Prophylactic cranial irradiation for patients with small-cell lung cancer in complete remission

Irradiation prophylactique cérébrale dans les cancers bronchopulmonaires non à petites cellules

Prophylactic cranial irradiation (PCI) has become part of the standard treatment in patients with small cell lung cancer (SCLC) in complete remission. Not only does it decrease the risk of brain recurrence by almost 50%, it has a significant positive effect on survival (5.4 percent increase at 3 years). As the prognosis of patients with locally advanced non-small cell lung cancer (NSCLC) has improved with combined modality treatment, brain metastases have also become an important cause of failure (10 to 30%, approaching 50% in certain studies as in SCLC). Survival after treatment of brain metastases is poor and impact on quality of life of patients is important. As in SCLC, 4 randomised evaluating PCI in NSCLC have been carried out in the seventies and early eighties. If 3 out of 4 trials have shown a significant decrease of brain metastases, none of them demonstrated any impact on survival. Thus PCI cannot be recommended as standard treatment in NSCLC, however new trials would be needed.

Small-cell lung cancer with lymphadenopathy in an 18-year-old female nonsmoker

BACKGROUND

An asymptomatic 18-year-old female presented in December 2002 with a left pulmonary mass, and an enlarged mediastinum and left hilum, detected on a routine chest X-ray. She had never smoked, and had no history of exposure to known carcinogens, no history of serious illnesses and no family history of malignancy. Superficial lymph nodes were not palpable. A CT scan of the chest disclosed a round tumor in the left lower lobe and marked enlargement of the ipsilateral hilar and mediastinal lymph nodes.

INVESTIGATIONS

CT scan of the chest, routine hematological study, sputum smear and culture for acid-fast bacilli, transbronchial lung biopsy, serum tumor markers, CT scan of the abdomen, MRI scan of the head, bone scintigraphy, lung function tests, blood gas analysis, pathological examination including hematoxylin-eosin staining and immunohistochemistry using chromogranin A, CD56 (neural cell adhesion molecule), and cytokeratin antibodies.

DIAGNOSIS

Limited-stage small-cell lung cancer (T1N2M0, clinical stage IIIA).

MANAGEMENT

Etoposide plus cisplatin chemotherapy with concurrent accelerated hyperfractionated thoracic radiotherapy, left pneumonectomy and lymph-node dissection.

Gamma Knife surgery for metastatic brain tumors without prophylactic whole-brain radiotherapy: results in 1000 consecutive cases

Object

The authors analyzed the effectiveness of Gamma Knife surgery (GKS) for metastatic brain tumors without adjuvant prophylactic whole-brain radiotherapy (WBRT). Salvage GKS was performed as the sole treatment for new distant lesions.

Methods

Among 1127 patients in whom new brain metastases had been diagnosed, 97 who met one or more of the following three criteria were excluded from the study: any surgically inaccessible huge (≥ 35 mm) lesion; tumor number and size requiring an internal skull dose exceeding 10 J; or symptomatic carcinomatous meningitis. Thus, 1030 consecutive patients formed the basis for this study. Huge tumors were totally removed, whereas smaller lesions were treated with GKS. No adjuvant WBRT was given prior to GKS, and new distant lesions were appropriately retreated with GKS. Overall, neurological and new lesion–free survival curves were calculated and the prognostic values of covariates were obtained. In total, 1853 separate GKS sessions were required to treat 10,163 lesions.The patients' median overall survival period was 8.6 months. Neurological survival and new lesion–free rates at 1 year were 89.1 and 49.3%, respectively. In a multivariate analysis, the significant factors for poor prognosis were the development of more than four new brain metastases and active extracranial disease.

Conclusions

In meeting the goal of preventing neurological death and maintaining activities of daily living for patients with brain metastases, GKS alone provides excellent palliation without prophylactic WBRT. New distant lesions were quite well controlled with GKS salvage treatment alone.

Combined modality therapy for stage III non-small cell lung cancer

Lung cancer remains the leading cause of cancer death in the U.S. among both men and women. Approximately 45% of patients present with stage III disease. A proportion of these patients is amenable to surgical resection; however, the majority are "unresectable." For patients with unresectable stage IIIA/B disease, thoracic radiation therapy (TRT) was considered the standard of care until the late 1980s despite a very poor 5-year survival rate. Several clinical trials demonstrated that the combination of chemotherapy and TRT was superior to TRT alone. Based on these data, combined modality therapy became the standard of care for patients with good performance status. Recent trials have shown that concurrent chemoradiotherapy offers a significant survival advantage over sequential chemoradiotherapy. Despite a substantial number of clinical trials, important questions on the optimal treatment paradigm remain. The most effective chemotherapy combination, the use of induction or consolidation chemotherapy in addition to the concurrent portion of therapy, and the optimal dose of chemotherapy with concurrent TRT have yet to be determined. The optimal total dose, fractionation, acceleration, treatment volume, and tumor targeting remain questions related to the TRT portion of therapy. Although significant progress has been made, the majority of patients experience locoregional or distant progression of their disease and die within 5 years of diagnosis. Thus, continued development and participation in clinical trials is crucial to further improvements in the treatment of patients with stage III disease.

Optimizing therapy for patients with brain metastases

Brain metastases from systemic cancers are the most common malignant brain tumors encountered. Although prognosis remains poor, it is possible to stratify patients according to risk. Furthermore, an aggressive therapeutic approach for good-risk patients that includes a combination of either surgery or stereotactic radiosurgery (SRS) and whole brain radiation therapy (WBRT) can improve survival and decrease the risk of central nervous system progression.

Decision Analysis for Prophylactic Cranial Irradiation for Patients With Small-Cell Lung Cancer

Purpose

Prophylactic cranial irradiation (PCI) has been shown to provide survival benefit in patients with limited disease small-cell lung cancer (LD-SCLC) who have achieved complete response. However, PCI may also produce long-term neurotoxicity (NT). The benefits and risks of PCI in LD-SCLC are evaluated.

Methods

We developed a decision-analytic model to compare quality-adjusted life expectancy (QALE) in a cohort of SCLC patients who do or do not receive PCI by varying survival rates and the frequency and severity of PCI-related NT. Sensitivity analyses were applied to examine the robustness of the optimal decision.

Results

At current published survival rates (26% 5-year survival rate with PCI and 22% without PCI) and a low NT rate, PCI offered a benefit over no PCI (QALE = 4.31 and 3.70 for mild NT severity; QALE = 4.09 and 3.70 for substantial NT severity, respectively). With a moderate NT rate, PCI was still preferred. If the PCI survival rate increased to 40%, PCI outperformed no PCI with a mild NT severity. However, no PCI was preferred over PCI (QALE = 5.72 v 5.47) with substantial NT severity. Two-way sensitivity analyses showed that PCI was preferred for low NT rates, mild NT severity, and low long-term survival rates. Otherwise, no PCI was preferred.

