U.S. patent application number 13/192893 was filed with the patent office on 2012-01-12 for treatment of bacterial diseases of the respiratory organs.
This patent application is currently assigned to BAYER SCHERING PHARMA AKTIENGESELLSCHAFT. Invention is credited to Rainer Endermann, Harald Labischinski, Christoph Ladel, Ben Newton, Uwe Petersen.
Application Number | 20120010215 13/192893 |
Document ID | / |
Family ID | 32851853 |
Filed Date | 2012-01-12 |
United States Patent
Application |
20120010215 |
Kind Code |
A1 |
Endermann; Rainer ; et
al. |
January 12, 2012 |
Treatment of bacterial diseases of the respiratory organs
Abstract
The invention relates to inhalable quinolonecarboxylic acid
derivative compositions for local control of diseases of the
respiratory organs, in particular of lung diseases.
Inventors: |
Endermann; Rainer;
(Wupperta, DE) ; Labischinski; Harald; (Wupperta,
DE) ; Ladel; Christoph; (Ivrea (TO), IT) ;
Petersen; Uwe; (Leverkusen, DE) ; Newton; Ben;
(Amersham, GB) |
Assignee: |
BAYER SCHERING PHARMA
AKTIENGESELLSCHAFT
Berlin
DE
|
Family ID: |
32851853 |
Appl. No.: |
13/192893 |
Filed: |
July 28, 2011 |
Related U.S. Patent Documents
|
|
|
|
|
|
Application
Number |
Filing Date |
Patent Number |
|
|
10775888 |
Feb 10, 2004 |
8034817 |
|
|
13192893 |
|
|
|
|
Current U.S.
Class: |
514/253.08 |
Current CPC
Class: |
A61P 31/04 20180101;
A61P 11/08 20180101; A61K 9/0075 20130101; A61K 31/496 20130101;
A61P 31/00 20180101; A61P 11/00 20180101 |
Class at
Publication: |
514/253.08 |
International
Class: |
A61K 31/496 20060101
A61K031/496; A61P 11/08 20060101 A61P011/08; A61P 11/00 20060101
A61P011/00; A61P 31/04 20060101 A61P031/04 |
Foreign Application Data
Date |
Code |
Application Number |
Feb 10, 2003 |
DE |
103 05 318.2 |
Feb 10, 2003 |
DE |
103 05 319.0 |
Claims
1-8. (canceled)
9. A method of treating a bacterial disease of the lungs in a human
or animal comprising the step of locally administering an
antibacterially effective amount of a solid ciprofloxacin betaine
in a powder form or powder-containing suspension.
10. The method according to claim 1, wherein the bacterial disease
of the lungs is associated with cyctic fibrosis, chronic
obstructive pulmonary diseases (COPD), or bronchiactasis.
Description
[0001] The present invention relates to the use of dosage forms
which contain quinolonecarboxylic acid derivatives and enable local
treatment of diseases of the respiratory organs, in particular lung
diseases caused by bacteria.
[0002] Despite enormous progress in the area of controlling
bacterial infectious diseases through the introduction of various
classes of antibiotics in the last 70 years, severe lung infections
still represent an important problem, especially in relation to
pathological states such as cystic fibrosis, bronchiectasis and
increasingly also chronic obstructive pulmonary diseases (COPD),
which are associated with infections which can be treated only with
difficulty or not at all. Active ingredients from the class of
fluoroquinolones, especially also moxifloxacin and ciprofloxacin,
are frequently employed for the treatment of such diseases because
of their relevant range of antibacterial effects and their
bactericidal action.
Moxifloxacin Hydrochloride (I)
