Vasoconstriction Compositions and Methods of Use
BACKGROUND OF THE INVENTION
Dilation of small blood vessels, particularly arterioles, capillaries, and venules, causes many clinically undesirable events including surface hemorrhage and hyperemia following Lasik surgery, eye redness (conjunctival hyperemia), and nasal congestion (turbinate mucosal swelling secondary to vasodilation)
Adrenergic receptors mediate physiological responses to the catecholamines, norepinephrine and epinephrine and are members of the superfamily of G protein- coupled receptors having seven transmembrane domains These receptors, which are divided pharmacologically into α-1 , α-2 and β-adrenergic receptor types, are involved in diverse physiological functions including functions of the cardiovascular and centra! nervous systems. The α-adrenergιc receptors mediate excitatory and inhibitory functions α-1 adrenergic receptors are typically excitatory post-synaptic receptors which generally mediate responses in an effector organ, while α-2 adrenergic receptors are located postsynapticaily as well as presynapticaliy, where they inhibit release of neurotransmitters Agonists of α-2 adrenergic receptors currently are used clinically in the treatment of hypertension, glaucoma, spasticity, and attention-deficit disorder, in the suppression of opiate withdrawal, as adjuncts to general anesthesia and in the treatment of cancer pain. Vascular constriction is known to be mediated by α- adrenergic receptors α-2 adrenergic receptors are presently classified into three subtypes based on their pharmacological and molecular characterization- α-2A/D (α-2A in human and α- 2D in rat), α-2B; and α-2C (Bylund et al , Pharmacol. Rev 46-121-136 (1994): and Hein and Kobilka, Neuropharmacol. 34'357-366 (1995)). The α-2A, a-2B, and a-2C subtypes appear to regulate arterial and/or venular contraction in some vascular
beds, and the α-2A and α-2C subtypes mediate feedback inhibition of norepinephrine release from sympathetic nerve endings The α-2A subtype also mediates many of the central effects of α-2 adrenergic agonists (Caizada and ArtiZano, Pharmacol Res 44 195-208 (2001 ), Hem et al , Ann NY Acad Science 881 265-271 (1999) and Ruffoio (Ed ), α-Adrenoreceptors Molecular Biology, Biochemistry and Pharmacology S Karger Publisher's lnc Farmmgton, Conn (1991)) The α-2A subtype also mediates potent constriction of the porcine but not human, ciiiary artery
Many compounds having selective α-2 agonist activity are known and include bπmomdsne (which has been used for lowering intraocular pressure in patients with open-angle glaucoma or ocular hypertension), guanfacine (which has been used to control high blood pressure), dexmetidomsdine (which has been used as a sedative, analgesic, sympatholytic and anxiolytic), and methyl dopa (which has been used as a centrally -acting adrenergic antihypertensive) The clinically available compounds belong to the general category of α adrenergic receptor agonists !t is a known property of all α adrenergic receptor agonists, including bπmonidine, to cause vasoconstriction However, known formulations of bπmonidine and other known α-2 adrenergic receptor agonists are associated with a high incidence of rebound hyperemia or other side effects, in clinical use For example, after as few as three doses of applying known formulations of σ adrenergic receptor agonists, patients may develop secondary rebound hyperemia or secondary vasodilation Bπmonidme (5-bromo-6-(2- imidazohdinyiideneamino) quinoxaline L-tartrate), a known selective alpha 2 agonist is associated with significant rebound hyperemia (primary or delayed onset
vasodilation) in its current concentration range for treating glaucoma of about 0 1 % to 0 2%
Commercially available general alpha agonists for topical mucosal decongestant use (ophthalmic and nasal applications) include tetrahydrozoiine, naphazohne, oxymetazoline, xylometazoline, methoxamine and phenylephrine These agonists have high alpha 1 receptor agonist activity and are known to cause rebound hyperemia and medicamentosa Accordingly, their clinical use is usually restricted to several hours or a few days, at most Many individuals with mucosal congestion or hyperemia from chronic conditions such as dry eye, contact lens wear, allergic conjunctivitis, allergic rhinitis, nonallergic rhinitis, acute or chronic sinusitis, nasal polyposis, rhinitis secondary to pregnancy, or rhinitis due to nasal septal deviation or obstruction and asthma, particularly, allergic asthma require longer term agonist use To the best of the inventor's knowledge, there are currently no means to induce effective vasoconstriction without concomitant ischemia caused by an excessive reduction in blood flow and a cascade of inflammatory mediators, resulting in undesirable clinical sequelae of rebound hyperemia, and or medicamentosa, a potentially prolonged inflammatory state that can last for several weeks or months of rebound mucosal congestion Thus, there is a need for new methods and formulations that would provide safe and long term vasoconstriction with reduced or minimized side effects, such as rebound hyperemia
SUMMARY OF THE PRESENT INVENTION
The present invention is generally related to compositions and methods for inducing vasoconstriction One of the key discoveries of the present invention lies in
using low doses of highly selective α-2 adrenergic receptor agonists to achieve vasoconstriction with significantly reduced hyperemia
There are a variety of applications and dosage forms that can be utilized to apply the findings of the invention For example, some applications include methods and compositions for treating nasal congestion, inducing vasoconstriction, inducing preferential vasoconstriction of smaller blood vessels relative to iarger blood vessels, reducing capillary permeability in a pulmonary condition, reversing rebound hyperemia, reducing activation of α-1 adrenergic receptors, and treating and preventing an allergic response with reduced rebound hyperemia The invention also encompasses using the compositions and methods of this invention for prophylactic reasons, for example for prophylaxis of conditions including, but not limited to, asthma upper respiratory disease, acute pharyngitis acute sinusitis acute tracheobronchitis, influenza, lower respiratory disease acute bronchitis bronchiolitis and community acquired pneumonia (CAP) The invention also relates to a metered dose dispenser comprising the aqueous compositions of the invention
BRIEF DESCRIPTION OF THE FIGURES
Figure 1 is a graphical representation of the variation of vasoconstriction net clinical effectiveness of prior art compositions comprising naphazohne oxymetazoime and tetrahydrozolme at various concentrations
Figure 2 is a graphical representation of the variation of vasoconstriction clinical effectiveness of compositions of the present invention comprising bπmonidine at low concentrations
Figure 3 is a graphical representation of clinical effectiveness of the compositions of the present invention versus prior art compositions
Figure 4A is a baseline visual appearance of two eyes of a patient with an ocular condition
Figure 4B depicts the eyes of the patient 180 minutes after being treated with a prior art composition comprising tetrahydrozoline at 0 05% (right eye) and a composition of the present invention comprising brimonidine at 0 01 %
(left eye)
Figure 4C depicts the eyes of the patient 240 minutes after baseline (FIG 4A) after being treated with a prior art composition comprising oxymetazohne at 0 025% (right eye) and a composition of the present invention comprising brimonidine at 0 02% (left eye)
Figure 4D depicts the eyes of the patient 240 minutes after treatment described in FIG 4C after being treated with a prior art composition comprising naphazoline at 0 033% (right eye) and a composition of the present invention comprising brimonidine at 0 02% (left eye) Figure 4E depicts the left eye of the patient 240 minutes after treatment described in FIG 4D after being treated with a composition of the present invention comprising brimonidine at 0 033%
Figure 5A is a baseline visual appearance of two eyes of a patient with an ocuiar condition of moderate hyperemia Figure 5B depicts a visual appearance of the right eye of the patient after being treated with a prior art composition comprising VISINE Original® (tetrahydrozoline 0 05%) and the induction of rebound hyperemia, and the visual appearance of the left eye of the patient after being treated simultaneously with a composition of the present invention comprising brimonidine at 0 015%
Figure 5C depicts a visual appearance of the right eye of the patient after then being treated with the novel composition of the present invention comprising brimonidine at 0 015% reversing the VISINE Original® induced rebound hyperemia, and a visual appearance of the left eye of the patient after being treated simultaneously with an additional drop of the composition of the present invention comprising brimonidine at 0 015%
Figure 6 is another graphical representation of clinical effectiveness of the compositions of the present invention versus prior art compositions Figure 7 is a graphical representation of preferential vasoconstriction and ischemia at various concentrations of bπmonidine
DETAILED DESCRIPTION OF THE INVENTION
Definitions For purposes of the present invention, the terms below are defined as follows
