Melanoma: Kettelhack C

Garbe C, Hauschild A, Volkenandt M, Schadendorf D, Stolz W, Reinhold U, Kortmann RD, Kettelhack C, Frerich B, Keilholz U, Dummer R, Sebastian G, Tilgen W, Schuler G, Mackensen A, Kaufmann R. · University Department of Dermatology, Tübingen, Germany. · Melanoma Res. · Pubmed #18337653 No free full text.

Abstract: Systemic medical treatment of melanoma is administered in the adjuvant and palliative setting. Adjuvant therapy may be considered in patients with primary melanoma with more than 1.5 mm tumor thickness and with regional node metastasis. Presently no indication for systemic adjuvant chemotherapy or for adjuvant therapy with nonspecific immune-stimulatory agents outside controlled studies is seen. Interferon-alpha is the first substance in the adjuvant therapy of melanoma, which has shown to present a significant advantage to the patients in some prospective randomized studies. Good arguments for using adjuvant interferon-alpha therapy in high-risk melanoma patients exist. Both high-dose and low-dose interferon-alpha show promise. The major indications for systemic chemotherapy and chemoimmunotherapy are inoperable recurrent tumors, inoperable regional metastases and distant metastases (stage IV). As treatment in such situations is primarily palliative, the effect of any regimen on the quality of life must be carefully weighed. As a first line treatment, single agent therapy is recommended, as polychemotherapy or biochemotherapy did not show significant advantages for prolongation of survival; hence they are more toxic. An urgent need for development of new treatment modalities is necessary and general principles of experimental immunotherapy are outlined.

Garbe C, Hauschild A, Volkenandt M, Schadendorf D, Stolz W, Reinhold U, Kortmann RD, Kettelhack C, Frerich B, Keilholz U, Dummer R, Sebastian G, Tilgen W, Schuler G, Mackensen A, Kaufmann R. · University Department of Dermatology, Tübingen, Germany. · Melanoma Res. · Pubmed #18227710 No free full text.

Abstract: The primary treatment of a melanoma is surgical excision. An excisional biopsy is preferred, and safety margins of 1 cm for tumor thickness up to 2 mm and 2 cm for higher tumor thickness should be applied either at primary excision or in a two-step procedure. When dealing with facial, acral or anogenital melanomas, micrographic control of the surgical margins may be preferable to allow reduced safety margins and conservation of tissue. The sentinel lymph node biopsy should be performed in patients whose primary melanoma is thicker than 1.0 mm and this operation should be performed in centers where both the operative and nuclear medicine teams are experienced. In clinically identified lymph node metastases, radical lymph node dissection is considered standard therapy. If distant metastases involve just one internal organ and operative removal is feasible, then surgery should be seen as therapy of choice. Radiation therapy for the primary treatment of melanoma is indicated only in those cases in which surgery is impossible or not reasonable. In regional lymph nodes, radiation therapy is usually recommended when excision is not complete (R1 resection) or if the nodes are inoperable. In distant metastases, radiation therapy is particularly indicated in bone metastases, brain metastases and soft tissue metastases.

Garbe C, Hauschild A, Volkenandt M, Schadendorf D, Stolz W, Kortmann RD, Kettelhack C, Frerich B, Keilholz U, Dummer R, Sebastian G, Tilgen W, Schuler G, Mackensen A, Kaufmann R. · Universitäts-Hautklinik Tübingen. · J Dtsch Dermatol Ges. · Pubmed #16638065 No free full text.

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Siegel R, Hauschild A, Kettelhack C, Kähler KC, Bembenek A, Schlag PM. · Department of Surgery and Surgical Oncology, Charité-Universitätsmedizin Berlin, Campus Buch, Robert-Rössle-Tumour-Hospital at Helios Klinikum Berlin-Buch, D-13125 Berlin, Germany. · Eur J Surg Oncol. · Pubmed #17196362 No free full text.

