Method for treating peripheral vascular disease by...

Drug – bio-affecting and body treating compositions – Effervescent or pressurized fluid containing – Organic pressurized fluid

Reexamination Certificate

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C424S046000, C424S489000, C514S573000, C514S571000

Reexamination Certificate

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06521212

ABSTRACT:

BACKGROUND OF THE INVENTION
Benzindene prostaglandins are now known to be useful to treat a variety of conditions. U.S. Pat. No. 5,153,222 describes the use of a preferred class of benzindene prostaglandins in the treatment of pulmonary hypertension, including both primary and secondary pulmonary hypertension. In particular, this patent discusses the use of the compound 9-deoxy-2′,9-alpha-methano-3-oxa-4,5,6-trinor-3,7-(1′,3′-interphenylene)-13,14-dihydro-prostaglandin F1 (also known as UT-15).
However, this patent does not specifically suggest the administration of such benzindene prostaglandins by inhalation or the surprising benefits that result from their delivery by inhalation.
U.S. Pat. No. 4,306,075 describes a large group of carbacyclin analogs, including, benzindene prostaglandins which produce various pharmacological responses, such as inhibition of platelet aggregation, reduction of gastric secretion, and bronchodilation. It is indicated that the compounds have useful application as anti-thrombotic agents, anti-ulcer agents, and anti-asthma agents. The patent does mention administration by inhalation. The patent specifically discloses the compound UT-15 in Example 33. However., this patent provides only limited biological data relating to the use of such compounds. At column 59, example 31, the patent discloses a compound that is structurally similar to that of example 33 (UT-15), but it is not the same compound. Example 31 discloses (column 59, lines 41-45) that “[t]he compounds [sic] 9-deoxy-2′, 9-methano-3-oxa4,5,6-trinor-3,7-(1′,3′-interphenylene)- PGF1, methyl ester, given to a rat orally at a dose of 1 mg/kg lowered blood pressure 44 mmHg. After 52 min the blood pressure was still lower 14 mm.”
All blood is driven through the lungs via the pulmonary circulation in order, among other things, to replenish the oxygen which it dispenses in its passage around the rest of the body via the systemic circulation. The flow through both circulations is in normal circumstances equal, but the resistance offered to it in the pulmonary circulation is generally much less than that of the systemic circulation. When the resistance to pulmonary blood flow increases, the pressure in the circulation is greater for any particular flow. This is referred to as pulmonary hypertension. Generally, pulmonary hypertension is defined through observations of pressures above the normal range pertaining in the majority of people residing at the same altitude and engaged in similar activities.
Most often pulmonary hypertension is a manifestation of an obvious or explicable increase in resistance, such as obstruction to blood flow by pulmonary emboli, malfunction of the heart's valves or muscle in handling blood after its passage through the lungs, diminution in pulmonary vessel caliber as a reflex response to hypoventilation and low oxygenation, or a mismatch of vascular capacity and essential blood flow, such as shunting of blood in congenital abnormalities or surgical removal of lung tissue. Such pulmonary hypertension is referred to as secondary hypertension.
There remain some cases of pulmonary hypertension where the cause of the increased resistance is as yet inexplicable. They are described as primary pulmonary hypertension (PPH) and are diagnosed by and after exclusion of the causes of secondary pulmonary hypertension. Despite the possibility of a varied etiology, cases of primary pulmonary hypertension tend to comprise a recognizable entity. Approximately 65% are female and young adults are most commonly afflicted, though it has occurred in children and patients over 50. Life expectancy from the time of diagnosis is short, about 3 to 5 years, though occasional reports of spontaneous remission and longer survival are to be expected given the nature of the diagnostic process. Generally, however, progress is inexorable via syncope and right heart failure and death is quite often sudden.
