- Email: [email protected]
Foscan-mediated photodynamic therapy and operation for malignant pleural mesothelioma
388
CORRESPONDENCE
presence of neurologic impairment after coronary artery bypass grafting with the “no touch of the aorta” technique, in which no aorto graft anastomoses are performed. Surgeons using this helpful device should be aware that this major complication might occur. Karen M. Brown, FRCS Michael M. Sabetai, FRCS Graham E. Venn, FRCS St Thomas’ Hospital, London King’s College Hospital Department of Cardiothoracic Surgery Denmark Hill London, UK SE5 9RS e-mail: [email protected]
Reference 1. Burfeind WR Jr, Duhaylongsod FG, Samuelson D. High-flow gas insufflation to facilitate MIDCABG: effects on coronary endothelium. Ann Thorac Surg 1998;66:1246 –9.
Foscan-Mediated Photodynamic Therapy and Operation for Malignant Pleural Mesothelioma To the Editor:
MISCELLANEOUS
With great interest we read the article by Friedberg and associates [1] about operation and m-THPC (meta-tetrahydroxyphenylchlorin)–mediated photodynamic therapy (PDT) in patients with malignant pleural mesothelioma. This phase I study is an important contribution to understanding the potential role of PDT in this disease. In 2001, we [2] reported the results of a phase I/II study of surgical intervention and m-THPC–mediated PDT in patients with malignant pleural mesothelioma. When we compared these two studies, we found many likenesses. The total number of patients treated was similar, as was the number of patients treated at the maximum tolerated dose. Median survival was 12.4 months in the study by Friedberg and colleagues versus 10 months in our study, but the difference is probably not significant. An important difference between the studies was the interval between injection of the photosensitizer and illumination. The interval was 6 days in the Friedberg study versus 4 days in ours. The light and sensitizer doses were comparable. All our patients had a pleuropneumonectomy, which facilitated illumination of the chest cavity. Illumination is much more complicated when the lung remains in situ. Two patients died after development of a pulmonary capillary leak syndrome after PDT in the study of Friedberg and co-workers. This may have been related to the large illuminated surface of the lung. On the other hand, the morbidity and the mortality associated with pleuropneumonectomy are also considerable. One of the problems of this combined modality approach is separating surgical and PDT–related toxicity. A significant reduction in toxicity is most likely achieved by modifications to the PDT part of the combined treatment. For this purpose, Friedberg and colleagues prolonged the drug-light interval to 6 days. Other options to reduce the undesired PDT effect on normal tissues include the reduction in drug and light doses or the use of less potent photosensitizers. When the combination of limited resection and reduced PDT efficacy is explored, two issues deserve special attention during preoperative analysis. First, the total tumor volume should be © 2004 by The Society of Thoracic Surgeons Published by Elsevier Inc
Ann Thorac Surg 2004;78:384 –90
taken into account [3]. Patients with massive tumors are at great risk for postoperative side effects. Assessment of viable tumor can be performed with three-dimensional reconstruction of computed tomographic scans or magnetic resonance images in combination with position emission tomographic scanning [4]. Second, if lung tissue remains during PDT illumination, light distribution cannot be monitored optimally. It seems unlikely that proper light distribution in this situation can be achieved with only four light detectors. The most obvious way to improve light distribution is to incorporate more than four light detectors in the chest cavity. However, illumination of the diaphragmatic gutter will remain problematic. In a system with integral illumination using one light source, as was done in both studies, the diaphragmatic sinus in many patients is shielded from light. In these patients, additional illumination is required to achieve the PDT effect in the narrow space between the diaphragm and the chest wall. In our opinion, improvement in PDT in this region can be achieved only with advanced techniques such as the one described by van Veen and co-authors [5]. Results of the combination of operation and m-THPC– mediated PDT have not been very successful to date. Better treatment outcomes from future treatment protocols can be expected from stricter patient selection and technical improvements in light dosimetry. We believe that the results of the Friedberg study indicate that the concept of limited resection in combination with relatively mild PDT deserves further investigation. Hugo Schouwink, MD, PhD Paul Baas, MD, PhD Department of Thoracic Oncology The Netherlands Cancer Institute Plesmanlaan 121 1066 CX, Amsterdam, the Netherlands e-mail: [email protected]
References 1. Friedberg JS, Mick R, Stevenson J, et al. A phase I study of Foscan-mediated photodynamic therapy and surgery in patients with mesothelioma. Ann Thorac Surg 2003;75:952–9. 2. Schouwink H, Rutgers ET, van der Sijp J, et al. Intraoperative photodynamic therapy after pleuropneumonectomy in patients with malignant pleural mesothelioma: dose finding and toxicity results. Chest 2001;120:1167–74. 3. Pass HW, Temeck BK, Kranda K, Steinberg SM, Pass HI. A phase II trial investigating primary immunochemotherapy for malignant pleural mesothelioma and the feasibility of adjuvant immunochemotherapy after maximal cytoreduction. Ann Surg Oncol 1995;2:214 –20. 4. Benard F, Sterman D, Smith RJ, Kaiser LR, Albelda SM, Alavi A. Metabolic imaging of malignant pleural mesothelioma with fluorodeoxyglucose positron emission tomography. Chest 1998;114:713–22. 5. Van Veen P, Schouwink JH, Star WM, et al. Wedge-shaped applicator for additional light delivery and dosimetry in the diaphragmal sinus during photodynamic therapy for malignant pleural mesothelioma. Phys Med Biol 2001;46:1873–83.
