New Findings Could Be Practice-changing for the Treatment of Locally Advanced Soft Tissue Sarcoma

Patients with soft-tissue sarcomas at high risk of spreading were 30% more likely to be alive and cancer free almost three years after starting treatment if their tumours were heated at the time they received chemotherapy, according to new research. The finding bolsters the case for intensifying exploration of the strategy in other types of cancer.

The study, which found that the addition of the innovative heat technique more than doubled the proportion of patients whose tumors responded to chemotherapy without increasing toxicity, is also the first to show that any treatment other than surgery followed by radiation can prolong survival of this type of patient.

“These findings provide a new standard treatment option and we believe they are likely to change the way many specialists treat these tumors,” said the study’s leader, Professor Rolf Issels, a professor of medical oncology at Klinikum Grosshadern Medical Center at the University of Munich in Germany, who presented the results in Berlin, Germany, at Europe’s largest cancer congress, ECCO 15 – ESMO 34, the joint 15th European CanCer Organisation (ECCO) and 34th European Society for Medical Oncology (ESMO) Multidisciplinary Congress, September 20 – 24), meeting in Berlin, Germany.

“But the implications of these findings are more far-reaching,” Issels said. “This is also the first clear evidence that targeted heat therapy adds to chemotherapy. We expect our findings will encourage other researchers to test the approach in other locally advanced cancers. Targeted heat therapy has already shown promise in recurrent breast and locally advanced cervical cancer in combination with radiation and studies combining it with chemotherapy in other localized tumors such as those in the pancreas and rectum are ongoing.”

Soft tissue sarcomas involve cancer that starts in the soft, supporting tissues of the body, such as muscle, fat, blood vessels, nerves, tendons, tissue around the joints and deep layers of the skin. They are relatively rare, accounting for about three percent of all cancers, but are more common in children and young adults. Surgery is the primary treatment, but sometimes these tumors are difficult to remove completely, so they are often also treated with radiotherapy and sometimes chemotherapy. However, in cases where the disease is localized, the benefits of chemotherapy have been shown to be limited. In high-risk patients, any relapse usually occurs within two or three years. Survival varies widely depending on the location and severity of the tumor, with abdominal sarcomas being the most deadly.

The phase III study involved 341 patients being treated at several centers in Europe and the United States between July 1997 and November 2006 for locally advanced soft tissue sarcomas that were at high risk of recurrence and spread. More than half of the tumors were located in the abdomen, while the rest were in the arms and legs. All patients were given chemotherapy before and after surgery and radiotherapy.

Half were randomly given targeted heat treatment along with the chemotherapy. The technique, known as regional hyperthermia, uses focused electromagnetic energy to warm the tissue in and around the tumor to between 40 and 43 degrees Celsius (104 – 109.4 degrees Fahrenheit). The heat not only kills cancer cells, but it also seems to make chemotherapy work better by making cancer cells more sensitive. It also improves blood flow, which allows chemotherapy to be more effective.

After an average follow-up of 34 months, only 153 patients (44.9%) in total had died. The improvement in overall survival was not statistically meaningful when all patients were analyzed, but an analysis of the 269 who completed the full treatment of either four cycles of initial chemotherapy alone or four chemotherapy cycles and eight heat treatments found that those who got the heat therapy were 44% less likely to die during the follow-up period than those who got chemotherapy alone.

“The patients receiving the targeted heat therapy fared better on all outcome measurements,” Issels noted. “Almost three years after starting treatment, they were 42% less likely to experience a recurrence of their cancer at the same site or to die than those who were getting chemotherapy alone, surviving an estimated 120 months before local progression of their disease, compared with an estimated 75 months. Similarly, the average length of time that patients remained disease free was 32 months in the group that got both treatments, compared with 18 months in the group that got chemotherapy alone – an improvement of 30%.”

At two years, 76 percent of the patients in the heat therapy group were still alive without local progression of their cancer, compared with 61 percent in the chemotherapy alone group. The proportion of patients who experienced tumor shrinkage rose from 12.7% in the chemotherapy alone group to 28.8%, while the proportion of patients who saw their tumor grow was 6.8% in the heat therapy group, compared with 20% in the chemotherapy alone group.

The most frequent side effect of the heat therapy was mild to moderate discomfort, reported in 45% of patients. The most serious side effect was severe burns, seen in one patient (0.6%). Blisters occurred in 17.8%.

“This strategy has been in development for about 20 years, with about 150 leading groups studying it, but the clear results of this trial show that the field has now matured to the point where we must step up efforts to explore its potential to offer an entirely new way of treating locally advanced disease in several major cancers,” explained Issels. “That will take investment from public funders to underwrite trials that investigate, for instance, whether it will be possible to reduce the dose of chemotherapy drugs by boosting their effectiveness with targeted heat therapy and whether the technique can enhance the effectiveness of newer targeted drugs.”