##STR00001##
[0003] is an antibacterial active ingredient from the class of
quinolonecarboxylic acid derivatives for the treatment and
prevention of otitis, pharyngitis, pneumonia, peritonitis,
pyelonephritis, cystitis, endocarditis, systemic infections, acute
and chronic bronchitis, septic infections, diseases of the upper
airways, diffuse panbronchiolitis, pulmonary emphysema, dysentery,
enteritis, liver abscesses, urethritis, prostatitis, epididymitis,
gastrointestinal infections, bone and joint infections, cystic
fibrosis, skin infections, postoperative wound infections,
abscesses, phlegmons, wound infections, infected burs, burns,
infections in the oral region, infections after dental operations,
osteomyelitis, septic arthritis, cholecystitis, peritonitis with
appendicitis, cholangitis, intraabdominal abscesses, pancreatitis,
sinusitis, mastoiditis, mastitis, tonsillitis, typhoid, meningitis,
infections of the nervous system, salpingitis, endometritis,
genital infections, pelveoperitonitis and eye infections (EP 350
733 B1, U.S. Pat. Nos. 4,990,517, 5,607,942 and WO 01/45679).
[0004] The principal indications for moxifloxacin are diseases of
the respiratory tract, especially of the lungs.
[0005] Dosage forms for moxifloxacin mentioned in EP-B 350 733 are
tablets, coated tablets, capsules, pills, granules, suppositories,
solutions, suspensions and emulsions, pastes, ointments, gels,
creams, lotions, dusting powders and sprays. To our knowledge, only
tablets and (for intravenous administration) solutions are on the
market.
[0006] In practice, moxifloxacin has to date been used exclusively
systemically for all diseases for the control of which it is
suitable (including those of the lungs). The reason for this is the
high oral bioavailability and the good distribution of the active
ingredient. Although the increase in the active ingredient
concentration in the serum and lungs of rats after local
(intratracheal) administration of moxifloxacin hydrochlroride is
greater than with systemic (oral) administration of the same amount
of moxifloxacin hydrochloride, its concentration also falls
relatively rapidly (within about an hour) to the level of the
concentration reached orally, so that intratracheal local
administration achieves no advantages compared with oral
administration in experiments on rats too.
[0007] Ciprofloxacin hydrochloride and enrofloxacin hydrochloride
(II) are antibacterial quinolonecarboxylic acid derivatives which
have been known for about 20 years (EP-B 49 355, U.S. Pat. No.
4,670,444) and which can be employed extremely successfully both
for the prophylaxis and for the treatment of systemic and local
bacterial infections, especially of the urinary tract.
Ciprofloxacin is also effective inter alia against anthrax
pathogens.
##STR00002##
[0008] The dosage forms of ciprofloxacin/enrofloxacin mentioned in
EP-B 49 355 are tablets, coated tablets, capsules, pills, granules,
suppositories, solutions, suspensions and emulsions, pastes,
ointments, gels, creams, lotions, dusting powders and sprays.
Ciprofloxacin tablets, suspensions, eye and ear drops and solutions
suitable for intravenous infusion are currently on the market.
[0009] It has been found, surprisingly, that control of diseases of
the respiratory organs, especially lung diseases caused by
bacteria, is extremely successful when ciprofloxacin or
enrofloxacin is administered locally as solid betaine and/or as
solid slightly soluble betaine salt. The active ingredient
concentration in the lungs can be kept for a lengthy period at a
level desirable from the medical viewpoint for optimal treatment.
Besides the higher and long-lasting active ingredient level at the
site of the infection, it is possible to achieve simultaneously a
comparatively low systemic concentration of the active ingredient,
so that side effects of the medication and the disquieting
development of resistance through systemic selection pressure are
at least drastically reduced or even entirely prevented in this
way.
[0010] The invention therefore relates to a method for controlling
diseases of the respiratory organs, especially lung diseases caused
by bacteria, in humans and animals by local administration of an
antibacterially effective amount of solid betaine of the formula
(III)
##STR00003##
and/or of its solid slightly soluble salt and to the use of these
compounds for producing medicaments for the local control of
diseases of the respiratory organs, especially lung diseases caused
by bacteria, in humans and animals, where the compounds are
administered in solid form.
[0011] "Slightly soluble salts" for the purposes of the invention
have a solubility in water of less than 0.1, preferably less than
0.01, % by weight based on water at 25.degree. C. and a pH of 7.
Such slightly soluble salts include C.sub.16-C.sub.18 fatty acid
salts of the betaine (III) and salts of the betaine (III) with
acids such as, for example, the embonates or else salts of the
betaine (III) with bases such as N,N'-dibenzylethylenediamine.
