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16 results on '"Haselmann, R."'

2. Government Ownership of Banks and Corporate Innovation

Author

Bian, B, Haselmann, R, Vig, V, and di Mauro, B W

Abstract

In this paper we analyze the impact of government and private ownership of banks on corporate innovation. We find that firms with more financing from government-owned banks are less (more) likely to initiate (exit) innovation. Among the innovators, firms that finance more through private banks have more innovative output. These findings could be driven by the selection of lending relationships based on firms' preferences to innovate or, alternatively, by the crowding out of innovation due to the presence of government-owned banks. To differentiate between these two explanations, we use the timing of government-owned bank distress events over the electoral cycle as an instrument. We show a remarkable increase in innovation following an exogenous decrease in government ownership of banks. Moreover, the allocation of credit is more responsive to the financing needs of future innovators among private banks, shedding light on the mechanism. Overall our results suggest that government involvement in the allocation of credit crowds out private banking and comes at the cost of lower corporate innovation.

Published
2019

3. Treatment of non-small cell lung cancer with intensity-modulated radiation therapy in combination with cetuximab: the NEAR protocol (NCT00115518)

Author

Hoess A, Heeger S, Nill S, Sterzing F, Krempien R, Timke C, Haselmann R, Bischoff H, Münter MW, Jensen AD, Haberkorn U, Huber PE, Steins M, Thomas M, Debus J, and Herfarth KK

Subjects
Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Abstract Background Even today, treatment of Stage III NSCLC still poses a serious challenge. So far, surgical resection is the treatment of choice. Patients whose tumour is not resectable or who are unfit to undergo surgery are usually referred to a combined radio-chemotherapy. However, combined radio-chemotherapeutic treatment is also associated with sometimes marked side effects but has been shown to be more efficient than radiation therapy alone. Nevertheless, there is a significant subset of patients whose overall condition does not permit administration of chemotherapy in a combined-modality treatment. It could be demonstrated though, that NSCLCs often exhibit over-expression of EGF-receptors hence providing an excellent target for the monoclonal EGFR-antagonist cetuximab (Erbitux®) which has already been shown to be effective in colorectal as well as head-and-neck tumours with comparatively mild side-effects. Methods/design The NEAR trial is a prospective phase II feasibility study combining a monoclonal EGF-receptor antibody with loco-regional irradiation in patients with stage III NSCLC. This trial aims at testing the combination's efficacy and rate of development of distant metastases with an accrual of 30 patients. Patients receive weekly infusions of cetuximab (Erbitux®) plus loco-regional radiation therapy as intensity-modulated radiation therapy. After conclusion of radiation treatment patients continue to receive weekly cetuximab for 13 more cycles. Discussion The primary objective of the NEAR trial is to evaluate toxicities and feasibility of the combined treatment with cetuximab (Erbitux®) and IMRT loco-regional irradiation. Secondary objectives are remission rates, 3-year-survival and local/systemic progression-free survival.

Published
2006
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5. De Azië-crisis was voorspelbaar

Author

Ziesemer, T.H.W., Kool, C.J.M., Holle, S., Haselmann, R., Macro, International & Labour Economics, and RS: GSBE METEOR T4

Published
2003

8. Treatment of non-small cell lung cancer with intensity-modulated radiation therapy in combination with cetuximab: the NEAR protocol (NCT00115518)

Author

Jensen, AD, primary, Münter, MW, additional, Bischoff, H, additional, Haselmann, R, additional, Timke, C, additional, Krempien, R, additional, Sterzing, F, additional, Nill, S, additional, Heeger, S, additional, Hoess, A, additional, Haberkorn, U, additional, Huber, PE, additional, Steins, M, additional, Thomas, M, additional, Debus, J, additional, and Herfarth, KK, additional

Published
2006
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10. The limits of model-based regulation

Author

Behn, M, Haselmann, R, and Vig, V

Abstract

Using loan-level data from Germany, we investigate how the introduction of model-based capital regulation affected banks’ ability to absorb shocks. The objective of this regulation was to enhance financial stability by making capital requirements responsive to asset risk. Our evidence suggests that banks ‘optimized’ model-based regulation to lower their capital requirements. Banks systematically underreported risk, with underreporting being more pronounced for banks with higher gains from it. Moreover, large banks benefitted from the regulation at the expense of smaller banks. Overall, our results suggest that sophisticated rules may have undesired effects if strategic misbehavior is difficult to detect.

11. The Political Economy of Decentralization: Evidence from Bank Bailouts

Author

Bian, B, Haselmann, R, Kick, T, and Vig, V

Abstract

In this paper, we examine whether decentralized decision making results in more efficient economic outcomes. In the German savings bank sector, distress events can be resolved either by a decentralized county-level politician or by a centralized state-level association. We document that decisions taken by the politicians at the decentralized level are distorted by personal considerations. While the occurrence of distress is not related to the electoral cycle, the probability of local politicians injecting taxpayers’ money into a bank in distress is 30 percent lower in the year directly preceding an election. Using the timing of the distress event in the electoral cycle as an instrument for who bails out the distressed bank, we show that decentralized bailouts result in inferior economic outcomes. These bailed-out banks perform more poorly and provision credit less efficiently when compared with more central-ized bailouts. We also observe a significantly worse real sector performance of localities that have undergone decentralized bailouts. Overall, our results highlight the political economy of decentralization – local politicians derive private benefits from controlling the bank at the expense of citizens at large.