The term "low concentrations" refers to concentrations from between about 0 0001% to about 0 05% more preferably from about 0 001% to about 0 025%, even more preferably, from about 0 01 % to about 0 025%, and even more preferably from about 0 01 % to about 0 02% weight by volume The term "administered locally" refers to administering the compositions of the present invention approximately at the site where they will come into contact with α-2 adrenergic receptors This term specifically excludes oral administration, intravenous injection, or transdermal patches which are not applied approximately at the spatial location of the area which is desired to be treated by the compositions of the present invention
The term "bπmonidine" encompasses, without limitation, brimonidine salts and other derivatives, and specifically includes, but is not limited to, brimonidine tartrate, 5-bromo-6-(2-ιmιdazolin-2-ylamιno)quιnoxalϊne D-tartrate, Alphagan™, and UK14304 The term "treating" refers to reversing, alleviating, inhibiting, or slowing the progress of the disease, disorder, or condition to which such term applies, or one or more symptoms of such disease, disorder, or condition
The term "preventing" refers to prophylactic use to reduce the likelihood of a disease, disorder, or condition to which such term applies, or one or more symptoms of such disease, disorder, or condition It ss not necessary to achieve a 100% likelihood of prevention, it is sufficient to achieve at least a partial effect of reducing the risk of acquiring such disease, disorder, or condition
The term "swollen nasal turbinates condition" includes, but is not limited to, nasal decongestion Vasoconstriction with Reduced Hyperemia
One aspect of the present invention refers to a surprising and unexpected finding that using highiy selective α-2 agonists at low concentrations allows reducing, minimizing, and/or eliminating rebound hyperemia while optimally providing clinically equa! or more effective vasoconstriction Rebound hyperemia refers to induced vasodilation (instead of intended vasoconstriction) occurring, often with a lag time, after an application or, more typically, repeated applications of vasoconstrictors and characterized by engorgement of blood vessels (such as those in the conjunctiva or nasal mucosa), increased capillary permeability and leakage, and, in some cases, inflammatory sequelae (medicamentosa), frequently due to the use of an alpha 1 constricting drug and particularly, chronic use of a vasoconstricting drug
Many, tf not all, references in the prior art associated rebound hyperemia with all alpha agonists and considered the complication of rebound hyperemia to be intrinsic to vasoconstriction wherein blood flow is reduced, causing attendant ischemia with some inflammatory cascade, precipitating rebound hyperemia in many cases and often leading to medicamentosa
Contrary to these teachings, it was surprisingly and unexpectedly found that selective alpha-2 (α-2) adrenergic receptor agomsts (which are also interchangeably referred to as "α-2 agomsts" throughout the application) with extremely high selectivity for α-2 adrenergic receptors at low concentrations, well beiow those previously contemplated, can induce effective vasoconstriction with low incidence of rebound hyperemia as compared to the prior art, and low incidence of allergic reaction, including allergic blepharitis and follicular conjunctivitis Further, the incidence of ischemia is significantly reduced through the use of compositions and methods of the present invention While not wishing to be bound to any particular theory, the inventor believes that rebound hyperemia is primarily associated with α-1 agonist activity Thus, unless the binding affinity of α-2 agonists for α-2 over α-1 adrenergic receptors is sufficiently high, not sufficiently highly selective α-2 agonists will cause undesirable α-1 receptor stimulation with attendant rebound hyperemia Accordingly, it is desired to minimize α-1 agonist activity by using highly selective α-2 agonists
Accordingly, in one embodiment, the invention generally relates to a method of treating or preventing rebound hyperemia comprising administering to a patient in need thereof a selective α-2 adrenergic receptor agonist having a binding affinity of 100 fold or greater for α-2 over α-1 adrenergic receptors or a pharmaceutically
acceptable salt thereof, wherein said selective α-2 adrenergic receptor agonist is present at a concentration below about 0 05% weight by volume
In another embodiment, the invention relates to a surprising finding that an aqueous composition comprising a selective α-2 adrenergic receptor agonist, or a pharmaceutically acceptable salt thereof can be used for the prevention or treatment of a disease or a condition by administering said aqueous composition to a patient in need thereof, wherein the concentration of said agonist in said aqueous composition is substantially lower than the concentration of said agonist normally used in the treatment of glaucoma In another embodiment, the invention generally relates to a composition for inducing vasoconstriction comprising a selective α-2 adrenergic receptor agonist having a binding affinity of 100 fold or greater for α-2 over α-1 adrenergic receptors, or a pharmaceutically acceptable salt thereof, and wherein said selective α-2 adrenergic receptor agonist is present at a concentration below about 0 05% weight by volume in yet another embodiment the invention generally relates to a composition for inducing vasoconstriction comprising a selective α-2 adrenergic receptor agonist having a binding affinity of 100 fold or greater for α-2b and/or α-2c receptors over α-1 adrenergic receptors, or a pharmaceutically acceptable salt thereof, and wherein said selective α-2 adrenergic receptor agonist is present at a concentration below about 0 05% weight by volume
Further, it was surprisingly and unexpectedly found that selective α-2 adrenergic receptor agonists used at a concentration below about 0 05% weight by volume can reverse general/alpha 1 agonist induced hyperemia (instead of causing further ischemia from the induced vasoconstriction as would be expected for all
agonists from prior art teachings), thereby providing a usefu! treatment for such patients and possibly alleviating medicamentosa from such drug applications, and possibly demonstrating a different mechanism of action for vasoconstriction than for alpha 1 agonists (Fsg 5 A-C) In a preferred embodiment the binding affinity of the selective α-2 adrenergic receptor agonist is about 500 fold or greater for α-2 over α-1 adrenergic receptors
In a preferred embodiment, the selective α-2 adrenergic receptor agonist is present at a concentration between about 0 001 % and about 0 025% weight by volume In a further preferred embodiment, the selective α-2 adrenergic receptor agonist is selected from the group consisting of apraclonidine, mivazerol clonidme, bπmonidine, alpha methyl dopa, guanfacine, dexemeditomidine, (+)-(S)-4-[1-(2 3- dimethyl-phenyl)-ethyl]-1 ,3-dihydro-ιmιdazole-2-thϊone, 1-[(ιmιdazolιdιn-2- y])ιmιno]ιndazole, and mixtures of these compounds In another preferred embodiment, the composition comprises bπmonidine at a concentration between about 0 001% and about 0 025% weight by volume
In a more preferred embodiment, a pH of the composition comprising the selective α-2 adrenergic receptor agonist is between about 5 5 and about 6 5
In one embodiment, the invention generally relates to a composition for inducing vasoconstriction consisting essentially of bnmonidme wherein said bπmonidine concentration is from between about 0 01% to about 0 02% weight by volume, wherein pH of said composition is between about 5 5 and about 6 5, and wherein said composition is formulated as an ocular drop.
In another embodiment, the invention generally relates to a composition for inducing vasoconstriction consisting essentially of bnmonidme and potassium,
wherein said bnmonidine concentration is from between about 0 01 % to about 0 02% weight by volume, wherein pH of said composition is between about 5 5 and about 6.5, and wherein said composition is formulated as an ocular drop
In the most preferred embodiment, potassium is in the form of potassium chioπde and its concentration is between about 0 2% to about 0.9% weight by volume. Preferential Vasoconstriction in one embodiment methods of the present invention allow to induce preferential vasoconstriction of smaller blood vessels, such as capillaries and venules, relative to larger blood vessels, such as arteries and arterioles. These methods reduce activation of α-1 adrenergic receptors relative to α-2 adrenergic receptors
Accordingly, in one embodiment, the invention generally relates to a method of inducing preferential vasoconstriction of capillaries relative to arteries, and/or terminal arterioles, mscrovessels including capillary beds and/or venules with lower oxygen saturation than larger, proximal higher oxygen saturated arteries and or arterioles, comprising administering to a patient having an ocular or pulmonary condition, a selective α-2 adrenergic receptor agonist having a binding affinity of 100 fold or greater for α-2 over α-1 adrenergic receptors, or a pharmaceutically acceptable salt thereof, wherein said selective α-2 adrenergic receptor agonist is present at a concentration below about 0 05% weight by volume.