Conclusion

The current data suggest PCI offers better QALE than no PCI in LD-SCLC patients who have achieved complete response. As the survival rate for SCLC patients continues to improve, NT rate and NT severity must be controlled to maintain a favorable benefit-risk ratio for recommending PCI.

Treating brain metastases: current approaches and future directions

Brain metastases frequently present with neurologic signs or symptoms in a patient with a history of cancer. The finding of a brain metastasis is usually associated with terminal disease. However, patients with brain metastases are a heterogeneous group. Therefore, the treatment of brain metastases must be tailored to each individual patient. In this article, which patients with brain metastases benefit from surgical resection, radiosurgery and whole-brain radiation therapy are reviewed. Reports of treating patients with brain metastases with chemotherapy are also reviewed and data that supports prophylactic treatment of the brain for select patients is discussed. This review aims to provide a framework for treating patients with different presentations of brain metastases and to highlight important avenues for future research.

The Role of Radiation Therapy in Thoracic Tumors

Radiation plays an important role in the treatment of thoracic tumors. During the last 10 years there have been several major advances in thoracic RT including the incorporation of concurrent chemotherapy and the application of con-formal radiation-delivery techniques (eg, stereotactic RT, three-dimensional conformal RT, and intensity-modulated RT) that allow radiation dose escalation. Radiation as a local measure remains the definitive treatment of medically inoperable or surgically unresectable disease in NSCLC and part of a multimodality regimen for locally advanced NSCLC, limited stage SCLC, esophageal cancer, thymoma, and mesothelioma.

Current and evolving treatment options for limited stage small cell lung cancer

PURPOSE OF REVIEW

About one-third of small cell lung cancer cases are classified as limited stage. Trials have attempted to establish the most effective, least toxic regimen of combined modality treatment. Recently, issues like the role of the positron emission tomography scan, elderly patient management and the timing and delivery of radiotherapy have been addressed. Several targeted agents have also been evaluated. This review will highlight the data that have greatly impacted on the standard of limited stage small cell lung cancer care.

RECENT FINDINGS

Trials have concluded that small cell lung cancer is fluorodeoxy-D-glucose avid and that positron emission tomography has potential for utility in staging and radiation therapy planning, though it is not recommended. Recent trials confirm no benefit to adding chemotherapeutic agents to standard cisplatin and etoposide. To date, all targeted therapies have failed to show impressive results. Two analyses of outcomes in elderly patients argue that combined modality therapy should be considered, with patients carefully monitored. Two meta-analyses demonstrate thoracic radiotherapy should be delivered, with increased dose and schedule intensity.

SUMMARY

Current data demonstrate that combined modality therapy with early administration of thoracic radiotherapy remains the care standard in limited stage small cell lung cancer care. Cisplatin and etoposide continue to be the chosen cytotoxic agents. Targeted therapies and advances in the radiotherapy technological aspects represent opportunities for improved outcomes in the future management of this aggressive disease.

Management of small cell lung cancer

Small cell lung cancer (SCLC) is an aggressive type of lung cancer characterized by rapid growth and early metastasis. It is chemosensitive and radiosensitive, yet decades of research investigating multimodality treatments have failed to control or cure this disease in most patients. First-line treatment of limited-stage disease consists of chemotherapy (often etoposide/cisplatin or etoposide/carboplatin) combined with thoracic radiation therapy (TRT), followed by prophylactic cranial irradiation to decrease brain metastases as a site of disease progression for those who experience complete remission or a very good partial response to multimodality treatment. In a Japanese trial, the combination of irinotecan and cisplatin had initially shown promise in treating patients with extensive-stage SCLC, but a confirmatory trial in the United States did not find a difference in overall survival with irinotecan/cisplatin versus etoposide/cisplatin. Adding a third drug to the etoposide/cisplatin combination, as well as other triplet therapies, has mostly been ineffective in improving outcomes. Variables in chemotherapy administration, including maintenance therapy, alternating non-cross-resistance regimens, and dose intensification, have not been shown to increase survival at large. In terms of radiation therapy, early administration of TRT concurrent with chemotherapy, and hyperfractionation, have been beneficial in treatment of limited-stage disease. In patients who relapse, second-line therapy options consist of reinduction of previous chemotherapy or administration of a single agent. Targeted biological therapies for SCLC are now being investigated, and although a great deal of research remains to be done, these agents and their derivatives may provide the most hope for future treatment of SCLC.

Linac stereotactic radiosurgery: An effective and safe treatment for elderly patients with brain metastases

PURPOSE

To evaluate the outcomes of radiosurgery for brain metastases in patients 65 years or older.

PATIENTS AND METHODS

Between January 1994 and January 2003, 117 patients (47 women, 70 men), median age 71 years (range, 65-86 years), received radiosurgery for 227 metastases. Sixty-one patients (55%) presented symptoms in relation to the brain metastases. Thirty-eight patients (32%) received whole-brain radiotherapy. Median metastasis diameter and volume were 21 mm (range, 0.5-75 mm) and 1.7 cc (range, 0.02-71 cc), respectively.

RESULTS

Median follow-up was 7 months (range, 1-45 months), 9.5 months for alive patients (range, 1-45 months). Median minimum and maximum doses were 14.5 Gy (6.5 Gy, 19.5 Gy), and 20.4 Gy (13.2 Gy, 41.9 Gy), respectively. Median survival was 8 months from the date of radiosurgery. Overall survival rates at 6 and 24 months were 58% +/- 5% and 13% +/- 4%, respectively. According to multivariate analysis, a low Karnofsky performance status was an independent unfavorable prognostic factor for overall survival (p = 0.003; odds ratio [OR] = 0.28; 95% confidence interval [CI], 0.14-0.56). Median brain disease-free survival was 10 months. Brain disease-free survival rates at 6 and 24 months were 67% +/- 6% and 40% +/- 7%, respectively. According to multivariate analysis, a radiosensitive lesion was an independent favorable factor (p = 0.038; OR = 0.42; 95% CI, 0.18-0.95); more than two metastases and a low Karnofsky performance status were independent unfavorable factors for brain disease-free survival (p = 0.046; OR = 2.15; 95% CI, 1.01-4.58 and p = 0.003; OR = 30.4; 95% CI, 3.1-296, respectively). Local control rates were 98% +/- 2% and 91% +/- 8.5% at 6 and 24 months. Out of the 61 patients presenting symptoms before radiosurgery, complete symptomatic response was achieved in 12 patients (20%), partial improvement in 25 (41%), stabilization in 7 (11%), and worsening in 4 (6%) related to a progression of the irradiated metastasis. Seven cases of radionecrosis were described and were related to the margin dose (p = 0.03).