"Other questions remaining include whether targeted heat therapy can play a role in stimulating the immune system to more effectively attack cancer," Issels said, adding that "studies of heat shock protein therapy indicate that they may activate the immune system against the disease."

The study was funded by the German Cancer Foundation, Deutsche Krebshilfe and the Helmholtz Assocation, Germany’s largest scientific organization.

For more information:

• Abstract no: 1 LBA. Presidential session II, Tuesday 12.15-14.15 hrs CEST (Hall 1)

Potential Breakthrough Targeted Drug Delivery in Cancer Treatment

IsoFlow™, an infusion catheter designed for the direct delivery of medication into highly targeted areas, may be an important breakthrough for the treatment of patients with cancer.

The concept of IsoFlow Infusion catheter is developed by Robert Goldman, founder of Vascular Designs, a medical device company based in San Jose, CA. The company today announced that it has secured 510(k) marketing clearance by the U.S. Food and Drug Administration (FDA) for this device.

The IsoFlow Infusion catheter enables sideways perfusion, which allows physicians to precisely target and isolate areas within the body where the infused drugs are delivered. With IsoFlow's unique design, medications can be delivered into areas that could not previously be treated directly, for instance, a cancerous tumor. According to numerous studies, this approach lets physicians increase drug concentrations at targeted sites while reducing systemic exposure, thereby improving efficacy and patient outcomes when treating illnesses such as cancer with chemotherapy.

"In select clinical situations, the benefits of delivering a local endovascular drug dose without systemic exposure can reduce complications, improve results, and benefit patients," said Dr. Michael Dake, former chief of interventional radiology and current professor of cardiothoracic surgery at Stanford University School of Medicine. "The IsoFlow catheter facilitates the use of regional infusion therapies, especially in cases of challenging arterial anatomy where it helps achieve these promises of targeted delivery. IsoFlow is a valuable addition to our treatment arsenal."

IsoFlow is a dual balloon catheter designed to isolate a specific treatment region within the body from blood flow. It allows the infusion of fluids into the region and the perfusion of blood past the region to keep the blood flow intact during treatment. One of the many unique features of the IsoFlow infusion catheter is the ability to deliver medications sideways while using pressure to push the medication into the targeted area. The IsoFlow catheter is inserted over a guide wire for precise positioning within a patient's body. Once in place, medication is infused and isolated when both of the catheter's balloons are simultaneously inflated using fluid via a single inflation lumen.

"We are thrilled to receive FDA 510(k) marketing clearance after working on the IsoFlow catheter for more than seven years," said Robert Goldman, CEO and founder of Vascular Designs. "But what is most important is that individuals battling life-threatening illnesses will have a breakthrough treatment option to pursue with highly targeted drug delivery."

"IsoFlow could have a huge impact on the way many of today's deadliest illnesses such as cancer are treated. This method of local delivery may cause tumors that were previously unresponsive to systemic chemotherapy to respond. Additionally, the IsoFlow catheter may be able to provide treatment for a number of other medical conditions for which local delivery would be an ideal option," continued Goldman. "The potential applications of IsoFlow are exciting. We are looking forward to seeing how physicians will leverage this breakthrough catheter medical device into practice and the impact that it will surely make on the prognosis of so many patients."

Vascular Designs has received FDA 510(k) marketing clearance for IsoFlow, which enables the direct delivery of medications into targeted areas. An important application for the IsoFlow catheter may be in the treatment of cancer.

For more information:

• Click here to view an animation detailing this IsoFlow Infusion catheter process

Also read these articles:

• Chrysos, E., et al. Treatment of Unrescectable Malignant Abdominal, Pelvic and Thoracic Tumors Using Abdominal Pelvic and Thoracic Stop-flow Chemotherapy. Anticancer Research, Sept.-Oct. 2001. 21(5):3669-3675.
• Collins, J.M., Pharmacologic Rationale for Regional Drug Delivery. Journal of Clinical Oncology, Vol. 2, 498-504. 1984.
• Lygidakis, N.J., Sgourakis, G. and Aphinives, P. Upper Abdominal Stop-flow Perfusion as a Neo and Adjuvant Hypoxic Regional Chemotherapy for Resectable Gastric Carcinoma: A Prospective Randomized Clinical Trial. Hepatogastroenterology, May-Jun. 1999. 46(27): 2035-2038.
• Miotto, D., et al. Hypoxic Antiblastic Stop-flow Perfusion: Clinical Outcome and Pharmacokinetic Findings. Journal of Chemotherapy, Nov. 16, 2004. Suppl. 5: 44-47.
  Pilati, P., et al. Stop-flow Technique for Loco-regional Delivery of Antiblastic Agents: Literature Review and Personal Experience. European Journal of Surgical Oncology, Aug. 28, 2002. 544-553.