While not wishing to be bound to any particular theory, this method allows constricting the biood flow to visible surface area with maximal constriction of microvasculature, together with minimal additional vasoconstriction of larger arterioles to maximize per unit area vasoconstrictive benefit and minimize ischemic
consequence This can be roughly analogized to reducing water flow at a sprinkler head rather than at the connection of the hose leading from the water supply to the spunkier Accordingly, this method allows achieving visibly effective whitening while optimizing total blood flow by minimizing arteriolar constriction to produce the best cosmetic and physiologic benefits of decongestant activity Thus the compositions and methods of the present invention make it possible to induce maximal microvessel constriction with the least arteriolar constriction
The method can be used to treat various ocular and pulmonary conditions In a preferred embodiment a pulmonary condition may be associated with swollen nasal turbinates In addition, preferential vasoconstriction of smaller blood vessels allows decreasing ischemia, inflammation, rhinitis medicamentosa, and rebound hyperemia
The invention also relates to compositions formulated for inducing preferential vasoconstriction In one embodiment, a composition for inducing preferential vasoconstriction of smaller blood vessels relative to larger blood vessels comprises a selective α-2 adrenergic receptor agonist having a binding affinity of 100 fold or greater for α-2 over α-1 adrenergic receptors, or a pharmaceutically acceptable salt thereof, wherein said selective α-2 adrenergic receptor agomst is present at a concentration below about 0 05% weight by volume in another preferred embodiment, the method comprises administering to a patient having an ocular condition a composition comprising brimonidine, wherein said brimonidine concentration is between about 0 001% and about 0 025% weight by volume
In a preferred embodiment the invention generaliy relates to a method for inducing preferential vasoconstriction of smaller blood vessels relative to larger blood vessels comprising topically administering to a patient having an ocular condition a composition consisting essentially of brimonidine into ocular tissue, wherein pH of 5 said composition is between about 5 5 and about 6 5, wherein said brimonidine concentration is from between about 0 001 % to about 0 025% weight by volume and wherein said composition is formulated as an ocular drop
Thus in one embodiment, the invention generally relates to a composition for inducing preferential vasoconstriction consisting essentially of brimonidine into ocular I O tissue wherein pH of said composition is between about 5 5 and about 6 5, wherein said brimonidine concentration is from between about 0 001% to about 0 025% weight by volume and wherein said composition is formulated as an ocular drop in one embodiment, the invention generally relates to administering compositions of the present invention within about 24 hours after a Lasik surgery on 15 the patient
In yet another embodiment the invention generally relates to a method for inducing preferential vasoconstriction of smaller blood vessels relative to larger biood vessels comprising administering to a patient having an ocular or pulmonary condition a selective o>2 agonist having a binding affinity of 100 fold or greater for α- 0 2b and or α-2c receptors over α-1 adrenergic receptors, or a pharmaceutically acceptable salt thereof wherein said selective α-2 adrenergic receptor agonist is present at a concentration below about 0 05% weight by volume
Reducing Capillary Permeability
In another embodiment the invention generally relates to a method of 5 reducing capillary permeability comprising administering locally to a patient in need
thereof a selective α-2 adrenergic receptor agonist having a binding affinity of 100 fold or greater for α-2 over α-1 adrenergic receptors, or a pharmaceutically acceptable salt thereof in the absence of a substantial amount of another therapeutic agent, wherein said selective α-2 adrenergic receptor agonist is present at a concentration below about 0 05% weight by volume in a preferred embodiment, the selective α-2 adrenergic receptor agonist is present at a concentration between about 0 001 % and about 0 05% weight by volume
The method can be used to treat various pulmonary conditions, including, but not limited to, bronchitis, including respiratory syncytial virus (RSV) bronchitis In a preferred embodiment, a pulmonary condition may be associated with swollen nasal turbinates in addition reducing capillary permeability allows decreasing ischemia, inflammation rhinitis medicamentosa and rebound hyperemia The invention also relates to compositions for reducing capillary permeability in one embodiment, the invention generaily relates to a composition for reducing capillary permeability comprising administering to a patient in need thereof a selective α-2 adrenergic receptor agonist having a binding affinity of 100 fold or greater for α-2 over α-1 adrenergic receptors, or a pharmaceutically acceptable salt thereof wherein said selective α-2 adrenergic receptor agonist is present at a concentration below about 0 05% weight by volume
In one embodiment the composition for reducing capillary permeability consists essentially of brimonidine, wherein pH of said composition is between about 5 0 and about 6 5, wherein said bπmomdine concentration is from between about
0 001 % to about 0 025% weight by volume, and wherein said composition is formulated as an aerosolized composition in another preferred embodiment the method comprises administering to a patient in need thereof a composition comprising brimonidine, wherein said bπmonidine concentration is between about 0 001% and about 0 025% weight by volume Reducing capillary permeability can be exploited to decrease mucosal swelling and inflammation, such as occurs in the bronchial mucosal lumen of the respiratory tract from a variety of conditions, including influenza, bacterial pathogens, asthma, allergic asthma, and other causes of mucosal edema of the respiratory tract Reducing capillary permeability can also be exploited to decrease spread of viral and bacterial pathogens, thus potentially reducing the duration and morbidity of various infections, including but not limited to, infections caused by the flu virus In addition, reducing capillary permeability allows reducing, alleviating or decreasing ischemia, inflammation, rhinitis medicamentosa, and rebound hyperemia Also, reducing capillary permeability allows reducing and/or alleviating allergic or inflammatory conditions of the respiratory tract associated with a pulmonary condition for example reducing the bronchiole mucosal edema and congestion
In one embodiment, the invention generally relates to a method of reducing capillary permeability in a pulmonary condition associated with swollen nasal turbinates comprising administering to a patient in need thereof a composition consisting essentially of brimonsdine, wherein pH of said composition is between about 3 5 and about 6 5, wherein said brimonidine concentration is from between about 0 001 % to about 0 025% weight by volume, and wherein said composition is formulated as an aerosolized composition, and wherein the composition is administered into a nasal airway of the patient
In a preferred embodiment, the invention generally reiates to a method of reducing capillary permeability in a pulmonary condition associated with swollen nasa! turbinates comprising administering to a patient in need thereof a composition consisting essentially of bπmonidine, wherein pH of said composition is between about 5 0 and about 6 5, wherein said brimonidine concentration is from between about 0 001 % to about 0 025% weight by volume, and wherein said composition is formulated as an aerosolized composition and administered into a nasal airway of the patent
In another embodiment, the invention generally relates to a method of treating respiratory syncytial virus (RSV) bronchitis comprising administering to a patient in need thereof a composition consisting essentially of brimonidine, wherein pH of said composition is between about 5 0 and about 6 5 wherein said brimonidine concentration is from between about 0 001% to about 0 05%, more preferably, from between about 0 001 % to about 0 03% weight by volume In another embodiment, compositions suitable for the methods of the present invention can be administered thorough oral ingestion m about the same concentration ranges that are suitable for the topicai application
Reversing Rebound Hyperemia
In one embodiment, the invention generally relates to a method of reversing rebound hyperemia comprising administering to a patient currently or previously undergoing administration of an α-1 adrenergic receptor agonist a selective α-2 adrenergic receptor agonist having a binding affinity of 100 fold or greater for α-2 over α-1 adrenergic receptors, or a pharmaceutically acceptable salt thereof, wherein said first selective α-2 adrenergic receptor agonist is present at a concentration below about 0 05% weight by volume
By the term "previously undergoing" it is meant the administration (e g treatment with) of α-1 agonists that was sufficiently recent to cause rebound hyperemia in said patient In a preferred embodiment, the selective α-2 adrenergic receptor agonist is present at a concentration from between about 0 001% to about 0 035% weight by volume
In another preferred embodiment, the method of reversing rebound hyperemia further decreases ischemia, inflammation, and rebound hyperemia associated with α-1 agomst use
In another preferred embodiment, the invention generally relates to a composition for reversing rebound hyperemia comprising brimonidine wherein said bπmonidine concentration ss between about 0 001% and about 0 025% weight by volume Ir a preferred embodiment, the composition further comprises a buffer, and wheresn pH of said composition is between about 5 5 and about 6 5 in another preferred embodiment, the composition for reversing rebound hyperemia consists essentially of bπmonidine, wherein said bπmonidine concentration is from between about 0 001% to about 0 025% weight by volume, wherein pH of said composition is between about 5 5 and about 6 5, and wherein said composition is formulated as an ocular drop in yet another preferred embodiment, the invention generally relates to a composition for reversing rebound hyperemia consisting essentially of bπmonidine and a second adrenergic receptor agonist, wherein said bπmonidine concentration is from between about 0 001 % to about 0 025% weight by volume wherein pH of said
composition is between about 5 5 and about 6 5, and wherein said composition is formulated as an ocular drop
Reducing Activation of α-1 Receptors