CONCLUSION

Radiosurgery for elderly patients was effective and safe. Age alone should not be a criterion for denying radiosurgery to any patient with brain metastases.

Prophylactic cranial irradiation for preventing brain metastases in patients undergoing radical treatment for non–small-cell lung cancer: A Cochrane Review

PURPOSE

To investigate whether prophylactic cranial irradiation (PCI) has a role in the management of patients with non-small-cell lung cancer (NSCLC) treated with curative intent.

METHODS AND MATERIALS

A search strategy was designed to identify randomized controlled trials (RCTs) comparing PCI with no PCI in NSCLC patients treated with curative intent. The electronic databases MEDLINE, EMBASE, LILACS, and Cancerlit were searched, along with relevant journals, books, and review articles to identify potentially eligible trials. Four RCTs were identified and reviewed. A total of 951 patients were randomized in these RCTs, of whom 833 were evaluable and reported. Forty-two patients with small-cell lung cancer were excluded, leaving 791 patients in total. Because of the small patient numbers and trial heterogeneity, no meta-analysis was attempted.

RESULTS

Prophylactic cranial irradiation did significantly reduce the incidence of brain metastases in three trials. No trial reported a survival advantage with PCI over observation. Toxicity data were poorly collected and no quality of life assessments were carried out in any trial.

CONCLUSION

Prophylactic cranial irradiation may reduce the incidence of brain metastases, but there is no evidence of a survival benefit. It was not possible to evaluate whether any radiotherapy regimen is superior, and the effect of PCI on quality of life is not known. There is insufficient evidence to support the use of PCI in clinical practice. Where possible, patients should be offered entry into a clinical trial.

Small-cell lung cancer

Small-cell lung carcinoma is an aggressive form of lung cancer that is strongly associated with cigarette smoking and has a tendency for early dissemination. Increasing evidence has implicated autocrine growth loops, proto-oncogenes, and tumour-suppressor genes in its development. At presentation, the vast majority of patients are symptomatic, and imaging typically reveals a hilar mass. Pathology, in most cases of samples obtained by bronchoscopic biopsy, should be undertaken by pathologists with pulmonary expertise, with the provision of additional tissue for immunohistochemical stains as needed. Staging should aim to identify any evidence of distant disease, by imaging of the chest, upper abdomen, head, and bones as appropriate. Limited-stage disease should be treated with etoposide and cisplatin and concurrent early chest irradiation. All patients who achieve complete remission should be considered for treatment with prophylactic cranial irradiation, owing to the high frequency of brain metastases in this disease. Extensive-stage disease should be managed by combination chemotherapy, with a regimen such as etoposide and cisplatin administered for four to six cycles. Thereafter, patients with progressive or recurrent disease should be treated with additional chemotherapy. For patients who survive long term, careful monitoring for development of a second primary tumour is necessary, with further investigation and treatment as appropriate.

Prophylactic cranial irradiation with combined modality therapy for patients with locally advanced non-small cell lung cancer

Central nervous system (CNS) metastasis is a significant problem for many patients with non-small cell lung cancer (NSCLC). The earlier data reported a high incidence of CNS metastasis in patients with locally advanced NSCLC who were treated with radiotherapy alone. However, poor control of both thoracic and extracranial systemic disease dominated the results of the early trials. The risk for CNS metastasis as the first site of failure remains a significant concern for patients who have completed modern combined modality therapy. With improvements in the treatment of thoracic and systemic disease, there is renewed interest in prophylactic cranial irradiation (PCI). The results from the Radiation Therapy Oncology Group (RTOG) trial of PCI to prevent CNS relapse in patients with locally advanced NSCLC are anticipated.

Phase II study of irinotecan plus cisplatin induction followed by concurrent twice-daily thoracic irradiation with etoposide plus cisplatin chemotherapy for limited-disease small-cell lung cancer

PURPOSE

Irinotecan plus cisplatin (IP) chemotherapy demonstrated a promising outcome with a high complete response (CR) rate in chemotherapy-naïve patients with extensive small-cell lung cancer (SCLC). We evaluated the efficacy of induction IP chemotherapy followed by concurrent etoposide plus cisplatin (EP) chemotherapy with twice-daily thoracic radiotherapy (TDTRT) in limited-disease SCLC (LD-SCLC).

PATIENTS AND METHODS

Between November 2001 and May 2003, 35 chemotherapy-naïve patients with LD-SCLC were enrolled. Thirty-three patients (94%) were male, and 29 (83%) had an Eastern Cooperative Oncology Group performance status of 0 or 1. The median age was 63 years. Treatment consisted of two 21-day cycles of cisplatin 40 mg/m2 and irinotecan 80 mg/m2 intravenously (i.v.) on days 1 and 8 followed by two 21-day cycles of cisplatin 60 mg/m2 i.v. on days 43 and 64, and etoposide 100 mg/m2 i.v. on days 43 to 45 and 64 to 66, with concurrent TDTRT of total 45 Gy beginning on day 43.

RESULTS

All 35 patients were assessable for response. The objective response rate was 97% (CR, 3; partial response [PR], 31) after induction chemotherapy and 100% (CR, 15; PR, 20) after concurrent chemoradiotherapy (CCRT). After a median follow-up of 26.5 months, the median survival was 25.0 months (95% CI, 19.0 to 30.9) with 1- and 2-year overall survival rates of 85.7% and 53.9%, respectively. Median progression-free survival (PFS) was 12.9 months with a 1- and 2-year PFS of 58.5% and 36.1%, respectively. The most common toxicities were grade 3 or 4 neutropenia in 68% of patients during induction chemotherapy and 100% during CCRT. Febrile neutropenia occurred in 20% of patients during induction chemotherapy and 60% during CCRT.

CONCLUSION

IP induction chemotherapy followed by concurrent TDTRT with EP chemotherapy showed a promising activity with favorable 1- and 2-year survival rates. Based on the favorable outcome in this trial, this regimen should be evaluated in a large phase III trial.

Multimodality Therapy for Stage III Non–Small-Cell Lung Cancer

The treatment of stage III non–small-cell lung cancer has evolved over the last two decades, with combined-modality therapy the current standard of care. As a result, intermediate and long-term survival has improved for patients in this common stage category, compared to the poor outcomes achieved with the historical standard of once-daily radiation therapy alone. This review summarizes two decades of clinical research regarding bimodality and trimodality approaches for the heterogenous stage subsets within the stage III designation, discusses the rationale and status of prophylactic brain irradiation, and concludes with perspectives on progress and future directions. Chemotherapy plus radiotherapy given concurrently is the optimal treatment for the group of patients with advanced stage III disease. The potential role of a surgical resection following chemotherapy (with or without radiation) in this setting is still controversial. The only subsets for which trimodality treatments are clearly preferred include T4N0-1 disease and superior sulcus tumors. The other major stage III subgroup has a minimal disease burden with low tumor volume and/or microscopic N2 disease, thus technically could undergo a surgical resection upfront. Induction chemotherapy before surgery may yield a survival advantage, although the phase III trials in this area are not conclusive. Given the marked survival benefit from adjuvant chemotherapy after surgery in even earlier stages of non–small-cell lung cancer, the proper sequence of surgery and chemotherapy (before v after surgery) remains an important unresolved question in this subgroup. Furthermore, how to incorporate radiation therapy, as well as whether it should be given at all in this subset of patients, are other important issues actively under study in ongoing trials.