Abstract: AIM: Hepatic metastases from melanoma are associated with poor prognosis. Systemic chemotherapy and biological treatments remain unsatisfactory. This study investigated the impact of hepatic arterial chemotherapy in patients with ocular and cutaneous melanoma. METHODS: In a retrospectively analysed observational study, 36 consecutive patients with hepatic metastases from ocular or cutaneous melanoma were assigned for surgical hepatic port-catheter implantation. Fotemustine was delivered weekly for a 4-week period, followed by a 5-week rest and a maintenance period every 3 weeks until progression. Overall survival, response and toxicity were analysed and compared. RESULTS: After port-catheter implantation 30/36 patients were finally treated (18 with ocular and 12 with cutaneous melanoma). A median of 8 infusions per patient were delivered (range 3-24). 30% thrombocytopenia grade >or=3, 7% neutropenia grade >or=3 but no nausea or vomiting grade >or=3 were encountered. Nine out of 30 patients achieved partial remission, 10/30 stable disease; 11/30 patients were progressive. Median survival for all treated patients was 14 months. Partial remission and stable disease were associated with a survival advantage compared to progressive disease (19 vs. 5 months). No significant difference in survival was observed for ocular versus cutaneous melanoma. Serum LDH was a significant predictor of both response and survival. CONCLUSIONS: Hepatic arterial Fotemustine chemotherapy was well tolerated. Meaningful response and survival rates were achieved in ocular as well as cutaneous melanoma. Careful patient selection in consideration of extra-hepatic involvement is crucial for the effectiveness of this treatment. Independent from the primary melanoma site, it is debatable if patients with highly elevated serum-LDH may benefit from this approach.

Hohenberger P, Latz E, Kettelhack C, Rezaei AH, Schumann R, Schlag PM. · Division of Surgery and Surgical Oncology, Robert Rössle Hospital and Tumor Institute, Max Delbrück Center for Molecular Medicine, Berlin, Germany. · Ann Surg Oncol. · Pubmed #12794024 No free full text.

Abstract: BACKGROUND: Isolated limb perfusion (ILP) with recombinant human tumor necrosis factor-alpha (rhTNF-alpha) and melphalan harbors the risk of septic shock-like syndrome. Pentoxifyllin (PTX) produced a beneficial effect on cytokine response and survival in animal experiments of septic shock, and we were interested to explore its effect during TNF-ILP in humans. METHODS: Eighteen consecutive patients underwent TNF-ILP and received PTX (30 mg/kg/day), whereas another 13 consecutive patients did not. PTX was given systemically after the limb extracorporeal circulation was started. Cardiac index, systemic vascular resistance (SVR), and pulmonary vascular resistance were recorded via a Swan-Ganz catheter. Blood levels of TNF-alpha, interleukin-6, procalcitonin, and lipopolysaccharide-binding protein were determined before, during, and after ILP. RESULTS: After reperfusion, systemic levels of TNF-alpha were significantly less increased in the PTX group (peak, 2.8 vs. 1.3 ng/mL; P <.05), as were interleukin-6 values (peak, 68 vs. 22 pg/mL; P <.02) and lipopolysaccharide-binding protein plasma levels (peak, 215 vs. 105 micro g/mL; P <.03). Differences in cardiac index, SVR, and mean arterial blood pressure were not significantly different. Norepinephrine or dobutamine to maintain SVR was less required in the PTX group. CONCLUSIONS: PTX attenuates systemic cytokine production and influences components of the systemic inflammatory response after TNF-ILP. PTX may play a beneficial role in the management of septic shock-like syndrome, particularly in patients with leakage from the ILP circuit.

Kettelhack C, Wickede M, Vogl T, Schneider U, Hohenberger P. · Division of Surgery and Surgical Oncology, Robert Roessle Hospital and Tumor Institute at the Max Delbrück Center for Molecular Medicine, Charite, Campus Berlin-Buch, Humboldt University at Berlin, Berlin, Germany. · Cancer. · Pubmed #11920514 links to  free full text

Abstract: BACKGROUND: In patients with unresectable soft tissue sarcoma of the extremities, isolated limb perfusion (ILP) has been reported to result in significant tumor regression enabling limb-sparing resection in the majority of patients. However, clinical tumor response as evaluated by imaging and histopathology (extent of tumor necrosis) often differ significantly. The current study was initiated to evaluate prospectively the role of 31phosphorus-magnetic resonance spectroscopy (31P-MRS) in the noninvasive assessment of histologic response in patients treated with ILP. METHODS: Thirty-two patients with locally advanced and unresectable soft tissue tumors (sarcoma in 28 patients and bulky melanoma in 4 patients) were treated by ILP with recombinant human tumor necrosis factor-alpha and melphalan or with cytostatics. 31P-MRS was performed prior to treatment and at regular intervals after ILP until definite tumor resection. Clinical response parameters according to the World Health Organization as well as the histopathologic necrosis rate of the resection specimen were correlated with changes in the energy-rich phosphorous metabolites phosphocreatine (PCR); alpha-, beta-, gamma-adenosine triphosphate (ATP); phosphomonoesters (PME); and inorganic phosphate (Pi). RESULTS: Clinically, 15 of 32 patients (response rate [RR] of 47%) demonstrated a partial response (PR). The ratios of PME/PCR and PME/beta-ATP decreased significantly after ILP in comparison with preoperative values (P < 0.001). The changes in the PME/beta-ATP ratio were significantly different between clinical responders and nonresponders (P < 0.02) in contrast with the PME/PCR ratios (P < 0.09). Histologic necrosis of > 90% (pathologic (p) PR) was present in 17 resection specimens, 7 of which demonstrated no clinical response. Seven tumors demonstrated a pathologic complete response (pCR). When combining PR, pPR, and pCR (RR of 68%), 31P-MRS was able to predict response with a specificity of 94% and a sensitivity of 68% (P < 0.006, by the chi-square test). CONCLUSIONS: The considerable difference between clinical and pathologic RR after ILP underlines the shortcomings of established response criteria. Utilizing changes in PME/beta-ATP ratios, 31P-MRS is a highly specific tool with which to predict histologic response in this setting. This finding may be of major value in those patients in whom the decision to perform a major resection or amputation must be made for local tumor control.