[0012] The invention relates in a preferred embodiment to a method
for controlling diseases of the respiratory organs, especially lung
diseases caused by bacteria, in humans and animals by local
administration of an antibacterially effective amount of solid
betaine of the formula (III) and/or its embonate and to the use of
these compounds for producing medicaments for the local control of
diseases of the respiratory organs, especially lung diseases caused
by bacteria, in humans and animals, where the compounds are
administered in solid form.
[0013] In a particular embodiment of the invention, the diseases of
the respiratory organs comprise diseases, caused by bacteria, of
the airways or of the lungs, especially lung dieases caused by
bacteria.
[0014] The embonates (also called pamoates) are salts of embonic
acid, corresponding to formula (IV a) and/or (IV b):
##STR00004##
[0015] The term "embonate" refers for the purposes of the invention
to the embonate, the hemiembonate and to mixtures thereof.
[0016] The term "respiratory organs" (or respiratory system) refers
for the purposes of the invention to the nose, oral cavity and
pharynx, and the larynx, trachea and lungs, including the airways
and the paranasal sinuses and frontal sinus, where "airways" (or
respiratory tract) mean the nasal cavity, oral cavity, pharynx,
larynx, trachea and bronchi.
[0017] "Local administration" or "local control" in connection with
diseases of the respiratory organs, especially lung diseases, means
for the purposes of the invention--in contrast to oral
administration of dosage forms intended for absorption via the
gastrointestinal tract, and in contrast to intravenous
administration--administration of the active ingredient by
inhalation in inhalable dosage form. The preparation in powder form
or powder-containing suspensions to be used according to the
invention are preparations which are aerosolized and then
inhaled.
[0018] The term "inhalation" or "administration by inhalation"
refers in this connection to the introduction into the respiratory
organs, especially into and/or via the airways, preferably into
and/or via the nasal cavity and oral cavity.
[0019] The term "intratracheal" or "intratracheal administration"
refers for the purposes of the invention to introduction into the
trachea not by inhalation, in particular for pulmonary disease
control in experimental animals such as rats as a model of
administration by inhalation.
[0020] The invention further relates to devices which contain
preparations containing betaine (III) and/or its solid slightly
soluble salt, in particular its embonate, and which are suitable
for the administration by inhalation thereof in solid form, i.e.
aerosolizers which are able to administer preparations containing
betaine (III) and/or its solid slightly soluble salt, in particular
its embonate, by inhalation in solid form (powder inhalers), or
aersolizers which are able to administer suspensions containing
betaine (III) and/or its solid slightly soluble salt, in particular
its embonate, in solid form by inhalation (suspension sprays).
[0021] Solid preparations for dry powder inhalation or suspension
inhalation will generally contain an amount of active ingredient
(i.e. betaine (III) and/or its solid slightly soluble salt, in
particular its embonate) which is as high as possible. The amount
of active ingredient therein is usually at least 60, preferably at
least 70, in particular at least 80 and most preferably at least
90, % by weight based on the preparation ready for use. However,
the amount of active ingredient therein may also be less than 60%
by weight based on the preparation ready for use and is then
preferably at least 30, in particular at least 40, % by weight
based on the preparation ready for use. Where no adjuvants are
necessary, especially in the case of solid preparations for
suspension inhalation, they may also consist of active ingredient
alone. However, for practical reasons, the preparations according
to the invention are often medicaments which, besides the active
ingredient, contain one or more pharmacologically acceptable
excipients. A review of various suitable preparations and
corresponding administration aids is to be found for example in R.
Stangl, "An Overview of Innovative Inhalation Devices", European
Pharmaceutical Review, pages 50-55, (2002) and the literature cited
therein. Pharmacologically acceptable excipients include, inter
alia, binders (e.g. maize starch, gelatin), stabilizers (e.g.
antioxidants such as ascorbic acid), carriers (e.g.
microcrystalline cellulose, lactose, sucrose, calcium phosphate,
maize starch), lubricants (e.g. talc, stearic acid, magnesium
stearate, calcium stearate or zinc stearate), flavourings and/or
fragrances. The production of suitable preparations by selecting
suitable excipients in terms of nature and quantity is
straightforward.
[0022] The preparations according to the invention can be
produced--as is usual in the production of inhalable free-flowing
medicaments in powder form, by micronizing the active ingredient or
by spray drying appropriate solutions or suspensions.