Prophylactic cranial irradiation for preventing brain metastases in patients undergoing radical treatment for non-small cell lung cancer

BACKGROUND

In non-small cell lung cancer (NSCLC), there is a relatively high incidence of brain metastases following radical treatment. At present, the role of prophylactic cranial irradiation (PCI) in this group of patients is not clear.

OBJECTIVES

To investigate whether PCI has a role in the management of patients with NSCLC treated with radical intent.

SEARCH STRATEGY

The electronic databases MEDLINE, EMBASE and Cancerlit, along with handsearching of journals, relevant books, and review articles used to identify potentially eligible trials.

SELECTION CRITERIA

Randomised controlled trials (RCTs) comparing PCI with no PCI in NSCLC patients treated with radical intent.

DATA COLLECTION AND ANALYSIS

Four RCTs were reviewed. Due to the small patient numbers, and variations in radiotherapy (RT) dose, no meta-analysis was attempted.

MAIN RESULTS

PCI may reduce the incidence of brain metastases, but there is no evidence of a survival benefit. There is no evidence that any regimen is superior, and the effect of PCI on quality of life (QOL) is not known.

AUTHORS' CONCLUSIONS

There is insufficient evidence to support the use of PCI in clinical practice. Where possible, patients should be offered entry into a clinical trial.

Double-platinum chemotherapy combined with etoposide in metastatic brain tumor from small cell lung carcinoma

The platinum-based chemotherapeutic agents, such as cisplatin (CDDP) and carboplatin (CBDCA), are effective for small cell lung carcinoma (SCLC). However, high dose treatment of these agents required for advanced-stage SCLC is often associated with severe toxicity. The authors used combination of lower doses of both cisplatin and carboplatin combined with etoposide (VP-16) to minimize side effects of these agents. This goal was accomplished by utilizing the facts that each agent has its own toxicity that can be controlled individually. Two patients (60- and 71-year old men) with multiple metastatic brain tumors from SCLC were treated by our chemotherapeutic regimen. After fourth chemotherapy, remarkable shrinking of brain masses was associated with significant decrease the size of original lung lesions in both cases. The two patients were discharged without any side effects of the treatment, and neurological deficits subsided in both cases. Each course provided the following schedules: carboplatin 200 mg/m2 x 1 day, cisplatin 25 mg/m2 x 2 days (intravenous administration), and etoposide 25 mg oral x 14 days. After second chemotherapy, the patient of Case 1 was irradiated to both brain and chest lesions, and only to brain in Case 2. The authors concluded from our two cases that the combination of these agents extremely effective to treat this malignancy with less toxicity. We named this double platinum chemotherapy as 'PEC', abbreviated from cisplatin, etoposide, and carboplatin. m

Lung cancer

Lung cancer is the leading cause of cancer-related mortality. Since tobacco smoking is the cause in vast majority of cases, the incidence of lung cancer is expected to rise in those countries with high or rising incidence of tobacco smoking. Even though populations at risk of developing lung cancer are easily identified, mass screening for lung cancer is not supported by currently available evidence. In the case of non-small cell lung cancer, a cure may be possible with surgical resection followed by post-operative chemotherapy in those diagnosed at an early stage. A small minority of patients who present with locally advanced disease may also benefit from pre-operative chemotherapy and/or radiation therapy to down stage the tumor to render it potentially operable. In a vast majority of patients, however, lung cancer presents at an advanced stage and a cure is not possible with currently available therapeutic strategies. Similarly, small cell lung cancer confined to one hemi-thorax may be curable with a combination of chemotherapy and thoracic irradiation followed by prophylactic cranial irradiation, if complete remission is achieved at the primary site. Small cell lung cancer that is spread beyond the confines of one hemi-thorax is, however, considered incurable. In this era of molecular targeted therapies, new agents are constantly undergoing pre-clinical and clinical testing with the aim of targeting the molecular pathways thought be involved in etiology and pathogenesis of lung cancer.

Gamma knife surgery for brain metastases from lung cancer

Object. The authors conducted a study to evaluate the safety and efficacy of gamma knife surgery (GKS) for the treatment of brain metastases from lung cancer.

Methods. Between February 1993 and May 2003 191 patients underwent treatment for 424 brain metastases from non—small (171 cases) and small cell lung carcinoma (20 cases). Imaging and clinical status were monitored every 3 months following the treatment. Kaplan-Meier survival curves, Cox proportional hazards regression for risk factor analysis, and nonparametric methods for evaluating tumor response were used.

There was no difference in median survival following combined whole-brain radiation therapy (WBRT) and gamma knife surgery (14 months) and GKS alone (15 months). There was also no difference between the median survival rates for either tumor type. In the multivariate analysis, age less than 65 years, Karnofsky Performance Scale score greater than 70, normal neurological status, multiple GKS treatments, and pre-GKS craniotomy were related to longer survival.

Tumor control rates varied according to the volume of the metastases and were as follows: 84.4% (< 0.5 cm3), 94% (0.5–2 cm3), 89.1% (2–4 cm3), 93.4% (4–8 cm3), 85.7% (8–14 cm3), and 87.5% (> 14 cm3). Four lesions required post-GKS craniotomy due to swelling or rapid tumor progression. The rate of tumor shrinkage was higher when a volume was 2 cm3, lower in cystic lesions, lower in tumors with previous WBRT, and lower for margin doses less than 14 Gy.

Conclusions. The risk—benefit ratio of GKS in this series was satisfactory. There was no difference in response rates of the two tumor types, and WBRT did not improve the duration of survival.

Gamma knife surgery for brain metastases from lung cancer

OBJECT

The authors conducted a study to evaluate the safety and efficacy of gamma knife surgery (GKS) for the treatment of brain metastases from lung cancer.