Garbe C, Schadendorf D, Stolz W, Volkenandt M, Reinhold U, Kortmann RD, Kettelhack C, Frerich B, Keilholz U, Dummer R, Sebastian G, Tilgen W, Schuler G, Mackensen A, Kaufmann R, Hauschild A. · Sektion Dermatologische Onkologie, Universitäts-Hautklinik, Liebermeister Strasse 25, D-72076 Tübingen, Germany. · J Dtsch Dermatol Ges. · Pubmed #18801142 No free full text.

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Kettelhack C. · Klinik für Allgemeinchirurgie, Universitätsspital Basel, CH-4031 Basel. · Ther Umsch. · Pubmed #18622957 No free full text.

Abstract: Surgical treatment of primary cutaneous melanoma has significantly changed in the last decades. Tumors are excised with lateral margins of 1-2 cm depending on the depth of tumor infiltration, and reconstructive procedures for defect closure are rarely necessary. Elective lymph node dissection has been replaced by the sentinel lymph node procedure and radical lymph node dissection is restricted to patients with positive lymph nodes. Follow-up of melanoma has been adapted to the individual risk profile of the patient. In early stage melanoma only clinical follow-up examinations are warranted. Ultrasound investigations of the regional lymph nodes is recommended for patients with locally advanced melanoma and with lymph nodes metastases. CT-scans, MRI and PET/CT are recommended only for stage III patients and it has to be taken into account that these evaluations may have only limited value regarding the prognosis of the patients. In stage IV melanoma, the follow-up scheme should be adapted to the individual needs of the patient.

Garbe C, Hauschild A, Volkenandt M, Schadendorf D, Stolz W, Reinhold U, Kortmann RD, Kettelhack C, Frerich B, Keilholz U, Dummer R, Sebastian G, Tilgen W, Schuler G, Mackensen A, Kaufmann R. · University Department of Dermatology, Tübingen, Germany. · Melanoma Res. · Pubmed #17992123 No free full text.

Abstract: Melanoma is a malignant tumor that arises from melanocytic cells and primarily involves the skin. The most important exogenous etiological factor is exposure to ultraviolet irradiation. Diagnosis of melanoma is based primarily on its clinical features, and the A-B-C-D rule is useful in identifying pigmented lesions, which are suspicious for melanoma (Asymmetry, Border irregular, Color inhomogeneous and Diameter more than 5 mm). Dermoscopy is very helpful in clarifying the differential diagnosis of pigmented lesions. About 90% of melanomas are diagnosed as primary tumors without any evidence for metastasis. The tumor-specific 10-year survival for all such tumors is about 75-85%. The most important prognostic factors for primary melanoma without metastases are vertical tumor thickness (Breslow depth) as measured on the histological specimen, presence of histopathologically recognized ulceration, invasion level (Clark level) and identification of micrometastases in the regional lymph nodes via sentinel lymph node biopsy. The current tumor node metastasis classification for the staging of primary melanoma is based on these factors. Melanomas can metastasize either by the lymphatic or by the hematogenous route. About two-thirds of metastases are originally confined to the drainage area of regional lymph nodes. A regional metastasis can appear as satellite metastases up to 2 cm from the primary tumor, as intransit metastases in the skin between the site of the primary tumor and the first lymph node and as regional lymph node metastases. In the stage of regional metastasis, the differentiation between micrometastasis and macrometastasis and the number of lymph nodes involved are crucial. As soon as distant metastasis develops, prognosis depends on the site of the metastasis and on the lactate dehydrogenase levels in the blood. The frequency and extent of follow-up examinations is based on the initial tumor parameters. In thin primary melanomas up to 1-mm tumor thickness, clinical examinations at 6-month intervals are sufficient and in thicker primary melanomas, at 3-month intervals. Lymph node sonography as well as determination of the tumor marker protein S100beta are recommended. Additionally, in the stage of regional metastasis, whole body imaging should be performed every 6 months; in the stage of distant metastasis, surveillance has to be scheduled individually.