[0023] The solid preparations generally have a particle diameter,
determined as volume median (with the aid of a laser diffraction
apparatus), of from 0.2 to 15 .mu.m, preferably from 1 to 5 .mu.m.
The diameter determined as volume median is the value below and
above which 50% of the volume of the particles lie.
[0024] In a preferred embodiment, the solid preparations have
particle diameters, determined as 50% of volume median, of from 2
to 5 .mu.m and particle diameters, determined as 90% volume
proportion, of from 6 to 10 .mu.m. In a further preferred
embodiment, the solid preparations contain active ingredient, in
particular ciprofloxacin betaine, with a particle diameter,
determined as 50% volume median, of from 2 to 5 .mu.m and particle
diameters, determined as 90% volume proportion, of from 6 to 10
.mu.m. The diameter determined as 50% or 90% volume proportion
(with the aid of a laser diffraction apparatus) is the value below
which respectively 50% and 90% of the volume of the particles lie.
Thus, for example, in a solid preparation with a particle diameter,
determined as 50% volume median, of 2 .mu.m and a particle
diameter, determined as 90% volume proportion, of 6 .mu.m (50%<2
.mu.m; 90%<6 .mu.m) the particle diameter of 50% of the volume
of the particles is below 2 .mu.m and of 90% of the volume of the
particles is below 6 .mu.m.
[0025] It has generally proved advantageous in administration by
inhalation to administer amounts of about 0.1 to 20, preferably
about 0.5 to 7.5, mg/kg of bodyweight to achieve effective
results.
[0026] It may nevertheless be necessary to depart from the stated
amounts, specifically as a function of the bodyweight, individual
behaviour towards the active ingredient, nature of the preparation
and time or interval over which administration takes place. Thus,
it may suffice in some cases to make do with less than the
aforementioned minimum amount, whereas in other cases the said
upper limit must be exceeded. Where larger amounts are
administered, it may be advisable to divide them into a plurality
of single doses over the day.
EXAMPLES
Preparation of Ciprofloxacin Embonate
a) Ciprofloxacin Embonate (IV a; R=H)
[0027] 33.1 g (0.1 mol) of ciprofloxacin betaine and 38.8 g (0.1
mol) of embonic acid are heated in 500 ml of glycol monomethyl
ether under reflux for 1 hour. After cooling, the precipitate is
filtered off with suction, thoroughly washed with ethanol and dried
at 120.degree. C. under high vacuum.
b) Ciprofloxacin-Hemiembonate (IV b; R=H)
[0028] 66.2 g (0.2 mol) of ciprofloxacin betaine and 38.8 g (0.1
mol) of embonic acid are heated in 500 ml of glycol monomethyl
ether under reflux for 1 hour. After cooling, the precipitate is
filtered off with suction, thoroughly washed with ethanol and dried
at 120.degree. C. under high vacuum.
Determination of the Active Ingredient Concentration in the Lungs
of Rats
[0029] Female Wistar rats (80 to 100 g) were treated with [0030]
A1--7.5 mg/kg ciprofloxacin betaine (laboratory product)
intratracheally as suspension; [0031] A2--7.5 mg/kg ciprofloxacin
betaine (micronized: 50%<3 .mu.m; 90%<7 .mu.m)
intratracheally as suspension; [0032] B--7.5 mg/kg ciprofloxacin
hydrochloride intratracheally as solution; [0033] C--7.5 mg/kg
ciprofloxacin-hydrochloride intravenously as solution.
[0034] Three animals from each of the dose groups were sacrificed
after 0.25, 0.5, 1, 3 and 5 hours, and the lungs were removed. The
lungs were homogenized using a Potter from Braun. The active
ingredient content in the lung homogenates was determined by
bioassay.
