Surgery – Internal organ support or sling
Reexamination Certificate
2000-03-23
2001-12-11
Winakur, Eric F. (Department: 3736)
Surgery
Internal organ support or sling
C601S153000
Reexamination Certificate
active
06328689
ABSTRACT:
BACKGROUND OF THE INVENTION
The present invention is generally directed to an apparatus and method for constricting at least a portion of a lung and which may be used for suppressing air leakages in lung tissue or for treating Chronic Obstructive Pulmonary Disease (COPD). The present invention is more particularly directed to such an apparatus which may be implanted in the human body and to a method for readily applying the apparatus to at least a portion of a lung.
Chronic Obstructive Pulmonary Disease (COPD) has become a major cause of morbidity and mortality in the United States over the last three decades. COPD is characterized by the presence of airflow obstruction due to chronic bronchitis or emphysema. The airflow obstruction in COPD is due largely to structural abnormalities in the smaller airways. Important causes are inflammation, fibrosis, goblet cell metaplasia, and smooth muscle hypertrophy in terminal bronchioles.
The incidence, prevalence, and health-related costs of COPD are on the rise. Mortality due to COPD is also on the rise. In 1991 COPD was the fourth leading cause of death in the United States and had increased 33% since 1979.
COPD affects the patient's whole life. It has three main symptoms: cough; breathlessness; and wheeze. At first, breathlessness may be noticed when running for a bus, digging in the garden, or walking up hill. Later, it may be noticed when simply walking in the kitchen. Over time, it may occur with less and less effort until it is present all of the time.
COPD is a progressive disease and currently has no cure. Current treatments for COPD include the prevention of further respiratory damage, pharmacotherapy, and surgery. Each is discussed below.
The prevention of further respiratory damage entails the adoption of a healthy lifestyle. Smoking cessation is believed to be the single most important therapeutic intervention. However, regular exercise and weight control are also important. Patients whose symptoms restrict their daily activities or who otherwise have an impaired quality of life may require a pulmonary rehabilitation program including ventilatory muscle training and breathing retraining. Long-term oxygen therapy may also become necessary.
Pharmacotherapy may include bronchodilator therapy to open up the airways as much as possible or inhaled &bgr;-agonists. For those patients who respond poorly to the foregoing or who have persistent symptoms, Ipratropium bromide may be indicated. Further, courses of steroids, such as corticosterocds, may be required. Lastly, antibiotics may be required to prevent infections and influenza and pheumococcal vaccines may be routinely administered. Unfortunately, there is no evidence that early, regular use of pharmacotherapy will alter the progression of COPD.
Lung transplantation is also an option. Today, COPD is the most common diagnosis for which lung transplantation is considered. Unfortunately, this consideration is given for only those with advanced COPD. Given the limited availability of donor organs, lung transplant is far from being available to all patients.
About 40 years ago, it was first postulated that the tethering force that tends to keep the intrathoracic airways open was lost in emphysema and that by surgically removing the most affected parts of the lungs, the force could be partially restored. Although the surgery was deemed promising, the procedure was abandoned.
The lung volume reduction surgery (LVRS) was later revived. In the early 1990's, hundreds of patients underwent the procedure. However, the procedure has fallen out of favor due to the fact that Medicare stopped remitting for LVRS. Unfortunately, data is relatively scarce and many factors conspire to make what data exists difficult to interpret. The procedure is currently under review in a controlled clinical trial. However, what data does exist tends to indicate that patients benefited from the procedure in terms of an increase in forced expiratory volume, a decrease in total lung capacity, and a significant improvement in lung function, dyspnea, and quality of life.
Improvements in pulmonary function after LVRS have been attributed to at least four possible mechanisms. These include enhanced elastic recoil, correction of ventilation/perfusion mismatch, improved efficiency of respiratory musculature, and improved right ventricular filling.
The improvements in pulmonary function resulting from LVRS cannot be ignored. However, the surgery is very invasive and fraught with complications.
Among the complications is the potential for lung air leaks. Lung tissue is very thin, and fragile hence difficult to suture together. After a lung portion is sectioned and removed, the remaining lung is most often restructured with suture staples. In about thirty percent (30%) of the cases, the difficulty with suturing lung tissue results in air leaks. Treatment for such air leaks depends upon their severity and often, in the most serious cases, requires further open chest surgery.
Air leaks in lungs can be caused by other causes. With increasing age, a patient may develop a weakened section of lung which may then rupture due to an extreme pressure differential, such as may result from simply a hard sneeze. AIDS patients can suffer from air leaks in their lungs. Air leaks in lungs can further be caused by a puncture from a broken rib or a stab wound.
The present invention provides a lung constriction device and method for suppressing such air leaks in lung tissue. The air leak suppression, in accordance with the present invention, does not require any suturing of the effected lung tissue. Still further, by constricting a large enough portion of a lung in accordance with the present invention, lung volume reduction with the concomitant improved pulmonary function may be obtained without the need for any suturing of lung tissue at all.
SUMMARY OF THE INVENTION
The invention provides a lung constriction device including a jacket of flexible material configured to cover at least a portion of a lung. The jacket has a pair of opened ends to permit the lung portion to be drawn into the jacket. The jacket is dimensioned to constrict the lung portion after the lung portion is drawn therein.
The invention still further provides a lung constriction device including a member formed of expandable material, the member being configured for receiving a lung portion when forced into an expanded enlarged condition by an expansion force, and contractible about the lung portion upon release of the expansion force for constricting the lung portion.
The invention still further provides a method of constricting at least a portion of a lung. The method includes the steps of providing a jacket formed of flexible material and configured to cover the lung portion and drawing the lung portion into the jacket. The jacket may be formed of expandable flexible material to expand the jacket into an expanded condition, while drawing the lung portion into the jacket. The expansion of the jacket may thereafter be released to permit the jacket to contract about the lung portion and constrict the lung.
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Gonzalez Hugo X.
Muff Diane M.
Sirokman William A.
Graybeal Jackson Haley LLP
Spiration, Inc.
Veniaminov Nikita R
Winakur Eric F.
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