Schlag PM, Liebeskind U, Bembenek A, Slisow W, Benhidjeb T, Kettelhack C, Tunn PU. · Klinik für Chirurgie und Chirurgische Onkologie, Robert-Rössle-Klinik im Helios Klinikum Berlin, Universitätsklinikum Charité, Campus Buch, Berlin, Germany. · Onkologie. · Pubmed #12232481 No free full text.

Abstract: Advances in surgical tumor therapy are founded on a very close interaction between different surgical subspecialties as well as the inclusion of surgical into modern multimodality treatment concepts. The ongoing development of surgical techniques, e.g. microsurgical flap transfers or pouch reconstructions of intestinal reservoirs, has increasingly enabled organ- and function-preserving surgery. In addition, new materials (e.g. modular tumor endoprosthesis) has supported this development. The broad application of the sentinel node technique in melanoma and breast cancer and also in gastrointestinal tract cancers opens new concepts of diagnosis and therapy for lymphatic metastasized tumors. Locally advanced tumors can be treated in neoadjuvant protocols to increase the resectability rate and the probability for local control as a prerequisite for long-term survival. Especially for metastatic disease, interventional treatment techniques such as laser-induced thermotherapy (LITT) or photodynamic therapy have added valuable options to surgical treatment.

Kettelhack C, Hohenberger P, Schulze G, Kilpert B, Schlag PM. · Division of Surgery and Surgical Oncology, Robert Rössle Hospital and Tumor Institute, Max Delbrück Center for Molecular Medicine, Charité, The Humboldt University at Berlin, Germany. · Crit Care Med. · Pubmed #10809279 No free full text.

Abstract: OBJECTIVES: Isolated, hyperthermic limb perfusion (ILP) with recombinant human tumor necrosis factor-alpha (rhTNF-alpha) and melphalan is a highly effective treatment for locoregional metastases of malignant melanoma and for advanced soft tissue sarcoma of the limb. The major systemic side effects are characterized by the induction of a systemic inflammatory response syndrome (SIRS). Procalcitonin (PCT), a serum marker of bacterial sepsis, was investigated with respect to its role in SIRS after ILP. SETTING: University surgical oncology division with an integrated eight-bed intensive care unit. PATIENTS: Thirty-seven patients were treated by ILP with rhTNF-alpha and melphalan (n = 26) or with cytostatics alone (n = 11) for soft tissue sarcoma or malignant melanoma. INTERVENTIONS: The course of serum PCT, interleukin (IL)-6, and IL-8 was analyzed intra- and postoperatively. Hemodynamic variables including heart rate, mean arterial pressure, cardiac index, pulmonary arterial pressure, pulmonary capillary occlusion pressure, and pulmonary and systemic vascular resistance were recorded in parallel. MEASUREMENTS AND MAIN RESULTS: PCT was significantly elevated over baseline after ILP with a maximum between 8 hrs (peak level 16.0+/-18.8 (SD) ng/mL) and 36 hrs (13.8+/-15.7 ng/mL) (p < .001). The increase in serum PCT was significantly more pronounced after ILP with rhTNF-alpha/melphalan than after ILP with cytostatics alone (p < .001). IL-6 and IL-8 were also significantly increased after ILP (p = .001), reaching peak concentrations at 1 hr and 4 hrs postoperatively. Significant changes in heart rate, mean arterial pressure, cardiac index, and systemic vascular resistance were observed during and after ILP; however, PCT levels could not be correlated to these variables. Pulmonary arterial pressure, pulmonary capillary occlusion pressure, and pulmonary vascular resistance showed no significant changes. CONCLUSIONS: Serum procalcitonin is induced as part of the SIRS after ILP with rhTNF-alpha/melphalan. It may be induced directly by rhTNF-alpha or other cytokines, because serum peaks of IL-6 and IL-8 precede the peak of PCT. Because there is no correlation between serum levels of PCT and hemodynamic variables, this marker cannot be applied to assess the severity of SIRS reaction after ILP.

Utikal J, Zimpfer A, Thoelke A, Figl R, Hildenbrand R, Kettelhack C, Goerdt S, Schadendorf D, Ugurel S. · No affiliation provided · Br J Dermatol. · Pubmed #16882203 No free full text.

This publication has no abstract.