Pulmonary hypertension refers to a condition associated with an elevation of pulmonary arterial pressure (PAP) over normal levels. In humans, a typical mean PAP is approximately 12-15 mm Hg. Pulmonary hypertension, on the other hand, is sometimes marked by PAP increases by at least 5 to 10 mm Hg over normal levels. PAP readings as high as 50 to 100 mm Hg over normal levels have been reported. When the PAP markedly increases, plasma can escape from the capillaries into the lung interstitium and alveoli. Fluid buildup in the lung (pulmonary edema) can result, with an associated decrease in lung function that can in some cases be fatal.
Pulmonary hypertension may either be acute or chronic. Acute pulmonary hypertension is often a potentially reversible phenomenon generally attributable to constriction of the smooth muscle of the pulmonary blood vessels, which may be triggered by such conditions as hypoxia (as in high-altitude sickness), acidosis, inflammation, or pulmonary embolism. Chronic pulmonary hypertension is characterized by major structural changes in the pulmonary vasculature, which result in a decreased cross-sectional area of the pulmonary blood vessels. This may be caused by, for example, chronic hypoxia, thromboembolism, or unknown causes (idiopathic or primary pulmonary hypertension).
Pulmonary hypertension has been implicated in several life-threatening clinical conditions, such as adult respiratory distress syndrome (“ARDS”) and persistent pulmonary hypertension of the newborn (“PPHN”). Zapol et al., Acute Respiratory Failure, p. 241-273, Marcel Dekker, New York (1985); Peckham, J. Ped. 93:1005 (1978). PPHN, a disorder that primarily affects full-term infants, is characterized by elevated pulmonary vascular resistance, pulmonary arterial hypertension, and right-to-left shunting of blood through the patent ductus arteriosus and foramen ovale of the newborn's heart. Mortality rates range from 12-50%. Fox, Pediatrics 59:205 (1977); Dworetz, Pediatrics 84:1 (1989). Pulmonary hypertension may also result in a potentially fatal heart condition known as “cor pulmonale”, or pulmonary heart disease. Fishman, “Pulmonary Diseases and Disorders” 2
nd
Ed., McGraw-Hill, New York (1988).
The treatment of pulmonary hypertension by the parenteral administration of certain prostaglandin endoperoxides, such as prostacyclin (also known as flolan), is also known and is the subject of U.S. Pat. No. 4,883,812. Prostacyclin has been administered by inhalation and is used to treat pulmonary hypertension by inhalation. Anesthesiology, vol. 82, no. 6, pp. 1315-1317.
SUMMARY OF THE INVENTION
This invention relates to the administration of a therapeutically effective amount of a benzindene prostaglandin to a mammal in need thereof by inhalation. More particularly, the invention relates to a method of treating pulmonary hypertension by administering an effective amount of a benzindene prostaglandin to a mammal in need thereof by inhalation.
Inhalation of benzindene prostaglandins provides unexpectedly superior results compared to parenteral administration of benzindene prostaglandins.


REFERENCES:
patent: 4306075 (1981-12-01), Aristoff
patent: 5153222 (1992-10-01), Tadepalli et al.
patent: 6054486 (2000-04-01), Crow et al.
patent: 0 159 784 (1985-10-01), None
W. M. Zapol et al., Pulmonary Circulation During ARDS, “Pulmonary Circulation During Adult Respiratory Distress Syndrome,” pp. 241-273 (1985).
W. W. Fox et al., Pediatrics, “Pulmonary Hypertension in the Perinatal Aspiration Syndromes,” vol. 59, No. 2, pp. 205-211 (1977).
A. R. Dworetz et al. Pediatrics, “Survival of Infants With Persistent Pulmonary Hypertension Without Extracorporeal Membrane Oxygenation,” vol. 84, No. 1, pp. 1-6 (1989).
G. J. Peckham et al., The Journal of Pediatrics, “Physiologic factors affecting pulmonary artery pressure in infants with persistent pulmonary hypertension,” vol. 93, No. 6, pp. 1005-1010 (1978).
R. C. Wetzel, Anesthesiology, “Aerosolized Prostacyclin,” vol. 82, No. 6 (1995).

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