METHODS

Between February 1993 and May 2003 191 patients underwent treatment for 424 brain metastases from non-small (171 cases) and small cell lung carcinoma (20 cases). Imaging and clinical status were monitored every 3 months following the treatment. Kaplan-Meier survival curves, Cox proportional hazards regression for risk factor analysis, and nonparametric methods for evaluating tumor response were used. There was no difference in median survival following combined whole-brain radiation therapy (WBRT) and gamma knife surgery (14 months) and GKS alone (15 months). There was also no difference between the median survival rates for either tumor type. In the multivariate analysis, age less than 65 years, Karnofsky Performance Scale score greater than 70, normal neurological status, multiple GKS treatments, and pre-GKS craniotomy were related to longer survival. Tumor control rates varied according to the volume of the metastases and were as follows: 84.4% (< 0.5 cm3), 94% (0.5-2 cm3), 89.1% (2-4 cm3), 93.4% (4-8 cm3), 85.7% (8-14 cm3), and 87.5% (> 14 cm3). Four lesions required post-GKS craniotomy due to swelling or rapid tumor progression. The rate of tumor shrinkage was higher when a volume was 2 cm3, lower in cystic lesions, lower in tumors with previous WBRT, and lower for margin doses less than 14 Gy.

CONCLUSIONS

The risk-benefit ratio of GKS in this series was satisfactory. There was no difference in response rates of the two tumor types, and WBRT did not improve the duration of survival.

Radiosurgery for patients with recurrent small cell lung carcinoma metastatic to the brain: outcomes and prognostic factors

Object.Lung carcinoma is the leading cause of death from cancer. More than 50% of those with small cell lung cancer develop a brain metastasis. Corticosteroid agents, radiotherapy, and resection have been the mainstays of treatment. Nonetheless, median survival for patients with small cell lung carcinoma metastasis is approximately 4 to 5 months after cranial irradiation. In this study the authors examine the efficacy of gamma knife surgery for treating recurrent small cell lung carcinoma metastases to the brain following tumor growth in patients who have previously undergone radiation therapy, and they evaluate factors affecting survival.

Methods.A retrospective review of 27 patients (47 recurrent small cell lung cancer brain metastases) undergoing radiosurgery was performed. Clinical and radiographic data obtained during a 14-year treatment period were collected. Multivariate analysis was utilized to determine significant prognostic factors influencing survival.

The overall median survival was 18 months after the diagnosis of brain metastases. In multivariate analysis, factors significantly affecting survival included: 1) tumor volume (p = 0.0042); 2) preoperative Karnofsky Performance Scale score (p = 0.0035); and 3) time between initial lung cancer diagnosis and development of brain metastasis (p = 0.0127). Postradiosurgical imaging of the brain metastases revealed that 62% decreased, 19% remained stable, and 19% eventually increased in size. One patient later underwent a craniotomy and tumor resection for a tumor refractory to radiosurgery and radiation therapy. In three patients new brain metastases were demonstrating on follow-up imaging.

Conclusions.Stereotactic radiosurgery for recurrent small cell lung carcinoma metastases provided effective local tumor control in the majority of patients. Early detection of brain metastases, aggressive treatment of systemic disease, and a therapeutic strategy including radiosurgery can extend survival.

Radiosurgery for patients with recurrent small cell lung carcinoma metastatic to the brain: outcomes and prognostic factors

Object. Lung carcinoma is the leading cause of death from cancer. More than 50% of those with small cell lung cancer develop a brain metastasis. Corticosteroid agents, radiotherapy, and resection have been the mainstays of treatment. Nonetheless, median survival for patients with small cell lung carcinoma metastasis is approximately 4 to 5 months after cranial irradiation. In this study the authors examine the efficacy of gamma knife surgery for treating recurrent small cell lung carcinoma metastases to the brain following tumor growth in patients who have previously undergone radiation therapy, and they evaluate factors affecting survival.

Methods. A retrospective review of 27 patients (47 recurrent small cell lung cancer brain metastases) undergoing radiosurgery was performed. Clinical and radiographic data obtained during a 14-year treatment period were collected. Multivariate analysis was utilized to determine significant prognostic factors influencing survival.

The overall median survival was 18 months after the diagnosis of brain metastases. In multivariate analysis, factors significantly affecting survival included: 1) tumor volume (p = 0.0042); 2) preoperative Karnofsky Performance Scale score (p = 0.0035); and 3) time between initial lung cancer diagnosis and development of brain metastasis (p = 0.0127). Postradiosurgical imaging of the brain metastases revealed that 62% decreased, 19% remained stable, and 19% eventually increased in size. One patient later underwent a craniotomy and tumor resection for a tumor refractory to radiosurgery and radiation therapy. In three patients new brain metastases were demonstrating on follow-up imaging.

Conclusions. Stereotactic radiosurgery for recurrent small cell lung carcinoma metastases provided effective local tumor control in the majority of patients. Early detection of brain metastases, aggressive treatment of systemic disease, and a therapeutic strategy including radiosurgery can extend survival.

Pro-gastrin-releasing peptide as a factor predicting the incidence of brain metastasis in patients with small cell lung carcinoma with limited disease receiving prophylactic cranial irradiation

BACKGROUND

Prophylactic cranial irradiation (PCI) reduces the incidence of brain metastasis with an effect on overall survival in patients with small cell lung carcinoma (SCLC). In spite of multidisciplinary intensive treatment approaches, many patients still experience brain metastasis. The authors retrospectively analyzed the characteristics of the first failure event due to brain metastasis (FBM) in patients treated with PCI.

METHODS

Between January 1990 and April 2004, 71 patients with limited disease SCLC were treated with PCI after completing systemic treatment at the National Cancer Center Hospital (Tokyo, Japan). Univariate and multivariate analyses were used to identify factors related to FBM and survival.

RESULTS

The FBM and overall incidence of brain metastasis (OBM) were 16.9 % (12 of 71) and 26.8% (19 of 71), respectively. Median time to progressive disease and median survival were 8.4 months and 21.6 months, respectively. Elevation of pro-gastrin-releasing peptide (Pro GRP) level before PCI was found to be a significant predictive and prognostic factor for FBM, OBM, and survival on multivariate analysis (P = 0.007, P = 0.025, and P = 0.009, respectively).

CONCLUSIONS

An elevated Pro GRP level before PCI was found to be significantly related to FBM and survival, and should be considered before PCI is performed.

The pathogenesis and treatment of brain metastases: a comprehensive review

Brain metastases are the most common intracranial tumors and their incidence is increasing. Untreated brain metastases are associated with a poor prognosis and a poor performance status. The role of surgery in the management of multiple brain metastases is still controversial. As more than 70% of patients have multiple metastases at the time of diagnosis, whole brain radiotherapy is the treatment of choice in most cases. Brain metastases are an ideal target for stereotactic radiosurgery, as they are better circumscribed than primary brain tumors. Currently, chemotherapy has a limited role in the treatment of most brain metastases. Several new therapies, with a good penetration through the blood brain barrier, such as temozolomide, have been used in brain metastases with different results depending on the histology of the primary tumor. A better understanding of the complex processes underlying the development of brain metastasis will enable us to develop more satisfactory targeted treatments.