Reply
To the Editor: The major differences between the phase I/II study reported by Schouwink and associates [1] and our study [2] are the maximally tolerated dose of photodynamic therapy (PDT) (longer drug-light interval), the nature of the dose-limiting toxicity, and the use of parenchymal-sparing surgical intervention in a substantial number 0003-4975/04/$30.00
CORRESPONDENCE
presence of neurologic impairment after coronary artery bypass grafting with the “no touch of the aorta” technique, in which no aorto graft anastomoses are performed. Surgeons using this helpful device should be aware that this major complication might occur. Karen M. Brown, FRCS Michael M. Sabetai, FRCS Graham E. Venn, FRCS St Thomas’ Hospital, London King’s College Hospital Department of Cardiothoracic Surgery Denmark Hill London, UK SE5 9RS e-mail: [email protected]
Reference 1. Burfeind WR Jr, Duhaylongsod FG, Samuelson D. High-flow gas insufflation to facilitate MIDCABG: effects on coronary endothelium. Ann Thorac Surg 1998;66:1246 –9.
Foscan-Mediated Photodynamic Therapy and Operation for Malignant Pleural Mesothelioma To the Editor:
MISCELLANEOUS
With great interest we read the article by Friedberg and associates [1] about operation and m-THPC (meta-tetrahydroxyphenylchlorin)–mediated photodynamic therapy (PDT) in patients with malignant pleural mesothelioma. This phase I study is an important contribution to understanding the potential role of PDT in this disease. In 2001, we [2] reported the results of a phase I/II study of surgical intervention and m-THPC–mediated PDT in patients with malignant pleural mesothelioma. When we compared these two studies, we found many likenesses. The total number of patients treated was similar, as was the number of patients treated at the maximum tolerated dose. Median survival was 12.4 months in the study by Friedberg and colleagues versus 10 months in our study, but the difference is probably not significant. An important difference between the studies was the interval between injection of the photosensitizer and illumination. The interval was 6 days in the Friedberg study versus 4 days in ours. The light and sensitizer doses were comparable. All our patients had a pleuropneumonectomy, which facilitated illumination of the chest cavity. Illumination is much more complicated when the lung remains in situ. Two patients died after development of a pulmonary capillary leak syndrome after PDT in the study of Friedberg and co-workers. This may have been related to the large illuminated surface of the lung. On the other hand, the morbidity and the mortality associated with pleuropneumonectomy are also considerable. One of the problems of this combined modality approach is separating surgical and PDT–related toxicity. A significant reduction in toxicity is most likely achieved by modifications to the PDT part of the combined treatment. For this purpose, Friedberg and colleagues prolonged the drug-light interval to 6 days. Other options to reduce the undesired PDT effect on normal tissues include the reduction in drug and light doses or the use of less potent photosensitizers. When the combination of limited resection and reduced PDT efficacy is explored, two issues deserve special attention during preoperative analysis. First, the total tumor volume should be © 2004 by The Society of Thoracic Surgeons Published by Elsevier Inc
Ann Thorac Surg 2004;78:384 –90
taken into account [3]. Patients with massive tumors are at great risk for postoperative side effects. Assessment of viable tumor can be performed with three-dimensional reconstruction of computed tomographic scans or magnetic resonance images in combination with position emission tomographic scanning [4]. Second, if lung tissue remains during PDT illumination, light distribution cannot be monitored optimally. It seems unlikely that proper light distribution in this situation can be achieved with only four light detectors. The most obvious way to improve light distribution is to incorporate more than four light detectors in the chest cavity. However, illumination of the diaphragmatic gutter will remain problematic. In a system with integral illumination using one light source, as was done in both studies, the diaphragmatic sinus in many patients is shielded from light. In these patients, additional illumination is required to achieve the PDT effect in the narrow space between the diaphragm and the chest wall. In our opinion, improvement in PDT in this region can be achieved only with advanced techniques such as the one described by van Veen and co-authors [5]. Results of the combination of operation and m-THPC– mediated PDT have not been very successful to date. Better treatment outcomes from future treatment protocols can be expected from stricter patient selection and technical improvements in light dosimetry. We believe that the results of the Friedberg study indicate that the concept of limited resection in combination with relatively mild PDT deserves further investigation. Hugo Schouwink, MD, PhD Paul Baas, MD, PhD Department of Thoracic Oncology The Netherlands Cancer Institute Plesmanlaan 121 1066 CX, Amsterdam, the Netherlands e-mail: [email protected]
References 1. Friedberg JS, Mick R, Stevenson J, et al. A phase I study of Foscan-mediated photodynamic therapy and surgery in patients with mesothelioma. Ann Thorac Surg 2003;75:952–9. 2. Schouwink H, Rutgers ET, van der Sijp J, et al. Intraoperative photodynamic therapy after pleuropneumonectomy in patients with malignant pleural mesothelioma: dose finding and toxicity results. Chest 2001;120:1167–74. 3. Pass HW, Temeck BK, Kranda K, Steinberg SM, Pass HI. A phase II trial investigating primary immunochemotherapy for malignant pleural mesothelioma and the feasibility of adjuvant immunochemotherapy after maximal cytoreduction. Ann Surg Oncol 1995;2:214 –20. 4. Benard F, Sterman D, Smith RJ, Kaiser LR, Albelda SM, Alavi A. Metabolic imaging of malignant pleural mesothelioma with fluorodeoxyglucose positron emission tomography. Chest 1998;114:713–22. 5. Van Veen P, Schouwink JH, Star WM, et al. Wedge-shaped applicator for additional light delivery and dosimetry in the diaphragmal sinus during photodynamic therapy for malignant pleural mesothelioma. Phys Med Biol 2001;46:1873–83.
Reply
To the Editor: The major differences between the phase I/II study reported by Schouwink and associates [1] and our study [2] are the maximally tolerated dose of photodynamic therapy (PDT) (longer drug-light interval), the nature of the dose-limiting toxicity, and the use of parenchymal-sparing surgical intervention in a substantial number 0003-4975/04/$30.00