In another embodiment, the invention generally relates to a method of 5 reducing activation of α-1 adrenergic receptors comprising administering to a patient having an ocular or puϊmonary condition a selective α-2 adrenergic receptor agonist having a binding affinity of 100 fold or greater for α-2 over α-1 adrenergic receptors, or a pharmaceutically acceptable salt thereof, wherein said selective α-2 adrenergic receptor agonist is present at a concentration below about 0 05% weight by volume I O In a preferred embodiment, the selective α-2 adrenergic receptor agonist is present at a concentration between about 0 001 % to about 0 025% weight by volume
The method can be used to treat various ocuiar and pulmonary conditions In a preferred embodiment, a pulmonary condition may be associated with swollen 15 nasal turbinates (e g , nasal decongestion) In addition preferential vasoconstriction of smaller blood vessels allows decreasing ischemia, inflammation, rhinitis medicamentosa, and rebound hyperemia
In another preferred embodiment, the method comprises administering to a patient having an ocular condition a composition comprising bπmonidine, wherein 0 said bπmonidine concentration is between about 0 001 % and about 0 025% weight by volume
The invention also encompasses compositions formulated for reducing activation of α-1 receptors
In one embodiment, the composition consists essentially of bπmonidine, 5 wherein pH of said composition is between about 5 5 and about 6 5 wherein said
bnmonidine concentration is between about 0 001 % and about 0 025% weight by volume and wherein said composition is formulated as an ocuiar drop
In a preferred embodiment, the invention generally relates to a method of reducing activation of α-1 adrenergic receptors comprising topically administering to a patient having an ocular condition a composition consisting essentially of brimonidine into ocular tissue, wherein pH of said composition is between about 5 5 and about 6 5, wherein said brimonidine concentration is from between about 0 001 % to about 0 025% weight by volume and wherein said composition is formulated as an ocular drop In one embodiment, the invention generally relates to administering compositions of the present invention within about 24 hours after a Lasik surgery on the patient in another embodiment, the invention generally relates to a method of reducing activation of α-1 adrenergic receptors comprising administering to a patient having a nasal congestion, an ocular or pulmonary condition a selective α-2 adrenergic receptor agonist having a binding affinity of 100 fold or greater for α-2 over α-1 adrenergic receptors, or a pharmaceutically acceptable salt thereof, wherein said selective α-2 adrenergic receptor agonist is present at a concentration below about 0 05% weight by volume, whereby the reduced α-1 adrenergic receptor activation is below the ED50 for α-1 induced vasoconstriction larger arteries and/or arterioles
Selective α-2 Adrenergic Receptor Agonists
Selective α-2 agonists that may be used for the purposes of the present invention have extremely high selectivity for α-2 adrenergic receptors, defined by their binding affinities (K,) for α-2 over α-1 receptors of more than 100 1 , more
preferably 500 1 , even more preferably 700 1 , even more preferably 1000 1 or greater, and most preferably, 1500 1 or greater
It ts well within a skill in the art to design an assay to determine α-2/α-1 functional selectivity As non-limiting examples, potency, activity or EC50 at an α-2A receptor can be determined by assaying for inhibition of adenylate cyclase activity Furthermore, inhibition of adenylate cyclase activity can be assayed, without limitation, in PC12 cells stably expressing an α-2A receptor such as a human o>2A receptor As further non-limitsng examples, potency activity or EC50 at an α-1A receptor can be determined by assaying for intracellular calcium Intracellular calcium can be assayed, without limitation, in HEK293 ceils stably expressing an α- 1A receptor, such as a bovine α-1A receptor
To the best of the inventor's knowledge, and not desiring to be bound by any specific theory or mechanism, it is believed by the inventor that the particularly preferred adrenergic receptor agonists for the purposes of the present invention are highly selective for α-2B and/or α-2C receptors, as opposed to α-2A receptors
In one embodiment, the selective σ-2 adrenergic receptor agonist is a compound which has binding affinity of about 100 fold or greater for α-2 over α~1 adrenergic receptors When α2/α1 is less than about 500 fold but more than about
100 fold, a concentration of the selective α-2 agonist is preferably from about 0 01% to about 0 05%, and is more preferably from about 0 02% to about 0 04%
In a preferred embodiment, the selective α-2 adrenergic receptor agonist is a compound which has binding affinity of about 500 fold or greater for α-2 over α-1 adrenergic receptors When α2/α1 is less than about 800 fold but more than about
500 fold, a concentration of the selective α-2 agonist is preferably from about 0 005% to about 0 05%, and is more preferably from about 0 01 % to about 0 02%
In a more preferred embodiment the selective α-2 adrenergic receptor agonist is a compound which has binding affinity of about 700 fold or greater for α-2 over α-1 adrenergic receptors When α2/α1 is less than about 1200 fold but more than about 800 fold, a concentration of the selective α-2 agonist is preferably from about 0 001 % to about 0 025%, and is more preferably from about 0 005% to about 0 01 % in a more preferred embodiment, the selective α-2 adrenergic receptor agonist is a compound which has binding affinity of about 1000 fold or greater for α-2 over α-1 adrenergic receptors When α2/α1 is less than about 2000 fold but more than about 1200 fold, a concentration of the selective α-2 agonist is preferably from about 0 0005% to about 0 01 %, and is more preferably from about 0 0025% to about 0 005%
In a more preferred embodiment, the selective α-2 adrenergic receptor agonist is a compound which has binding affinity of about 1500 fold or greater for α-2 over α-1 adrenergic receptors When α2/α1 is more than about 2000 fold, a concentration of the selective α-2 agonist is preferably from about 0 0002% to about
0 005%, and is more preferably from about 0 001% to about 0 003%
The selective α-2 adrenergic receptor agonist may be present at a concentration from between about 0 0001 % to about 0 05%, more preferably, from about 0 001% to about 0 025%, even more preferably, from about 0 01 % to about 0 025%, and even more preferably, from about 0 01 % to about 0 02% weight by volume
It is preferred that a concentration of a selective α-2 adrenergic receptor agonist be below its vasoconstriction vs concentration plateau Typically, the optimal concentration is 10% to 90% above the minimal threshold of measurable
vasoconstriction for a particular α-2 agonist, or below that of the plateau maximum concentration and is preferably within the about 25% to about 75% range of either of these benchmarks The term "plateau maximum concentration" means the concentration above which there is no or minimal further vasoconstriction effect Other considerations in choosing a selective α-2 adrenergic receptor agonist are blood brain permeability and any possible side effects and other systemic reactions
In one embodiment, the selective α-2 adrenergic receptor is selected from the group consisting of apraclonidine, mivazerol, clonsdine, bπmonidme, alpha methy! dopa, guanfacine, dexemeditomidine (+)-(S)-4-[1-(2,3-dimethyi-phenyl)-ethyl]-1 ,3- dιhydro-ιmιdazole-2-thfone, 1-[(imιdazohdιn-2-yl)imιno]ιndazole, and mixtures of these compounds Analogs of these compounds that function as highly selective α-2 agonists may also be used in compositions and methods of the present invention
In a more preferred embodiment, the selective α-2 adrenergic receptor is bπmonidine in the form of tartrate salt
Methods of Treatment and Compositions Thereto
The surprising and unexpected discoveries of the present invention potentially have application in treating a nasal congestion and a variety of ocular and pulmonary conditions a) Swollen Nasal Turbinates (e g , nasa! congestion) Thus, in one embodiment, the invention generaily relates to a method of treating diseases associated with swollen nasal turbinates (e g nasal congestion) comprising administering locally to a patient in need thereof a selective α-2 adrenergic receptor agonist having a binding affinity of 100 fold or greater for α-2 over α-1 adrenergic receptors or a pharmaceutically acceptable salt thereof, wherein
said selective α-2 adrenergic receptor agonist is present at a concentration beiow about 0 05% weight by volume in a preferred embodiment, the condition associated with swollen nasal turbinates is selected from the group consisting of nasal congestion, allergic rhinitis, asthma, sleep disorders, and sleep apnea
In one embodiment, the invention generally relates to compositions formulated for treating diseases associated with swollen nasal turbinates Compositions particularly useful for these purposes preferably comprise bπmonidine at concentrations of from 0 01 % to about 0 04%, and more preferably, from 0.02% to about 0.035% b) Ocular Conditions
Ocular conditions include, but are not limited to, red eye, including chronic red eye, ocular vascular congestion after lasik surgery, prophylactic intraoperative and postoperative reduction of hemorrhage and hyperemia after Lasik surgery, preoperative hemorrhage and hyperemia prophylaxis prior to Lasik surgery, prophylactic diabetic retinopathy; macular edema such as that associated with diabetes, conditions of retinal degeneration such as glaucoma, macular degeneration such as age-related macular degeneration (ARMD) and retinitis pigmentosa, retinal dystrophies, elevated baseline hyperemia in glaucoma patients, inflammatory disorders of the retina, vascular occlusive conditions of the retina such as retinal vein occlusions or branch or centra! retinal artery occlusions; retinopathy of prematurity, retinopathy associated with blood disorders such as sickle cell anemia; elevated intraocular pressure; ocular itch, damage following retinal detachment, damage or insult due to vitrectomy, retinal or other surgery, and other retinal damage including therapeutic damage such as that resulting from laser treatment of the
