Archive for November, 2006

Dr. and Mrs. Armitage named "Samaritans of the Year"

by Chuck Brown, UNMC public affairs


A regional counseling center is making official Thursday what the UNMC community has known for a long time — James Armitage, M.D., and his wife, Nancy, are good Samaritans.


The Armitages will receive the “Samaritan of the Year Award” from the Samaritan Counseling Center of the Midlands at a Thursday dinner at Omaha’s Holiday Inn Central Convention Center, 3321 S. 72nd St.


The Armitages are being honored for their dedication to community service, as well as their contributions to the global community, said Nizar Mamdani, executive director of the Office of International Healthcare Services at UNMC and The Nebraska Medical Center.


“Dr. Armitage has spent countless hours organizing and providing no-cost training to 76 health care professionals from 18 countries, and has treated hundreds of individuals worldwide,” Mamdani said. “His patient care and insightful global vision inspired me to set up the International Healthcare program. He was one of my main supporters from the program’s inception and continues to motivate me today.”


Dr. Armitage is currently a professor of oncology-hematology at UNMC. He had served as dean of the College of Medicine from 2000 to 2003 and may be best known for starting the bone marrow transplant program at UNMC in 1982. Before becoming COM dean, he served 10 years as professor and chairman of the internal medicine department.


Dr. Armitage also is considered one of the world’s top experts on lymphoma.


Nancy Armitage has been involved with many volunteer organizations and community-service projects, including her current position on the board of directors of the Samaritan Counseling Center of the Midlands, a non-profit, interfaith counseling center that provides low-cost social service to those in need.


“Nancy and I are honored to receive such an award,” Dr. Armitage said. “What is important, though, is that this evening brings attention to the Samaritan Counseling Center and the good work it is doing in our community.”


No couple is more deserving of such an award, said UNMC Chancellor Harold M. Maurer, M.D., who will serve as master of ceremonies for Thursday’s dinner.


“Anytime is a good time to honor the Armitages,” Dr. Maurer said. “Their contributions to UNMC, the state and the world-at-large have made life better for many people. It’s an honor to be in a position to draw attention to this wonderful couple.”


Seating for the event, which starts with a reception at 6:15 p.m. followed by a dinner at 7 p.m., is limited. Contact Beth Eliason at 625-2733 for tickets.

November 2006-Dr. McCashland to lead international transplant group

The International Liver Transplantation Society has elected UNMC associate professor Timothy McCashland, M.D., as its president.


Dr. McCashland was sworn in recently at the 2006 International Congress in Milan, Italy.


Throughout his one-year term, he will be responsible for representing the society, monitoring the strategic direction of the organization, serving as a voice for the membership and acting on the members’ behalf. As president, one of his key responsibilities will be to help shape the future agenda and direction of the society.


“Volunteer leadership is a critical component to the success of any association, and ILTS is fortunate to have such a dedicated individual leading the society,” said Diann Stern, ILTS executive director. “We are confident Tim’s leadership and expertise will be an asset to ILTS and help ensure continued growth and success for the association moving forward.”


Dr. McCashland said it is an honor and privilege to serve the society.


“Its unique ability to bring to together leaders in the field of transplantation … is exciting,” Dr. McCashland said. “We look to expand our role in providing educational opportunities for physicians in training and to be an informational resource for patients and families concerning liver transplantation.”


Dr. McCashland earned his medical degree from UNMC in 1987 and completed his internal medicine residency at UNMC in 1990. He served a fellowship in gastroenterology at UNMC before completing a fellowship in therapeutic endoscopy at Western General Hospital in Edinburgh, Scotland, in 1993. Dr. McCashland is board-certified in internal medicine and gastroenterology.


ILTS is an international organization dedicated to the advancement of the science and practice of liver transplantation. Since its inception in 1990, the goal of the society has been to raise the standard of care for patients requiring liver transplantation and to promote education and research by disseminating and exchanging information related to liver transplantation within the medical community, as well the public.

December 2006-Breast Cancer-Prediction For Future Treatment

Editorial by: James A. Edney, MD, Professor of Surgery and Chief of Surgical Oncology, University of Nebraska Medical Center, Omaha, Nebraska.


The modern management of breast cancer is evolving at a rapid rate. This editorial outlines the treatment advances that the author anticipates within the next decade.

 Within the next several years the Nipple will become the new target for early detection. The nipple is uniquely positioned to provide this information. The intraductal approach via nipple fluid aspiration and ductal lavage of the tributaries, where most breast cancer originates, will become the “Pap Smear” for the breast allowing us to recognize early morphologic changes years before small cancers would be detectable by mammography. By accessing the nipple we will be able to identify breast cancer or its precursors up to four years before it would be detectable by mammography.


Those individuals with a suspicious or frankly positive ductal lavage will undergo “ductoscopy”. This technology has already been developed. A disposable micro-endoscope as small as 0.9 mm. in diameter with working channels allowing the introduction of diagnostic and therapeutic tools is already available. In addition to potentially identifying intraductal abnormalities years before they are visible by mammography, this technology will allow future surgeons to use this as an aid in planning the extent of surgical resection minimizing the amount of tissue requiring removal.


