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The Journal of Thoracic and Cardiovascular Surgery, Vol 95, 562-571, Copyright © 1988 by The American Association for Thoracic Surgery and The Western Thoracic Surgical Association

ARTICLES

Non-small cell lung cancer in autogenous subcutaneous bronchial grafts in dogs

MJ Derrick, WG Hammond, HY Pak, N Azumi, SS Smith and JR Benfield
Division of Surgery, City of Hope Medical Center, Duarte, Calif.

The progression of preneoplasia into lung cancer can be serially studied in a new canine model that is simpler and more cost effective than previously reported methods of orthotopic endobronchial carcinogenesis. Short segments of bronchus, obtained by pneumonectomy, were placed on the back of 10 dogs in the form of subcutaneous bronchial autografts. These autografts (12 to 14 per dog) became vascularized and lined with normal respiratory epithelium. Four to 12 weeks after autograft implantation, 10% methylcholanthrene in crystalline form was put into 57 autografts and 10% methylcholanthrene in a silicone polymer sustained-release implant was placed into 54 autografts. Ten autografts without carcinogen (one per dog) served as controls. Serial samplings of each autograft during 9 to 97 weeks of carcinogen exposure showed the neoplastic progression from normal bronchial cells to invasive cancer through stages such as atypical squamous metaplasia and carcinoma in situ. To date, cancers have been histologically proved in 60 autografts; 36 were induced by implants and 24 by the crystalline form. Thirty-nine cancers were epidermoid, and the remainder were either adenocarcinomas (n = 3) or poorly differentiated spindle cell cancers (n = 18). The sustained-release implant method resulted in larger autografts with a greater tendency to progress to cancer than the crystalline carcinogens (p greater than 0.025). Therefore, the sustained-release implant is now considered the preferred method. Measurement of nuclear deoxyribonucleic acid by image analysis of nine histologic cancers demonstrated hyperploidy. Deoxyribonucleic acid from the L1 repeated sequence family was demonstrably hypomethylated in spindle cell tumors. Curettement of individual autografts yielded sheets of respiratory epithelium from which 43.5 to 409.5 micrograms of deoxyribonucleic acid was isolated. For the first time, deoxyribonucleic acid from each stage of the neoplastic progression in non-small cell lung cancer is available in adequate quantities for serial biochemical and therapeutic analysis.

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