rettna, for example, pan-retinal photocoagulation for diabetic retinopathy or phofodynamic therapy of the retina Ocular conditions that can be prevented or alleviated by administering the topical formulations of the present invention further include, without limitation, generic and acquired optic neuropathies such as opttc neuropathies characterized primarily by loss of central vision, for example, Leber's hereditary optic neuropathy (LEON), autosomal dominant optic atrophy (Kjer disease) and other optic neuropathies such as those involving mitochondrial defects aberrant dynamin-related proteins or inappropriate apoptosis, and optic neuritis such as that associated with multiple sclerosis, retinal vein occlusions or photodynamic or laser therapy See, for example, CarelSi et al , Neurochem lntl 40 573-584 (2002), and Olichon et al , J Biol Chem 278 7743-7746 (2003) The term "ocular condition" also encompasses aesthetic conditions, for example, excessive redness of an eye The methods and compositions of the present invention can be used with other ocular procedures, particularly cataract surgery, retinal surgery, pterygiae removai, and motility surgery At the concentration range employed to eliminate hyperemia, endothelial cell pump dysfunction, and the high level of allergic reactions of the glaucoma class of bπmomdine concentrations, no intraocular pressure effects are noted This is important because in cosmetic use, while retention of normal intraocular pressure is desired, lowering of intraocular pressure is not a necessary or desirable parameter to reduce in a normotensive population
When the methods and compositions of the present invention are used in conjunction with Lasik surgery, the preferred α-2 agonist is brimonidine at a concentration of from about 0 015% to about 0 05%, and more preferably, from about 0 020% to about 0 025% In a preferred embodiment, a selective α-2 agonist s
concentration has to be such that intraocular pressure is not substantially reduced and endothelial cell pump is not substantially inhibited
It is a further discovery of the present invention that the dose response curve for intraocular pressure reduction for brimonidine is significantly different than that for its vasoconstrictive effects, as well as endothelial cell pump inhibition Despite brimonidine having the same hyperemic profile and high incidence of rebound hyperemia in clinical use as apracJonidine, when this class of more selective compounds is optimized to its vasoconstrictive dose response range, it is shown to have superior vasoconstrictive effect with less rebound (See, FlG 3) c) Pulmonary Conditions
Pulmonary conditions include, but are not limited to vascular congestion, mucosal swelling of bronchi and bronchioles, bronchitis, respiratory syncytial virus (RSV) bronchitis, etc Other pulmonary uses include treatment of increases in capillary permeability that further shrink the available lumen size of an airway Such increases in capillary permeability occur in allergic rhinitis, common coid, influenza, asthma, acute respiratory distress syndrome, and acute lung injury Such conditions can cause alveolar capillary increased permeability and capillary changes along the mucosal surface that swell the mucosa into the lumen An increase in capillary permeability is known as one of the main features by which these pathogens are disseminated inside a host organism through cascade of inflammatory byproducts and other specific means of induction
In one embodiment the invention generally relates to a method for treatment of a pulmonary condition comprising delivering compositions of the present invention as an aerosol having mass medium average dsameter predominantly between 1 to 10μ, produced by an inhaler, jet or ultrasonic nebulizer
d) Other Conditions
The methods and compositions of the present invention may also be used in other clinical indications for vasoconstriction, such as treating the subcutaneous epidermal swelling observed a!ong and around the lower eyelids or the venous dilation of hemorrhoids The present invention further provides compositions formulated to relieve the vascular engorgement associated with dilated vessels of hemorrhoid tissue with less morbidity than epinephrine or phenylephrine used with prior art Compositions particularly useful for these purposes comprise bπmonidme at concentrations of from 0 01 % to 0 05% The present invention further provides compositions formulated to relieve the vascular engorgement associated with dilated vessels of pulmonary bronchi and bronchioles, via inhalant vehicle, to relieve more effectively than prior art, with less morbidity than epinephrine, norepinephrine, or pseudoephedπne, mucosal swelling and congestion associated with colds, flu, and other productive cough Compositions particularly useful for these purposes comprise bπmomdine at concentrations of from 0 001 % to 0 040%
In addition, the methods and compositions of the present invention may be used during endotracheal intubation
In another embodiment, the invention relates to a method of treating sore throat, comprising administering locally to a patient in need thereof a selective α-2 adrenergic receptor agonist having a binding affinity of 100 fold or greater for α-2 over α- 1 adrenergic receptors, or a pharmaceutically acceptable salt thereof in the absence of a substantial amount of another therapeutic agent, wherein said selective α-2 adrenergic receptor agonist is present at a concentration below about 0 01 % weight by volume
In a preferred embodiment, the invention generally relates to a method of scleral whitening without significant rebound hyperemia, comprising administering to a patient in need thereof a topical composition comprising a selective α-2 adrenergic receptor agonist having a binding affinity of 100 fold or greater for α-2 over α-1 adrenergic receptors or a pharmaceutically acceptable salt thereof, wherein said selective α-2 adrenergic receptor agonist is present at a concentration below about 0 05% weight by volume
This method allows achieving a more effective scleral whitening (ι e , whiter shades of scleral color) than possible with prior art compositions and methods, as a result of more effective vasoconstriction that creates sufficient constriction of the capillary bed within the sclera to induce an overall whitening not observed with prior art, allowing for an improved cosmetic appearance
For the methods of scleral whitening, the preferred α-2 agonist is bπmonidine at a concentration of from about 0 01 % to about 0 05%, and more preferably, from about 0 015% to about 0 02%
The methods and compositions of the present invention may also be used to treat noninfectious conjunctival hyperemia (caused, for example, by lack of sleep, consumption of alcohol, or other noninfectious causes)
In another embodiment, the invention generally relates to a method of reducing redness in an eye, comprising administering to a patient in need thereof a topical composition comprising a selective α-2 adrenergic receptor agonist having a binding affinity of 100 fold or greater for α-2 over α-1 adrenergic receptors, or a pharmaceutically acceptable salt thereof, wherein said selective α-2 adrenergic receptor agonist is present at a concentration below about 0 05% weight by volume
In a preferred embodiment, the administering step of the topical composition may be done through the use of a hydrophihc contact lens, wherein the hydrophilic lens compπses a reservoir for retaining the topical compositions of the present invention For the method of reducing redness in an eye, the preferred α-2 agonist is brimonidme at a concentration of from about 0 005% to about 0 015%
In yet another embodiment, the invention generally relates to a method for lightening tissue coloration comprising administering locally to a patient in need thereof a topical composition comprising a selective α-2 adrenergic receptor agonist having a binding affinity of 100 fold or greater for α-2 over α-1 adrenergic receptors, or a pharmaceutically acceptable salt thereof, wherein said selective α-2 adrenergic receptor agonist is present at a concentration beiow about 0 05% weight by volume in a preferred embodiment, methods of the present invention allow administration of the selective α-2 agonists for approximately at least a week, for approximately two weeks, for approximately three weeks, for approximately one month, for approximately two months, for approximately between two months and one year for approximately one year, and for approximately longer than one year It is to be understood that it is within a skill in the art to determine the most appropriate time pen od of administration The low toxicity and low incidence of hyperemia with the compositions of the present invention enables their relatively frequent and long term use For example, clinical study of brimonidme 0 5% tid for one month and bπmonidine 0 2% bid for one year equate to clinical use for vasoconstriction of sixty times per day and sixteen times per day respectively for bπmonidine 0 025%, a typical concentration of a preferred embodiment of the present invention In most cases, if desired, treatment
can be repeated as often as every two hours, or commonly once every three to four hours
In general, low concentrations of vasoconstrictive agents can be applied for prolonged peπods of time (for example, for several hours) for much greater therapeutic index in reaching affected superficial vascular regions The etiology of conditions that may benefit from vasoconstrictors is largely due to vascular abnormalities, inflammatory changes, or other vascular responses to chemical modulation by emotional changes (flushing) in addition, systemic absorption \s typically considerably reduced compared to mucous membranes Facial rosacea, and in particular, acne rosacea have distribution along either side of the nasal bridge, under the eyelids, and frequently includes the Sower eyelids
Thus for many facial applications of emollients or creams, the compositions of the present invention offer improved safety and efficacy as compared to higher concentrations of the prior art However, in one embodiment the application time of the compositions of the present invention lasts not more than about five minutes In another embodiment the application time of the compositions of the present invention is less than one minute Based on the use of such molecules at much higher doses for chronic treatment of glaucoma, the treatment for vasoconstriction can also be used to treat chronic conditions For example, treatments can be repeated over a period of several months to a year, and most likely several years, as is currently common for glaucoma treatment with this class of moiecules
Due to its high safety profile regarding adverse systemic toxicity, the compositions of the present invention may be used every two hours, or more commonly, every three to four hours with low incidence of hyperemia The
concentrations should be optimized for their vasoconstrictive dose response curve, which may differ from other desired clinical effects Combsnatson Treatments