Pharmacokinetic Parameters for the Lungs
TABLE-US-00001 [0035] Dose group AUC [mg*h/l] C.sub.max [mg/l]
t.sub.1/2 [h] A1 124 49.1 1.96 A2 304 76 13.47 B 3.20 6.65 0.847 C
0.497 0.610 0.758
Lung concentrations in .mu.g/ml; Averages for 3 Animals
TABLE-US-00002 Dose group 0.25 h 0.5 h 1 h 3 h 5 h A1 49.1 44.3
40.1 12.6 7.21 A2 76 76 76 54 54 B 6.65 1.67 0.63 0.10 0 C 0.61
0.35 0.14 0 0
[0036] AUC, C.sub.max and t.sub.1/2 are important pharmacokinetic
parameters for describing pharmacokinetic/pharmacodynamic
interactions; cf., for example, W. A. Craig,
"Pharmacokinetic/pharmacodynamic parameters: rationale for
antibacterial dosing of mice and men", Clin. Infect. Dis. 26, 1-12
(1998).
[0037] Intratracheal administration of ciprofloxacin-betaine
(laboratory product) reveals, compared with intratracheal
administration of ciprofloxacin-hydrochloride, a 40 times larger
AUC and an 8 times higher C.sub.max. This kinetic advantage becomes
even clearer on comparison with intravenous administration of
ciprofloxacin hydrochloride (AUC: factor 250, C.sub.max: factor
80). Intratracheal administration of micronized
ciprofloxacin-betaine with a particle diameter (50%<3 .mu.m;
90%<7 .mu.m) leads to a further improvement in the
pharmacokinetic profile (AUC: factor 612, C.sub.max: factor 125,
compared with intravenous administration of ciprofloxacin
hydrochloride).
Efficacy in a Model of Lung Infection with P. Aeruginosa
[0038] Female Wistar rats (80 to 100 g) were infected
intratracheally with P. aeruginosa DSM 12055 and treated 1 and 4
hours after the infection with ciprofloxacin betaine (laboratory
product) intratracheally (i.t.) and with ciprofloxacin
hydrochloride intratracheally and intravenously (i.v.). Various
dose groups each of 5 rats were employed. The animals were
sacrificed 24 hours after the infection, and the lungs were removed
and homogenized with a Potter from Braun. The homogenates were
plated out to determine the microbe count in the lungs.
[0039] The following table shows the reduction in the microbe count
in the lungs (log units) after 24 h relative to the untreated
infection control (in each case averages for 5 animals):
TABLE-US-00003 Reduction in microbe Dose group count (log units) A
- 0.8 mg/kg ciprofloxacin betaine i.t. -4.0 B - 2.5 mg/kg
ciprofloxacin betaine i.t. -5.8 C - 7.5 mg/kg ciprofloxacin betaine
i.t. -10 D - 0.8 mg/kg ciprofloxacin hydrochloride i.t. -1.8 E -
2.5 mg/kg ciprofloxacin hydrochloride i.t. -1.1 F - 7.5 mg/kg
ciprofloxacin hydrochloride i.t. -2.8 G - 2.5 mg/kg ciprofloxacin
hydrochloride i.v. -2.8 H - 7.5 mg/kg ciprofloxacin hydrochloride
i.v. -3.5 I - 22.5 mg/kg ciprofloxacin hydrochloride i.v. -5.4 J -
67.5 mg/kg ciprofloxacin hydrochloride i.v. -8.8
[0040] Intratracheal use of ciprofloxacin betaine leads to a
reduction of from 4 to 10 log units in the microbe count in the
lungs in all three dose groups, whereas equal dosages of
ciprofloxacin hydrochloride administered intratracheally bring
about a far smaller reduction in the microbe count (1.1 to 2.8 log
units). Although intravenous administration of ciprofloxacin
hydrochloride, the current state of the art, also leads to a marked
reduction in the microbe count in the lungs (2.8 to 8.8 log units),
this is only with dosages which are 10 times higher. The treatment
according to the invention thus leads to a greatly reduced systemic
exposure.
[0041] In a further test with P. aeruginosa DSM 12055, a single
intratracheal treatment (1 hour after the infection) was carried
out with micronized ciprofloxacin betaine as dry powder. A dose of
10 mg/kg was administered with the aid of a DP-3 dry powder
insufflator (PENN-CENTURY, INC.). It is known from control
investigations that about 5 to 20% of the administered dose reach
the lungs. In this experiment, the microbe count in the lungs was
reduced by more than 6 log units compared with an untreated control
group.
* * * * *