Cognitive sequelae of brain radiation in adults

Radiotherapy (RT) is a proven curative and palliative therapeutic tool in the treatment of a wide variety of primary and metastatic brain tumors in adults. Recent advances in multimodality therapy have led to improvement in survival for many cancer patients. As survival has improved, more attention has been directed toward long-term treatment-related morbidity. Specifically, the effect of RT on the long-term cognitive performance of these patients is a major concern. This article reviews the neurocognitive effects of cranial RT on adult patients with brain tumors. Analyses of neurocognitive function are confounded by factors such as surgery, chemotherapy, tumor characteristics, tumor progression, concurrent medical illnesses, neurologic comorbidity, and medications that can contribute to neurocognitive deficits. Risk of deficits after cranial RT is associated with high RT dose, large fraction size, larger field size, and extremes of age at time of treatment. Using modern techniques with moderate total doses (50 to 54 Gy), conformal RT, conventional fractionation, and advanced planning imaging and software, the risks of neurocognitive deficits are quite small and greatly overshadowed by deficits caused by the tumor itself. Further studies need to be undertaken to elucidate the degree and cause of cognitive decline in adult patients undergoing multimodality therapy for cranial tumors.

Recent advances in management of small-cell lung cancer

Small-cell lung cancer (SCLC) is a smoking-related disease with a poor prognosis. While SCLC is usually initially sensitive to chemotherapy and radiotherapy, responses are rarely long lasting. Frustratingly, most patients ultimately relapse, often with increasingly treatment resistant disease. Many strategies have been developed in an attempt to improve treatment outcomes, which have plateaued since the introduction of combination chemotherapy in the 1980s. These include trials of maintenance therapy, and dose intensification, the latter by means of increasing dose density, growth factor support and high dose chemotherapy with autologous stem cell rescue. None have been shown to improve patient survival. On the other hand, the integration of concurrent thoracic radiation and prophylactic cranial irradiation has improved the survival outcomes in patients with limited disease. In extensive disease, irinotecan combined with cisplatin has shown promise in improving survival over conventional platinum/etoposide chemotherapy schedules and a confirmatory study is awaited. The future of SCLC treatment may however lie with molecularly targeted therapies, such as antiangiogenesis agents and signal transduction inhibitors, which are being studied at present.

Progress in the therapy of small cell lung cancer

Small cell lung cancer (SCLC) accounts for approximately 14% of all cases of lung cancer. Combination chemotherapy is the most effective treatment modality for SCLC and recently, several new active drugs have emerged. Combinations of platinum agents with CPT-11 or gemcitabine have been successfully compared in phase III trials against the cisplatin/etoposide standard. Modest improvements in the outcome of patients with SCLC have been noted over the last two decades. Thoracic irradiation given concurrently with chemotherapy improves survival compared with sequential chemotherapy and radiation, but this approach is associated with more toxicity. Moreover, the optimal doses and fractionation of thoracic irradiation remain to be determined. Three-dimensional treatment planning is under investigation. Prophylactic cranial irradiation (PCI) has established a role in the management of patients who have achieved a complete response to the initial therapy. Novel molecular targeted therapies are among the strategies currently being investigated in SCLC.

Blue light inhibits melanin synthesis in B16 melanoma 4A5 cells and skin pigmentation induced by ultraviolet B in guinea-pigs

BACKGROUND

Little has been known about the effects of visible light in mammalian cells. We recently found that blue light not only suppressed the growth of B16 melanoma cells in a time-dependent manner but also inhibited metastasis of the B16 melanoma cells to the lung. These findings suggest that exposure to blue light modifies the functions of B16 melanoma cells. The present study investigated the effects of blue light on B16 melanoma 4A5 cells and Weiser-Maple guinea-pigs to confirm the biological effect of blue light on melanin formation.

METHODS

The effect of red, green, and blue light on melanin synthesis in B16 melanoma 4A5 cells was measured. The back skin of brown Weiser-Maple guinea-pigs was exposed to ultraviolet B (UVB; 588 mJ/cm(2) (0.7 mW/cm(2)x 14 min) three times a week for 2 weeks to induce melanin deposition. Thirty minutes after each UVB exposure, blue light was applied for 30 min. Pigmentation of the exposed areas of skin was checked once a week, and photographs of the skin were taken by digital camera. Observation was continued for 18 days after the final UVB exposure.

RESULTS

Melanin synthesis in B16 melanoma 4A5 cells was selectively suppressed by blue light, but blue light did not induce decolorization of previously produced melanin. In the back skin of brown guinea-pigs, the brightness of the sites exposed to UVB began to decrease on the fifth day of the experiment, decreasing further from the 12th day to the 18th day after UVB exposure. The brightness of the sites exposed to UVB and blue light decreased in a manner similar during the UVB exposure, but remained relatively unchanged from the 12th day to the 30th day.

CONCLUSIONS

These results suggest that blue light suppresses melanin formation following repeated UVB exposure. Further investigation with various light such as blue light may lead to a new approach to the care of ultraviolet-affected skin such as hyperpigmentation.

Small cell lung cancer: from molecular biology to novel therapeutics

Small cell lung cancer (SCLC) is an aggressive tumor which metastasizes early. Patients with this disease have a poor prognosis even with immediate treatment. Because of the aggressive nature of this disease, all aspects of this tumor are studied extensively. This review will provide an update of the biology of SCLC at both the molecular and cellular levels. Cellular pathways and their relationship to cellular function will also be discussed. Treatment of both primary limited- and extensive-stage diseases as well as recurrent disease will be discussed including chemotherapy, thoracic radiotherapy, and surgery. The role of novel therapeutics being investigated will also be addressed.

Limited-disease small-cell lung cancer

Substantial improvements in treatment outcome for limited-disease small-cell lung cancer (LD SCLC) have been achieved in the last two decades owing to the introduction of chemotherapy (CHT) consisting of cisplatin and etoposide (PE), and the understanding that thoracic radiation therapy (TRT) is an essential component in improving treatment outcome. In addition, a recent metaanalysis confirmed the importance of prophylactic cranial irradiation (PCI) in general treatment plans for patients who show a complete response to treatment. However, numerous questions remain unanswered regarding this disease. While TRT/PE/PCI is considered to be the standard treatment in the majority of centers worldwide, the emergence of new and effective drugs (e.g., topoisomerase I inhibitors and paclitaxel) for the treatment of LD SCLC will likely affect therapy strategies in the near future. Important issues regarding optimal doses and fractionation regimens, as well as the timing of TRT, remain to be resolved. While most centers currently use b.i.d. fractionation as a result of the Intergroup findings, high-dose standard TRT may also be beneficial. TRT volumes are also considered an important issue, since they likely relate to the incidence of both local failure and toxicity. Finally, the optimization of PCI (total dose, fractionation regimen, and timing) is already under way. The value of surgery is limited to peripheral tumors and poorly responding cancer, and to confirm histology or improve local control and survival.