In addition to using low doses of highly selective α-2 agonists by themselves, the invention also provides methods for using these highly selective α-2 agonists in several combinatorial applications, for example in combinations with α-1 antagonists, in combinations with antihistamines, and in combinations with anesthetic agents A Combinations With α-1 Antagonists α-1 antagonists have been shown to have the property of reducing scotopic and mesopic pupil dilation α-1 agonists of prior art, such as naphazolme, tetrahydrozoline, and oxymetazolsne, have an undesirable property of causing papillary dilation with attendant reduction in quality of vision in a significant percentage of individuals The highly selective α-2 agonists of the present invention at the claimed concentrations do not cause papillary dilations The compositions and methods of the present invention may combine highly selective α-2 agonists, as defined by the present invention, with α-1 antagonists and/or selective α-1 antagonists to minimize hyperemia and optimize the concentration which can be used for maximum reduction of sympathomimetic induced Sow light pupil enlargement This has important consequence for improving night vision in people with large pupils and increased higher order aberrations, or higher order aberrations from other causes (such as refractive surgery)
Phentolamine is a preferred pharmaceutical agent for such use When combined with the present invention, its use is further optimized Preferably, when used in combination, the highly selective α-2 agonssts of the present invention are employed in ratios varying from about 0 02% to about 0 05% Most preferably, the α-
1 antagonist is phentolamine myrsalate, and sis concentration is from about 0 01 % to about 0 1 %
B Combinations With Antihistamines
In another embodiment, the invention generally relates to a composition formulated for treating and/or preventing an allergic response with reduced rebound hyperemia, comprising a selective α-2 adrenergic receptor agonist having a binding affinity of 100 fold or greater for α-2 over α-1 adrenergic receptors, or a pharmaceutically acceptable salt thereof, and a histamine antagonist, wherein said selective α-2 adrenergic receptor agonist is present at a concentration below about 0 025% weight by volume in another preferred embodiment, the invention generaify relates to a method of ireatsng and/or preventing an allergic response with reduced rebound hyperemia comprising administering to a patient in need thereof the composition comprising a selective α-2 adrenergic receptor agonist having a binding affinity of 100 fold or greater for α-2 over α-1 adrenergic receptors, or a pharmaceutically acceptable salt thereof, and a histamine antagonist, wherein said selective α-2 adrenergic receptor agonist is present at a concentration below about 0 025% weight by volume
In a preferred embodiment, the α-2 agonist is brimonidine at a concentration of from about 0 001 % to about 0 025% weight by volume, and the preferred histamine antagonist is selected from the group consisting of loratadine, desloratadine, cetiπzine, fexofenadine, acrivastine, ebastme, norastemizole, levocetiπzine and mizofastsne
In a preferred embodiment, the composition for treating and/or preventing an allergic response with reduced rebound hyperemia is an aerosolized composition
In a preferred embodiment the invention generally relates to a composition consisting essentially of brimonidine and pheniramine maleate wherein said bπmonidme concentration is from between about 0 001 % to about 0 025% weight by volume, wherein pH of said composition is between about 5 5 and about 6 5, and wherein said composition is formulated as an aerosolized composition
In a preferred embodiment the invention generally relates to a composition consisting essentially of brimonidine and a nonsedating antihistamine, wherein said bπmonidine concentration is from between about 0 001 % to about 0 025% weight by volume wherein pH of said composition is between about 5 5 and about 6 5, and wherein said composition is formulated as an aerosolized composition C Combinations with Anesthetics
It is another discovery of the present invention that the use of selective alpha
2 agonists, preferably having a binding affinity of 500 fold or greater for α-2 over α-1 adrenergic receptors, provides sufficient α-1 and α-2 receptor activity to optimize the effectiveness of the vasoconstriction from both receptors and to reduce anesthetic risk and risk of cardiovascular events triggered by α-1 and/or β-1 receptor stimulation
To maximize anesthetic retention in local tissue space and minimize both anesthetic and vasoconstrictor systemic toxicity a selective α-2 adrenergic receptor agonist that is used in combination with a topical anesthetic agent may have some α- 1 agonist activity, yet the degree of α-1 receptor stimulation must be sufficiently low to minimize the known cardiovascular risks associated with alpha 1 agonists at high concentrations and to minimize vasoconstriction of larger and more proximal high oxygen saturated arteries and arterioles vs more distal vessels in the large artery to smaller artery, arterioles capillary bed, benules and large vein cycle of oxygen transport to and from tissue
It is the belief of the inventor that a combination of an anesthetic for tissue injection and the selective α-2 receptor agonist results in preferential vasoconstriction of microvessels and venules versus arteries and larger arterioles This combination couid provide reduced ischemia with maximal microvascular and/or venuiar constriction resulting in equal or greater retention of anesthetic circumscribing the region injected, reduced ischemia, possibly reduced systemic absorption (preferentially, microvessels and venuSes), less risk of systemic toxicity, and quicker recovery once anesthetic wears off due to reduced ischemia, ail with reduced systemic risk It is the inventor's belief that significant β receptor and α-1 receptor agonist induced vasoconstriction resulting from epinephrine use increases ischemia, prolongs recovery relative to the adaptation of the present invention for this purpose and increases well documented α-1 related systemic risks As there are hundreds of millions of anesthetic blocks given per year, cases of arterial injection further add morbidity form systemic absorption, in particular, in dental applications, where even a low incidence of complications represents a significant quantified morbidity
For the purposes of the present invention, it is thus desirous to obtain preferential terminal arteriole and/or effective microvesse! (capillary) and venuSar constriction over larger arterial or nonterminal arteriolar vasoconstriction to minimize diffusion of anesthetic injected into tissue, reduce systemic absorption, and maximize potential enhancement of anesthetic effect with least morbidity
Thus, m another embodiment, the invention relates to optimizing α-2 agonist receptor activation while minimizing α-1 receptor activation
The methods and compositions of the present invention require both a highly selective α-2 agonist, with much higher binding affinities for α-2 over α-1 adrenergic
receptors (at ieast 100 fold or greater for α-2 over α-1 , preferabiy, 500 fold or greater, and even more preferably, 700 fold or greater), and proper dose response selection of low concentrations to avoid sufficient α-1 receptor trigger and/or excessive α-2 dosing that could increase undesirable effects
5 The following Table 1 illustrates the preferred compositions of the invention
Table 1
Concentration Bπmomdine/ Lidocaine HC! (anhyd } Sodium Lidocaine HCI Dexmeditomidme mg/ mL Chloride mg/mL
0 5% 1 300,000 to 1 5
2,500,000
1 % 1 300,000 to 1 1 0 7
2, 5,000,000 1 .5% 1 300,000 to 1 1 5 6.5
2,5,000,000
2% 1 300,000 to 1 20 6
2,5,00O1OOO
1 % 1 400,000 to 1 1 0 7
5,000,000
2% 1 400,000 to 1 20 6
5,000,000
Preferred embodiments of the present invention include bπmonidine and/or dexmeditomidme in the concentration ranges indicated above The use of lower doses, compared to epinephrine, further reduces systemic risk, alpha 1 agonist I O induced ischemia and systemic risk, and optimizes preferential microvascular vs larger vessel constriction
In preferred embodiments, the formulations of the present invention may also include sodium metabisulfite 0 5 mg/mL and citric acid, anhydrous 0 2 mg/mL added as stabilizers The compositions may also contain sodium hydroxide and/or
hydrochloric acid to adjust pH, phi is typically in a range of 4 5 to 5 5, and is most preferably about 5 0
In one embodiment, the invention generally relates to an anesthetic composition comprising an anesthetic agent and a selective α-2 adrenergic receptor agonist having a binding affinity of 500 foid or greater for α-2 over α-1 adrenergic receptors, or a pharmaceutically acceptable salt thereof, wherein said selective α-2 adrenergic receptor agonist is present at a concentration below about 0 05% weight by volume, and wherein the total volume of the anesthetic composition to be administered to a patient is from about 1 m! to about 50 ml, and wherein the ratio of said selective α-2 adrenergic receptor agonist to said anesthetic agent is between 1 300,000 to 1 2,500,000
In a more preferred embodiment, the selective α-2 adrenergic receptor agonist is a compound which has binding affinity of about 700 fold or greater for α-2 over α-1 adrenergic receptors Preferably, the total volume of the anesthetic composition is from about 1 ml to about 25 ml, more preferably from about 1 ml to about 20 mi and even more preferably, from about 2 ml to about 18 ml The volume is dependent on the patient's weight in a preferred embodiment, the selective α-2 adrenergic receptor for use in the method of enhancing the efficacy of a local peripheral anesthetic injection is dexmeditomidine or bπmonidine In a more preferred embodiment, said selective α-2 adrenergic receptor agonist concentration is from about 0 0000001 % to about
0 0001% weight by volume
In a more preferred embodiment, the anesthetic compositions of the invention are to be used in a regional block anesthesia In a more preferred embodiment, the
anesthetic compositions of the invention are to be used in dental anesthetic injections
In a preferred embodiment, the ratio of a selective α-2 adrenergic receptor agonist to an anesthetic agent is between 1 300,000 to 1 2,500,000 In another preferred embodiment, the anesthetic agent is selected from the group consisting of xyiocaine, lidocaine, and mixtures thereof
In one preferred embodiment, the invention generally relates to an anesthetic composition comprising lidocame and dexmedetomidine, wherein said dexmedetomidine concentration is between about 0 0000001% and about 0 0001% weight by volume, more preferably 0 000001% to 0 000030% and even more preferably 0 00001% to 0 00020% weight by volume and wherein the total volume of the anesthetic composition to be administered to a patient is from about 1 ml to about 50 ml in another preferred embodiment, the invention generally relates to a method of enhancing the efficacy of a local peripheral anesthetic injection, comprising administering locally to a patient in need thereof the anesthetic composition according to the present invention
Preferably, the methods of enhancing the efficacy of a local peripheral anesthetic rejection aiso cause preferential vasoconstriction of smaller blood vessels (such as capillaries and venules) relative to larger blood vessels (such as arteries and arterioles)
