1988).
85	Lipworth, B.J. et al., Assessment of airways, tremor and chronotropic responses to inhaled salbutamol in the quantification of 2-adrenoceptor blockade, British Journal of Clinical Pharmacology, 28(1):95-102 (1989).
86	Lipworth, B.J. et al., beta-adrenoceptor responses to high doses of inhaled salbutamol in patients with bronchial asthma, British Journal of Clinical Pharmacology, 26(5):527-533 (1988).
87	Martindale The Extra Pharmacopoeia, 882-883 (James E. F. Reynolds et al. eds., The Pharmaceutical Press, 29th ed. 1989).
88	McDonald, C. et al., Evaluation of the combination inhaler of salbutamol and beclomethasone dipropionate in the management of asthma, Current Medical Research and Opinion, 11(2):116-122 (1988).
89	Mikhail et al, Is twice daily prophylaxis with salbutamol and beclomethasone dipropionate effective in the management of asthma, Pharmatherapeutica, vol. 4 (10), 1986.
90	Mikhail, J.R. et al., is twice daily prophylaxis with salbutamol and beclomethasone dipropionate effective in the management of asthma?, Pharmatherapeutica, 4(10):648-654 (1986).
91	Mitchell, E.A., Is current treatment increasing asthma mortality and morbity?, 44 Thorax 81-84 (1989).
92	Muers, M. et al., Effect of a timed interval between inhalation of beta-agonist and corticosteroid aersols on the control of chronic asthma, Thorax, 38:378-382 (1983).
93	Nolte, D., Glucocorticoide in der Asthmatherapie, Deutsche Medizinische Wochenschrift, 114:1411-1415 (1989), together with English translation appended thereto "Glucocorticoids in the treatment of asthma".
94	Page, C.P., Developments in Asthma: A view of current research (PJB Publications Ltd. 1987).
95	Page, C.P., One explanation of the asthma paradox: inhibition of natural anti-inflammatory mechanism by beta<SUB>2</SUB>-agonists, The Lancet, 37:717-720 (1991).
96	Perri, G. et al., Salbutamol plus beclomethasone dipropionate (Ventolin Flogo) vs. fenoterol (Dosberotec) in chronic obstructive lung disease therapeutic strategy: a 4-week clinical trial, International Journal of Clinical Pharmacology, Therapy and Toxicology, 23(5):274-278 (1985).
97	Sears, M.R. et al., Regular inhaled beta-agonist treatment in bronical asthma, The Lancet, 336:1391-96 (1990).
98	Twentyman, O.P. et al., Controversies in respiratory medicine: regular inhaled beta-agonists-clear clinical benefit or a hazar to health? (1) beta-agonists can be used safely and beneficially in asthma, Respiratory Medicine, 86:471-476 (1992).
99	Ullman et al, Salmeterol, a new long acting inhaled beta-2-adrenoceptor agonist: comparison with sulbutamol in adult asthmatic patients, Thorax, 1988, 43:674-678.
100	Vathenen, A.S. et al., Rebound Increase in Bronchial Responsiveness after Treatment with Inhaled Terbutaline, The Lancet, 554-557 (1988).
101	Ventolin compositum, Unlisted Drugs 33(6):101c (1981).
102	Woolcock, A.J., Aerosol Bronchodilators in Preventive Treatment of Asthma, Drugs 15:1-2 (1978).

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