Prophylactic cranial irradiation in lung cancer

Patients with locally advanced lung cancer (non-small cell lung cancer or small cell lung cancer ) are threatened by concurrent risks of local, regional, and distant failure. By improving locoregional and systemic control within multimodality protocols, the brain emerges as one of the major relapse sites; therefore, prevention of brain relapse has become a primary focus of attention. Prophylactic cranial irradiation (PCI) has a high potential to reduce the risk of brain metastases. Clear evidence exists from meta-analysis that PCI improves overall and disease-free survival rates for patients with SCLC in complete remission. Long-term toxicities, predominantly neurocognitive impairments, represent potential risks, but within large prospective trials, including adequate control groups, late complications of clinical significance rarely have been observed. PCI is the recommended standard of care for the patients with limited disease SCLC in complete remission. As long as the optimal dose and fractionation remain to be defined in this setting, conventional fractionation with moderate total doses of approximately 30 Gy is preferred. In patients with locally advanced stage III non-small cell lung cancer treated within multimodality protocols, comparable relative risks for cumulative brain relapse have been demonstrated in long-term survivors. Although not the standard of care in this situation, the scientific community should be encouraged to further investigate PCI in these patient subgroups within carefully designed clinical trials, including untreated control arms.

Modeling killing and repopulation kinetics of subclinical cancer: direct calculations from clinical data

PURPOSE

Models for cell killing and repopulation can provide insight into the efficacy of therapies. Using clinical data on breast cancer recurrence after lumpectomy with or without radiotherapy (L+/-RT) and brain metastases after chemotherapy with or without prophylactic cranial irradiation (C+/-PCI) for small-cell lung cancer, estimates of cell killing and subclinical repopulation were tested against the results from simple radiobiologic models.

METHODS AND MATERIALS

The rates of local breast cancer recurrence after L+/-RT and of brain metastases after C+/-PCI were extracted from published randomized trials. In Method 1, assuming simple exponential growth, the cell number distributions after L+/-RT and C+/-PCI were calculated from the clinical data, and the impact of RT on these distributions was determined. In Method 2, "classic" radiobiology dictates that a typical course of breast RT and PCI results in approximately =7 and approximately =4.5 log of cell kill, respectively. Using an assumption of uniform log-kill, the clinical doubling times (CDTs) can be calculated directly from the clinical data.

RESULTS

Using Method 1, for breast cancer and assuming a CDT of 110 days and a clinically detectable cell number of 10(9), the calculated cell number distribution would be approximately uniformly distributed from 1 to 10(8) cells, with RT reducing the frequency at all points by approximately =75%. From the brain metastasis data, assuming a CDT of 55 days, a cell number distribution of 10(3) to 10(8) cells would be calculated. PCI reduces the frequency of metastases by roughly 40%. For both the breast and the brain data, the effects of RT on the cell number distribution are not consistent with uniform radiosensitivity. Using Method 2, assuming a cell number of 10 after L+/-RT, the calculated CDTs range from 14 to 124 days. For the brain metastasis case, assuming a starting cell number of 3.16 x 10(3), the CDTs would primarily be in the 10-30-day range.

CONCLUSION

The distribution of clinical responses to adjuvant RT suggests a broad range of radiosensitivity, rather than uniform log cell kill. The subpopulation of tumors with minimal cell kill appears to be significant. This heterogeneity may be due to radioresistant subpopulations, failure to irradiate tumor cells, and/or new tumor formation. Similarly, the computed CDTs consistent with the clinical data are shorter than those reported in the literature. Simple radiobiologic models that fail to incorporate heterogeneity of radiosensitivity and/or tumor cell repopulation do not adequately describe clinical outcomes.

Prophylactic cranial irradiation as a component of intensified initial treatment of locally advanced non-small cell lung cancer

Patients with locally advanced non-small cell lung cancer are threatened by the concurrent risks of local, regional and distant failure. By improving local and regional control with multimodality protocols, the brain becomes one of the major sites of relapse. PCI has a high potential to reduce the risk of brain metastases. Long-term toxicity is presently poorly defined and represents an important potential risk. The value of PCI as an adduct to present aggressive multimodality protocols and the optimal total dose with conventional fractionation will be investigated within clinical studies by two study groups in the future. As the best dose and fractionation still remains undefined, the integration of PCI into multimodality protocols.

Small-cell lung cancer: a review of clinical trials

Small-cell lung cancer (SCLC) is expected to account for 25% of the approximate 170,000 cases of lung cancer diagnosed in the United States in 2002. Although sensitive and responsive to chemotherapy, SCLC has an increased propensity for early metastases, with relapses being common and long-term survival rates being poor. Clinical trials have played a vital role in expanding our knowledge base for this disease and have resulted in newer modalities, including chemotherapeutic agents, prophylactic cranial irradiation, and thoracic radiotherapy designed to improve overall outcomes. Clinical trials have also served to clarify the role of surgery in a disease that traditionally has been thought to be nonoperable. This review will focus on the results of clinical trials that have had an effect on the treatments of patients with limited and extensive-stage SCLC, with recommendations from the National Comprehensive Cancer Network being emphasized.

Three irradiation treatment options including radiosurgery for brain metastases from primary lung cancer

PURPOSE

To determine local control and survival rates in 92 patients with 145 brain metastases treated with three options of radiotherapy including stereotactic radiosurgery (SR).

METHODS

Between July 1994 and August 2002, 92 consecutive patients with 145 metastases were treated with a SR, 34 with initially SR alone, 22 initially with an association of whole-brain radiotherapy (WBRT) and 36 with SR alone for recurrent new brain metastasis after WBRT. At time of treatment, extracranial disease was controlled in 46 (50%) and uncontrolled in 46 (50%). Pathologies were adenocarcinoma in 54 cases (59%), squamous cell carcinoma in 14 cases (15%), small cell carcinoma in 10 cases (11%) and miscellaneous in 14 cases (15%). All patients underwent only one treatment fraction for 1 or 2 metastases in 73 cases (83%) and for more than 2 metastases for the others.