Also, preferably, the methods of enhancing the efficacy of a local peripheral anesthetic rejection simultaneously reduce ischemia and enhance retention and/or action of the local anesthetic agent
in another preferred embodiment, the compositions useful for these purposes comprise an anesthetic agent and bπmonichne at concentrations of from about 0 0000001 % to about 0 0001% weight by volume Anesthetic Compositions (Formulations) Anesthetic compositions of the present invention may be prepared by skilled artisans without undue experimentation Generally, a simple solution is made, wherein an anesthetic is combined with a selective α-2 agonist
They anesthetic compositions may also include additional non-therapeutic components which include, but are not limited to, preservatives, delivery vehicles, tonicity adjustors, buffers, pH adjustors antioxidants and water
The preservatives include, but are not limited to benzalkonium chloride chtorobutanol, thimerosal, phenylmercuπc acetate, or phenylmercuπc nitrate
Vehicles useful in a topical ophthalmic composition include, but are not limited to, polyvinyl alcohol, povidone, hydroxypropyl methyl cellulose, poloxamers, carboxymethyl cellulose, hydroxyethyl ceilulose and purified water
A tonicity adjustor also can be included, if desired, in an anesthetic composition of the invention Such a tonicity adjustor can be, without limitation, a salt such as sodium chloride, potassium chloride, mannitol or glycerin, or another pharmaceutically or ophthalmically acceptable tonicity adjustor Various buffers and means for adjusting phi can be used to prepare an anesthetic composition in the invention Such buffers include, but are not limited to acetate buffers, citrate buffers, phosphate buffers and borate buffers It is understood that acids or bases can be used to adjust the pH of the composition as needed The acceptable antioxidants useful in preparing a topical composition include, but are not
limited to, sodium metabisulftte, sodium thiosuifate, acetylcysteine butyl ated hydroxyanisoie and butylated hydroxytoluene
FiG 7 depicts a graphical representation of preferential vasoconstriction and ischemia at various concentrations of the highiy selective α-2 agonist (e g , bπmomdsne) Generally, at low concentrations of highly selective α-2 agonists, there is 1 ) preferential vasoconstriction of microvessels and/or venules versus larger arteries and arterioles, and 2) low α-1 receptor agonist activity This results in per unit area high degree of tissue vasoconstriction with minimal ischemia The tissue vasoconstriction reduces absorption, and possibly, metabolism of an anesthetic, and increases retention within the tissue area being infiltrated
As the concentration of the α-2 agonist increases the total pool of triggered o> 1 receptors also increases The excessive α-2 and α-1 receptor stimulation (ι e , the stimulation above that needed for the ED 100 for microvessels and/or venules) has no known beneficial effects and causes increased ischemia with attendant inflammatory change
Compositions (Formulatsons)
The compositions of the present invention are preferably formulated for a mammai, and more preferably, for a human
In one embodiment, the compositions of the present invention are topical compositions In one embodiment the topical composition is formulated for treating and/or preventing an ocular condition
The topical compositions include, but are not limited to, ocular drops, ocular ointments, gels and creams They may also include additional non-therapeutic components, which include, but are not limited to, preservatives, delivery vehicles, tonicity adjusters, buffers, pH adjusters , antioxidants, and water
The preservatives include, but are not limited to benzalkomum chloride, chlorobutanol, thimerosai, phenylmercursc acetate, or phenylmercuric nitrate Vehicles useful in a topical ophthaSmic composition include, but are not limited to, polyvinyl alcohol povidone, hydroxypropyl methyl cellulose, poloxamers, carboxymethyl cellulose, hydroxyethyl cellulose and purified water Some of the preferred preservatives include Blink® (Abbott Medical Optics ®, active ingredient polyethylene glycol 400 0 25%) and perborate It is also possible to use a physiological saline solution as a major vehicle
A tonicity adjustor also can be included, if desired, in a topical composition of the invention Such a tonicity adjustor can be, without limitation, a salt such as sodium chloride, potassium chloride, mannitol or glycerin, or another pharmaceutically or ophthalmicaliy acceptable tonicity adjustor
Various buffers and means for adjusting pH can be used to prepare a topical composition in the invention Such buffers include, but are not limited to, acetate buffers, citrate buffers, phosphate buffers and borate buffers It is understood that acids or bases can be used to adjust the pH of the composition as needed Topically acceptable antioxidants useful in preparing a topical composition include, yet are not limited to, sodium metabisulfite, sodium thiosulfate, acetylcysteine, butylated hydroxyanisole and butylated hydroxytoluene To make the topical compositions of the present invention, one can simply dilute, using methods known in the art, more concentrated solutions of selective α-2 agonists The precise method of carrying out the dilutions is not critical Any commonly used diluents including preservatives described above in the application, suitable for topical solutions can be used
In one embodiment, the topical compositions of the present invention are ophthalmic compositions An ophthalmic composition contains an ophthalmically acceptable earner, which can be any earner that has substantially no iong term or permanent detrimentaS effect on the eye to which it is administered Examples of ophthalmically acceptable carriers include, but are not limited to, water, including distilled or deionized water, saline, and other aqueous media
In another preferred embodiment, said composition is an aerosolized composition In one embodiment the aerosolized composition is formulated for treating and/or preventing a pulmonary condition It is within a skill in the art to prepare aerosolized compositions of the present invention
The aerosolized compositions of the present invention are generally delivered via an inhaler, jet nebulizer, or ultrasonic nebulizer which is able to produce aerosol particles with size of between about 1 and 10 μm in one embodiment, the selective α-2 agonist may be formulated in about 5 mi solution of a quarter normal saline having pH between 5 5 and 6 5, preferably between 5 5 and 6 0
In a preferred embodiment, the aerosolized composition comprises about 0 02% bπmonidine in about 5 ml solution which further comprises about 0 225% sodium chloride, and wherein said composition has a pH between about 5 5 and 6 5 preferably between 5 5 and 6 0
In a preferred embodiment, a pH of the compositions of the present invention is iess than about 7 0, preferably, between about 5 5 and about 6 5, more preferably between 5 5 and 6 0
In another preferred embodiment, the compositions of the present invention further include potassium (ι e , K+) The term "potassium" includes, but is not limited to, potassium salt Preferably, potassium is potassium chloride
In another preferred embodiment, the compositions of the present invention further include calcium (ι e , Ca2+) The term "calcium" includes, but is not limited to, caicium salt Preferably, calcium is calcium chloride in yet another preferred embodiment, the compositions of the present invention comprise nitrous oxide inhibitors In a preferred embodiment, the nitrous oxide inhibitors are selected from the group consisting of L-NAME, L-NiL, L-NiO, and L-canavine, or combinations thereof Preferably, concentration of the nitrous oxide inhibitors is between about 0 005% and about 0 5% weight by volume
In another embodiment, the compositions of the present invention can be included in a pharmaceutically suitable vehicle suitable for oral ingestion Suitable pharmaceutically acceptable carriers include solid fillers or diluents and sterile aqueous or organic solutions The active compound wsl! be present in such pharmaceutical compositions in the amounts sufficient to provide the des:red dosage in the range as described above
Pharmaceutical compositions contemplated for use in the practice of the present invention can be used in the form of a solid, a solution, an emulsion, a dispersion, a micelie, a liposome, and the like, wherein the resulting composition contains one or more of the active compounds contemplated for use herein, as active ingredients thereof in admixture with an organic or inorganic carrier or excipient suitable for nasal, enteral or parenteral applications The active ingredients may be compounded, for example, with the usual non-toxic, pharmaceutically and physiologically acceptable carriers for tablets, pellets, capsules, troches lozenges,
aqueous or oily suspensions, dispersible powders or granules, suppositories, solutions, emulsions, suspensions, hard or soft capsules capiets or syrups or elixirs and any other form suitable for use The carriers that can be used include glucose, iactose, gum acacia, gelatin, mannitol starch paste, magnesium trisshcate, talc corn starch, keratin, colloidal silica, potato starch, urea, medium chain length triglycerides, dextrans, and other carriers suitable for use in manufacturing preparations, in solid, semisolid, or liquid form In addition auxiliary, stabilizing, thickening and coloring agents may be used
In one embodiment, the compositions of the present invention can be administered locally via an intraocular or periocular implant, which can be without limitation, biodegradable or reservoir-based As used herein, the term "implant" refers to any material that does not significantly migrate from the insertion site following implantation An implant can be biodegradable, non-biodegradable, or composed of both biodegradable and non-biodegradable materials, a non- biodegradable implant can include, if desired, a refillable reservoir Implants useful for preventing or alleviating an ocular condition include, for example, patches, particles, sheets, plaques, microcapsules and the like, and can be of any shape and size compatible with the selected site of insertion which can be, without limitation the posterior chamber, anterior chamber, suprachoroid or subconjunctiva of the eye it is understood that a useful implant generally releases the implanted ophthalmic composition at a therapeutically effective dose to the eye of the subject over an extended period of time A variety of ocular implants and extended release formulations suitable for ocular release are well known in the art, as described, for example, in U S Pat Nos 5,869,079 and 5,443,505
The invention aiso relates to a metered dose dispenser comprising the aqueous compositions of the invention
