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J. Birk
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P1.12 - Poster Session/ Community Practice (ID 232)
- Event: WCLC 2015
- Type: Poster
- Track: Community Practice
- Presentations: 2
- Moderators:
- Coordinates: 9/07/2015, 09:30 - 17:00, Exhibit Hall (Hall B+C)
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P1.12-003 - Acquistion of and Early Clinical Results of Electromagnetic Navigational Bronchoscopy for Diagnosis of Lung Cancer in a Community Setting (ID 956)
09:30 - 09:30 | Author(s): J. Birk
- Abstract
Background:
Electromagnetic Navigational Bronchoscopy (ENB) is an emerging technology to assist in obtaining a tissue diagnosis from suspicious lung nodules or masses. Despite the recognized advantages of having access to ENB technology, there are barriers to procure such expensive technology and effectively implement it. Acquiring and leveraging ENB technology is dependent on diverse considerations for community need, financial feasibility, patient / referral work flow and synergy with complimentary diagnostics and programs, proper coding and revenue cycle management and associated service development and marketing. There are many elements to implementing and achieving acceptable results which include the initial capital planning and service optimization, maximizing utilization, learning the techniques with enhanced competency and the handling and management of the specimens once obtained. Herein, we describe our approach to procuring the technology and early clinical results.
Methods:
ENB technology was purchased after partnering with the parent company (Covidien) and our health system's business development department, to perform a market analysis as well as a return on investment that integrated multiple service lines and hospital costs centers. From these data, a business plan was created and ultimately approved by the Foundation Board. All ENBs (SuperDimension®) were performed under general anesthesia by a single thoracic surgeon in the operating room, using a therapeutic bronchoscope inserted through a 9 endotracheal tube. Almost all procedures utilized fine needle aspiration, brushings, biopsies and washings. The biopsy phase of the procedure was done under fluoroscopy. Cytologic slide review via Rapid Onsite Evaluation (ROSE) was performed by a pathologist in the operating room in 100% of the cases. Results were obtained by retrospective review of a prospective database. Time period of study was 12/11/13-03/30/14.
Results:
72 total ENB cases were performed in the time period of which 52 were for suspected malignancy. There were no pneumothoraces or bleeding complications. Two patients had to be admitted for 23 hours secondary to poor respiratory function following procedure. Of the 52 suspected malignancies, 33 (64%) were found to be a primary lung cancer, 7 were atypical and 12 benign or non-diagnostic. 5 of the patients with atypia went on to surgical resection and were found to have lung adenocarcinoma.
Conclusion:
ENB is an emerging technology with promising results for tissue diagnosis of lung nodules suspected of being malignant. Implementing new and costly technologies in smaller healthcare systems, such as a regional hospital, can be challenging. Some of the barriers to implementation are finding the capital and justification for procuring the technology, perfecting the technique and securing support from pathology, anesthesiology and operating room time. By partnering with industry and our business department, we were able to justify procurement of ENB technology. In our first 72 cases, 52 were for suspected malignancy. A diagnosis of lung cancer was achieved in 64% of lung lesions, with a low complication rate (2/72). Our results compare favorably to published results of trans thoracic needle biopsies as well as within our own health system. Initiating and implementing an ENB program in a community setting is feasible with acceptable results.
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P1.12-008 - Components of Creating and Implementing a Comprehensive Lung Cancer Program in a Community Setting (ID 2424)
09:30 - 09:30 | Author(s): J. Birk
- Abstract
Background:
Many communities do not have a comprehensive, evidence based approach to lung cancer diagnosis, staging and treatment. This is often secondary to lack of providers in the area with expertise in lung cancer as well as lack of appropriate diagnostic and treatment modalities. Herein we describe the creation and implementation of a comprehensive lung cancer program in a community setting.
Methods:
A regional health system that serves a population with a relatively high incidence of lung cancer, recruited an experienced general thoracic surgeon, with expertise in the diagnosis, staging and treatment of lung cancer. The community had a pre-existing cardiac surgery program, a cancer center that provided chemotherapy and traditional radiation, a PET scanner and 2 CT scanners.
Results:
The study period was 9/1-2012 to 4/1/2015 which spans the time after the introduction of the general thoracic surgeon in the community to present. Under the leadership of the thoracic surgeon, the following was accomplished: 1. An extensive outreach campaign to primary care physicians as well as directly to the community regarding lung cancer awareness, modern diagnostic, staging and treatment modalities. 2. Establishment of a pulmonary nodule clinic to provide expertise and continuity in the evaluation of pulmonary nodules. 3. The establishment of a lung cancer CT screening program, 4. Evolution of the tumor board from a once a month meeting, reviewing an average of 3.1 patients retrospectively and an average attendance of 3.6 attendees to currently meeting weekly, prospectively reviewing an average of 8.6 cases per meeting (>90% lung cancer) and an average attendance of 9.3 attendees including thoracic surgery, medical and radiation oncology, pathology, social work and a rotation of surgeons, pulmonologists and primary care physicians. 5. The procurement and implementation of Electromagnetic Navigational Bronchoscopy to the community to obtain tissue diagnosis of suspected lung lesions. 6. The procurement and implementation of Endobronchial Ultrasound for the minimally invasive pathologic staging of appropriate lung cancer patients. 7. The procurement and participation in the Society of Thoracic Surgery (STS) General Thoracic Surgery Database for registration of patient outcomes and national comparison. 8. The introduction of VATS lobectomies and complex open resections. 9 400 new thoracic surgical cases to the Regional Medical Center. 10. 54 cases of multimodallity therapy for lung cancer patients compared with 4 the previous two years. 11. The establishment of stereotactic body radiation therapy (SBRT) as a treatment alternative to surgery for medically inoperable stage I lung cancer patients.
Conclusion:
It is possible to create a de novo comprehensive lung cancer program in a community setting with the appropriate expertise and leadership. General thoracic surgeons with expertise in current lung cancer diagnostics, staging and treatment options are uniquely positioned to provide the expertise and leadership to create a comprehensive lung cancer program as they are integrally part of assessing pulmonary nodules, establishing diagnosis, rigorously staging lung cancer and treatments including surgery, radiation chemotherapy and multimodality regimens. This approach could serve as a paradigm for similar communities to bring current, evidence based lung cancer diagnostics and treatment to their region.