Work is underway to identify biomarkers for susceptibility to breast cancer or recognize those individuals who may be harboring an occult cancer too small to be identified even with the most sophisticated imaging technology available. In our own laboratory we are analyzing breast tissue specimens harvested from patients with and without breast cancer and have found estrogen metabolites and conjugates [e.g. 4-catechol estrogen] up to four times higher in breast cancer patients than in the non breast cancer controls. These results are the initial ones in studies designed to identify serum markers to identify those individuals with occult disease and those who are at greatest risk. Through Genetic Engineering strategies will be developed to prevent breast cancer altogether in selected subsets of patients.


Within the next 10 years lumpectomy for small tumors will be replaced by tissue ablation. The technology is currently available and feasibility trials are underway. Radio- Frequency ablation, technology that is widely available and commonly used in the management of neoplasms of the liver, is being evaluated as primary management of selected breast cancers. In this technique, the probe is percutaneously placed, usually by ultrasound guidance into the tumor. Thermal energy is produced as the ions in the breast tissue surrounding the prongs attempt to follow the alternating current, thus creating frictional heating. As a result the breast tissue itself, not the probe, creates the heat to destroy tumor cells.


Investigators are examining the role of tissue freezing as an alternative to surgical excision. Like Radio-Frequency ablation, cryoablation requires ultrasound visualization of the lesion for performance of the procedure.  Just as in the management of liver metastases, the objective is to visualize an “ice ball” around the lesion to assure adequate margins while preserving surrounding normal tissue.


Work is currently underway evaluating laser ablation of tumors using the same stereotactic guidance technology currently being used for minimally invasive breast biopsy. The Laser needle is inserted into the center of the tumor, the stylette is removed and the laser emitting optic fiber is inserted through the needle. A second probe is inserted parallel and 1 cm adjacent to the laser needle to monitor tissue temperature and a predetermined amount of laser energy is delivered to the tumor.


These methods of “ablative” therapy will be ideally suited for the treatment of the smaller tumors, less than 2 cms. in diameter, that are being detected with increasing frequency in screening programs and will replace surgical excision. As a cautionary aside, the surgeon with limited imaging skills will no longer be the primary provider for women with breast disease.


For many patients pondering their treatment options, the protracted five to six week course of radiation therapy, essential for breast conservation, weighs heavily in their decision to undergo mastectomy. Studying the pattern of clinical recurrence, over 80% of local recurrences after breast conservation surgery occur at the site of the original resection. Preliminary work indicates that localized radiation to the site of resection alone may produce equivalent results to whole breast radiation. Using simplistic technology already available, at the time of initial operation the surgeon may leave behind a catheter with a balloon attached to the end within the cavity of resection. The balloon is then loaded through the catheter with a radioactive agent for five to ten minute treatments twice a day for five days.


If 5 days seems too long, intraoperative radiotherapy will replace postoperative treatment. Umberto Veronesi from Milan has done preliminary trials with breast conserving surgery plus intraoperative radiation. He has shown that it is possible to deliver up to 21 Gy intraoperatively, which biologically is identical to the 55 Gy of external beam treatments now being used.


Within several years it will be possible to offer all local and regional therapy including tumor ablation, axillary sentinel node biopsy, and intraoperative radiotherapy, providing all local regional treatment in a one hour operation as opposed to the 8-10 weeks now necessary.


As we gain a better understanding of the genetic aspects of breast cancer and the specific prognostic indicators for selected patients that promote local recurrence and facilitate the development of systemic metastases, we will develop “smart drugs”, such as Herceptin that will attack specific genetic abnormalities for appropriate patients, eliminating the need for the current “shotgun” approach used to treat large numbers of patients with cytotoxic agents. Basically Herceptin is a “smart drug” which blocks the Her-2/neu receptors on the surface of the cell of those individuals who have been identified as “overexpressing” the Her-2/neu gene and prevents growth factor molecules from attaching.


Within the next 30 years our current approach to breast cancer will be obsolete. Public health screening of 90% of the women with more sophisticated breast imaging, including digital mammography and Magnetic Resonance Imaging will further reduce the mortality to the 10% range. “Pap Smears” of the breast using ductal lavage in concert with ductal endoscopy will identify breast cancers at such an early stage that we will be able to treat over 90% of patients with “minimallistic” procedures using radiofrequency probes, laser ablation, or cryotherapy probes under stereotactic guidance. In these early tumors axillary metastases will be uncommon and will be detected by sentinel node biopsy. Axillary node dissection will be rarely indicated.


Mastectomy will be reserved for the rare patient with multi focal cancer or therapeutically resistant or recurrent cancer. Patients will receive localized radiation therapy delivered intraoperatively only to the excision site to sterilize the surgical margins. Many patients will be able to avoid radiation therapy altogether because of the extremely small size of the tumor.


Medical oncologists will treat many fewer breast cancer patients and of those, most will receive “smart drugs” based on genetic indicators as opposed to cytotoxic chemotherapy. New drugs will be custom designed to treat specific genetically identified abnormalities. Anti-angiogenic compounds or gene manipulation of selected patients will offer possible hope for the small number of patients with metastatic disease.


Within the next 15-20 years current treatment will be unrecognizable. Just as we now recall the “Halsted Era” when insufficiently radical breast surgery was considered nothing less than surgical cowardice, within the next several decades we will look back at the treatment modalities we are using today as draconian and unnecessarily mutilating.