The present invention is more fully demonstrated by reference to the accompanying drawings FIG 1 depicts vasoconstrictive net clinical effectiveness for prior art α- agonists Vasoconstrictive net clinical effectiveness \s calculated by subtracting each compound's rebound hyperemic dose response curve from vasoconstrictive dose response curve The genera! effectiveness and approximate optimal concentrations with the least rebound are revealed by the X-Y intersecting dashed lines There is a slight peak for each molecule where its benefit to risk ratio is optimized The reference concentration mark at 0 08% is to the right of the dose response data
FSG 2 highlights the key discoveries of the present invention It depicts a plot of vasoconstriction effect versus various concentrations of bπmonidme, a selective α- 2 agonist of the present invention Vasoconstrictive effect when studied at reduced concentrations is shown to have been above sts maximum dose response benefit, while intraocular pressure reduction and corneal endothelial ceil pump inhibition are shown to have been just at their maximum at about 0 09% As a result, there is an exponential drop-off in intraocular pressure reduction and endothelial cell pump inhibition just below 0 08%, while vasoconstrictive effect remains largely unchanged at these lower concentrations until much lower concentrations are reached
It also demonstrates that concentrations of bπmonidine of 0 10% and higher induce a large enough population of α-1 agonists to achieve rebound virtually identica! to tetrahydrozahne naphazohne and oxymetazoline, and may contribute an excessive number of α-2 receptors as well FIG 2 demonstrates that highly selective α-2 agonists defined by their binding affinities (Ki) for α-2 over α~1 receptors
of more than 100 1 , more preferably 500 1 , even more preferably 700 1 , even more preferably 1000 1 or greater, and most preferably, 1500 1 or greater, results m an optimized concentration range for optimal vasoconstriction without rebound hyperemia FIG 3 depicts a graphical representation of clinical effectiveness of the compositions of the present invention versus prior art compositions The net effect of this improved vasoconstrictive benefit of α-2 predominant receptor activation and reduced rebound is highlighted for brimonidine in FiG 3 relative to α-agonιst vasoconstrictors in current clinical use The potency and reduced morbidity allow for additional benefits of the subclass of more highly selective α-2 agonists as defined by the present invention
FIG 4 contains graphical representations of resuits of Example 1 and wsll be explained more fully in the section of the application dealing with Example 1
Figures 5 A-C demonstrate the unexpected discovery that novel and highly selective α-2 compositions of the present invention can reverse pre-induced rebound hyperemia of general alpha agonists
FlG 5A is a baseline visual appearance of two eyes of a patient with an ocular condition
Figure 5B depicts a visual appearance of the right eye of the patient after being treated with a prior art composition comprising Visine® Original
(tetrahydrozoline 0 25%) and the induction of rebound hyperemia, and the visual appearance of the left eye of the patient after being treated simultaneously with a composition of the present invention comprising bπmonidine at 0 015%
Figure 5C depicts a visual appearance of the right eye of the patient after then being treated with the novel composition of the present invention comprising
brimonidine at 0 015%, reversing the Visine® induced rebound hyperemia, and a visual appearance of the ieft eye of the patient after being treated simultaneously with an additional drop of the composition of the present invention comprising brimonidine at 0 015% FIG 6 depicts a graphical representation of a finding of the present invention that an increased rebound hyperemia begins at around 0 03% for bπmonidine It thus demonstrates that the net effectiveness of bπmonidine as a decongestant is greatest between about 0 01% and about 0 03%, preferably, between about 0 012% and about 0 02% FIG 7 depicts a graphical representation of preferential vasoconstriction and ischemia at various concentrations of the highly selective α-2 agonist (e g , brimontdine) Generally, at low concentrations of highly selective α-2 agonists, there is 1) preferential vasoconstriction of mscrovessels and/or venules versus larger arteries and arterioles, and 2) iow α-1 receptor agonist activity This results in per unit area show high degree of tissue vasoconstriction with minimal ischerma The tissue vasoconstriction reduces absorption, and possibly, metabolism of an anesthetic, and increases retention within the tissue area being infiltrated
As the concentration of the α-2 agonist increases, the total pool of triggered α- 1 receptors also increases The excessive α-2 and α-1 receptor stimulation (ι e , the stimulation above that needed for the ED 100 for microvessels and/or venules) has no known beneficial effects and causes increased ischemia with attendant inflammatory change
The following Examples are provided solely for illustrative purposes and are not meant to limit the invention in any way
Examples
Example 1
Sn this Example, a patient was treated with bπmonidine at claimed concentrations and prior art compositions of tetrahydrozohne, oxymetazoline and naphazoline
The results clearly demonstrate significant scleral whitening brightening effects of treatment with bπmonidine as compared with treatment with prior art compositions
The results are shown in Figures 4A through 4E Fig 4A shows the base line for both eyes
Fig 4B shows a comparison after 180 minutes, where the right eye has been treated with tetrahydrozohne at 0 05% and the left eye was treated with bπmonidine at 0 01 %
Fig 4C shows a comparison four hours after baseline (Fig 4A), where the right eye has been treated with oxymetazoline at 0 025% and the left eye was treated with bπmonidine at 0 02%
Fig 4D shows a comparison where after a further four hours, the right eye has been treated with naphazolsne at 0 033%, and the left eye was treated with bπmonidine at 0 02% Fig 4E shows the effect of bπmonidme at 0 033% on the left eye only 4 hrs after the effect shown in Fig 4D (showing the third application to be without rebound hyperemia)
The effectiveness in most clinical situations is likely to be even greater, since baseline redness was at 4/4 for this test in an average clinical situation baseline redness is at 1-1 5/4
Accordingly, the results show that compositions of the present invention may be used every three to four hours with low incidence of hyperemia. Example, 2 Lasik Prophylaxis Baseline:
Treatment of 200 patients via the intraiase femtosecond laser with no pretreatment for vasoconstriction - significant postoperative hyperemia and conjunctival hemorrhage with @ 15% petichial or larger hemorrhage when patients were seen postoperative day 1 ,25% 1 + (14) hyperemia first hour +; 50% 2.5+ hyperemia first how +; 25% 3+ hyperemia first hour +. Flap dislocation rate: < 0.1 %.
Treatment group 1 :
Naphcon-A ® (Alcon, Inc; active ingredients: naphazoline hydrochloride 0.25% and phenrramfne maieate 0.3%; preserved with benzalkoniurnm chloride) was used on a second group of 50 patients (85 procedures), 12% petichial or larger hemorrhage. 35% 1+ hyperemia; 35% 2+ hyperemia; 15% 2.5+ hyperemia; 15% 3+ hyperemia. Some clinicai benefit noted. Flap dislocation rate: < 0.1 %. Treatment group 2:
Brimonidine 0.2%, used off label, has been reported to cause flap dislocation rates of 5-10% and is currently not indicated nor recommended for this purpose.
Brimonidine 0.02% on 16 eyes, with no adverse effects or significant change in intraocular pressure, mean blood pressure or pulse noted. Treatment Group 3:
Brimonidine 0.02% applied topicaliy I-ii gtts per eye, 10-20 minutes preoperative^ to an initial trial of 10 patients (1 00 eyes). < 5% petichial or larger
hemorrhage, 75% 1 + hyperemia or less, 20% 2+ hyperemia, 5% 2 5+ hyperemia, flap dislocation rate just under 1 %
This group has been expanded to include over 500 eyes with similar results A markedly different white quiet eye is noted in most patients, with no or only trace hyperemia found in the majority of the I + or less hyperemic group Flap dislocation rate remains just under I % with most of these mild striae as opposed to actual dislocation, similar to that found with Group 0 and 1
Cosmetically, the patients are much improved from day 1 vs no vasoconstrictor and vs Naphcon-A® No adverse cardiovascular events occurred No significant allergic reactions have been found Example 3
0 03% Bπmonidine Nasal Spray 0 9% saline vehicle used and nasal spray administered to patient with nasal congestion This was repeated for one week without rebound Complete relief for 3-5 hours was reached per application for treatment of moderate nasal congestion thought to be allergic in nature Repeat applications x four hours without rebound Patient population for this test limited to n of 1
The proper dose response range can be tested with no more than routine experimentation Example 4
Eighteen patients having a red eye condition were treated with a composition of the present invention (i e brimonidine at 0 018%) and with VISiNE Original® Three patients withdrew from the study prior to completion
The patients were assigned "cumulative red scores" , prior to each administration (as baseiine) and then 10 mm after each dose, by dividing the bulbar conjunctiva into six sectors, each scored with a grade 1-3 score and the total cumulative score In terms of mstial efficacy of the active vs VISINE Original® the patients were calculated to have 68 71% reduction in redness score after administration of a single dose of bπmontdine at 0 018%, and 31 06% reduction in redness score after administration of VISINE Onginai® after a single application
Rebound hyperemia after one dose occurred only in 6 6% after administration of bπmonidine at 0 05% (1 of 15) and in 26 6% after administration of VlSINE Original®
The three week scores also demonstrated advantages of the compositions of the present invention after administration of bπmonidine at 0 018%, the average redness count went down from 10 3 to 1 6, after administration of ViSiNE Original®, the average redness count went down from 8 8 to 2 5 However, it is possibie that due to the length of the study and inadvertent dilution of preservative in formulation, contamination of the bπmomdine 0 018% composition may have occurred towards the end Example 5
Seven patients with chronic red eyes were treated as follows one eye was treated with extreme low dose (eld) bπmonidine at 0 015% and the other eye was treated with Naphcon- A ® The treatment was through drops twsce a day for three to five weeks At the end, patient satisfaction assessment was conducted
All patients reported reduced redness on eid bnmonsdine
42% preferred eld bπmonidine 0% preferred Naphcon-A ®