RESULTS

The characteristics of patients and metastases in the group treated initially with SR alone and in the group treated initially with WBRT+SR were comparable. Median follow-up was 29 months (18-36). Overall, the median and the 1- and 2-year rates of overall survival were, respectively, 9 months, 37 and 20%. A controlled extracranial disease, a high Karnofsky index and a low number of metastasis were independent prognostic factor of overall survival, respectively, HR 0.53 (95% CI 0.31-0.90, P=0.01), HR 0.95 (95% CI 0.92-0.97, P=0.0002), and HR 0.48 (95% CI 0.25-0.90, P=0.02). Thirteen metastases were not controlled (9%). Six-month and 1-year local control rate were, respectively, 93 and 86%. High delivered dose was an independent prognostic factor of local control, HR 0.41 (95% CI 0.18-0.95, P=0.03). A controlled extracranial disease was favourable independent prognostic factor of brain free-disease free survival, HR 0.47 (95% CI 0.2-0.98, P=0.04). Although there was a trend of a better local control, overall and brain disease free survivals rates in the WBRT+SR group compared to SR alone one, the difference were not statistically different.

CONCLUSION

Local control and survival rates are acceptable for a palliative treatment for the three option of treatment. In this series, the number of patients is not enough great to conclude to the necessity of the association of WBRT to SR. Re-irradiation is a safe treatment after new metastases appeared in previously irradiated area.

New approaches for small-cell lung cancer: local treatments

BACKGROUND

Limited-disease small-cell lung cancer (LD-SCLC) can be cured with combinations of systemic chemotherapy and local treatments, predominantly radiation therapy. While systemic control inside the brain has been further improved with the inclusion of prophylactic cranial irradiation, long-term local control remains suboptimal, even with newer chemoradiation protocols.

METHODS

The authors review the current management of LD-SCLC and discuss strategies to improve local control. They present their own experience with the inclusion of surgery in an aggressive combined-modality protocol for patients with LD-SCLC.

RESULTS

Different approaches to improve local efficacy of treatment have been explored, including concurrent chemoradiation, administration of radiation as early as possible, newer fractionation schemas, and escalation of overall radiation doses. However, even following the currently most active chemoradiation protocols, local and locoregional relapse of LD-SCLC remains a problem. Surgery is feasible within this clinical setting and may add to long-term local control and possible cures.

CONCLUSIONS

Further investigation into the inclusion of surgery in LD-SCLC within carefully designed prospective clinical trials seems justified, although final evaluation would necessarily include prospective, randomized testing within a more "modernized" study design compared to the "old" and "historical" randomized Lung Cancer Study Group trial.

Do age and comorbidity impact treatment allocation and outcomes in limited stage small-cell lung cancer? a community-based population analysis

PURPOSE

The effects of age and comorbidity on treatment and outcomes for patients with limited stage small-cell lung cancer (L-SCLC) are unclear. This study analyzes relapse and survival in a community-based population with L-SCLC according to age and comorbidity.

METHODS

A retrospective review was performed on 174 patients with L-SCLC referred to the British Columbia Cancer Agency, Vancouver Island Centre, between January 1991 and December 1999. Patient and treatment characteristics, disease response, relapse, and survival were compared among three age cohorts: <65 years (n = 55, 32%), 65-74 years (n = 76, 44%), and > or =75 years (n = 43, 25%); and according to Charlson comorbidity scores 0, 1, and > or =2. Multivariate analysis was performed to identify independent prognostic factors associated with treatment response and survival.

RESULTS

Patient factors that significantly differed with age were functional status classified by Eastern Cooperative Oncology Group performance status and number of comorbidities. Increasing age was significantly associated with fewer diagnostic scans. Combined modality chemoradiotherapy (CRT) was given in 86%, 66%, and 40% of patients ages <65, 65-74, and > or =75 years, respectively, (p <0.0001). Thoracic irradiation use was comparable among the age cohorts (p >0.05), but chemotherapy use varied significantly with less intensive regimens, fewer cycles, and lower total doses with advancing age (p <0.05). Prophylactic cranial irradiation (PCI) was used in 41 patients, only 3 of whom were age >70 years. Overall response rates to primary treatment significantly decreased with advancing age: 91%, 79%, and 74% in patients ages <65, 65-74, and > or =75 years, respectively (p = 0.014). Treatment toxicity and relapse patterns were similar across the age cohorts. Overall 2-year survival rates were significantly lower with advancing age: 37%, 22%, and 19% (p = 0.003), with corresponding median survivals of 17, 12, and 7 months among patients ages <65, 65-74, and > or =75 years, respectively. On multivariate analysis, age and Charlson comorbidity scores were not significantly associated with treatment response and survival. Independent prognostic factors favorably associated with survival were good performance status, normal lactate dehydrogenase, absence of pleural effusion, and > or =four cycles of chemotherapy.

CONCLUSION

Increasing age was associated with decreased performance status and increased comorbidity. Older patients with L-SCLC were less likely to be treated with CRT, intensive chemotherapy, and PCI. Treatment response and survival rates were lower with advancing age, but this may be attributed to poor performance status and suboptimal treatment rather than age.

Blue light inhibits the growth of skin tumors in the v-Ha-ras transgenic mouse

12-O-Tetradecanoylphorbol-13-acetate (TPA) was applied to the back skin of v-Ha-ras (TG-AC) female transgenic mice at a dose of 2.5 microg/200 microl twice a week for 9 weeks. The back skin was then exposed to blue light (wavelength, 470 nm; irradiance, 5.7 mW/cm2) for 1 h daily for 9 weeks. The mice to which TPA was applied developed skin tumors at 6 weeks after the start of application. The tumor incidence rates at 6, 7, 8 and 9 weeks after the start of application were 70%, 80%, 100% and 100%, respectively, and the numbers of tumors 1 mm or more in diameter were 1, 5, 10 and 19, respectively. In the mice that were exposed to blue light after TPA application, the tumor incidence rates were 10%, 40%, 60% and 80%, respectively, and the numbers of tumors 1 mm or more in diameter were 0, 2, 5 and 9, respectively. Histopathological examination of the skin revealed that TPA application induced diffuse hyperplasia, exaggerated keratinization, and papillomas in all 10 mice. A localized form of epidermal hyperplasia was also observed in 4 mice. The incidence rate of papillomas in the mice that were exposed to blue light after TPA application was lower and the degree of exaggerated keratinization was greater. Exaggerated keratinization was considered to represent a regressive change following exposure. These findings suggest that exposure to blue light may be a promising new approach in the treatment of skin tumors.

Prophylactic cranial irradiation in small cell lung cancer

Prophylatic cranial irradiation (PCI) in patients with small cell lung cancer (SCLC) is a treatment under evaluation for about 30 years. Since the first randomized trials, it was clear that its use significantly decreased the brain metastasis rate. However, its effect on overall survival was not demonstrated. Retrospective reviews suggested that PCI could induce late neurologic damage. In recent years, two large randomized trials did not confirm this deleterious effect and even suggested a beneficial effect on survival. A recent meta-analysis including almost 1,000 randomized patients confirmed an improvement in overall survival. We discuss here the different aspects of this preventive treatment in a potentially curable disease.