12. Phase I study evaluating the treatment of patients with locally advanced pancreatic cancer with carbon ion radiotherapy: the PHOENIX-01 trial.

Author

Combs SE, Habermehl D, Kieser M, Dreher C, Werner J, Haselmann R, Jäkel O, Jäger D, Büchler MW, and Debus J

Subjects
Antimetabolites, Antineoplastic administration & dosage, Antimetabolites, Antineoplastic therapeutic use, Chemoradiotherapy, Adjuvant, Deoxycytidine administration & dosage, Deoxycytidine analogs & derivatives, Deoxycytidine therapeutic use, Humans, Neoplasm Staging, Pancreatic Neoplasms drug therapy, Pancreatic Neoplasms mortality, Radiation Dosage, Treatment Outcome, Gemcitabine, Clinical Protocols, Heavy Ion Radiotherapy adverse effects, Pancreatic Neoplasms pathology, Pancreatic Neoplasms radiotherapy
Abstract

Background: Treatment options for patients with locally advanced pancreatic cancer include surgery, chemotherapy as well as radiotherapy. In many cases, surgical resection is not possible, and therefore treatment alternatives have to be performed. Chemoradiation has been established as a convincing treatment alternative for locally advanced pancreatic cancer. Carbon ions offer physical and biological characteristics. Due to their inverted dose profile and the high local dose deposition within the Bragg peak precise dose application and sparing of normal tissue is possible. Moreover, in comparison to photons, carbon ions offer an increased relative biological effectiveness (RBE), which can be calculated between 1.16 and 2.46 depending on the pancreatic cancer cell line as well as the endpoint analyzed. Japanese Data on the evaluation of carbon ion radiation therapy showed promising results for patients with pancreatic cancer., Methods and Design: The present PHOENIX-01 trial evaluates carbon ion radiotherapy using the active rasterscanning technique in patients with advanced pancreatic cancer in combination with weekly gemcitabine and adjuvant gemcitabine. Primary endpoint is toxicity, secondary endpoints are overall survival, progression-free survival and response., Discussion: The physical and biological properties of the carbon ion beam promise to improve the therapeutic ratio in patients with pancreatic cancer: Due to the inverted dose profile dose deposition in the entry channel of the beam leads to sparing of normal tissue; the Bragg peak can be directed into the defined target volume, and the sharp dose fall-off thereafter again spares normal tissue behind the target volume. The higher RBE of carbon ions, which has been shown also for pancreatic cancer cell lines in the preclinical setting, is likely to contribute to an increase in local control, and perhaps in OS. Early data from Japanese centers have shown promising results. In conclusion, this is the first trial to evaluate actively delivered carbon ion beams in patients with locally advanced pancreatic cancer within a dose-escalation strategy., Trial Registration: NCT01795274.

Published
2013
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13. Treatment of patients with atypical meningiomas Simpson grade 4 and 5 with a carbon ion boost in combination with postoperative photon radiotherapy: the MARCIE trial.

Author

Combs SE, Edler L, Burkholder I, Rieken S, Habermehl D, Jäkel O, Haberer T, Unterberg A, Wick W, Debus J, and Haselmann R

Subjects
Biopsy, Disease-Free Survival, Humans, Neoplasm Staging methods, Photons, Radiotherapy methods, Research Design, Sample Size, Time Factors, Treatment Outcome, Carbon therapeutic use, Ions therapeutic use, Meningioma radiotherapy, Meningioma surgery
Abstract

Background: Treatment standard for patients with atypical or anaplastic meningioma is neurosurgical resection. With this approach, local control ranges between 50% and 70%, depending on resection status. A series or smaller studies has shown that postoperative radiotherapy in this patient population can increase progression-free survival, which translates into increased overall survival. However, meningiomas are known to be radioresistant tumors, and radiation doses of 60 Gy or higher have been shown to be necessary for tumor control. Carbon ions offer physical and biological characteristics. Due to their inverted dose profile and the high local dose deposition within the Bragg peak precise dose application and sparing of normal tissue is possible. Moreover, in comparison to photons, carbon ions offer an increased relative biological effectiveness (RBE), which can be calculated between 2 and 5 depending on the cell line as well as the endpoint analyzed.First data obtained within the Phase I/II trial performed at GSI in Darmstadt on carbon ion radiotherapy for patients with high-risk meningiomas has shown safety, and treatment results are promising., Methods/design: The Phase II-MARCIE-Study will evaluate a carbon ion boost applied to the macroscopic tumor in conjunction with photon radiotherapy in patients with atypical meningiomas after incomplete resection or biopsy.Primary endpoint is progression-free survival, secondary endpoints are overall survival, safety and toxicity., Discussion: Based on published data on the treatment of atypical meningiomas with carbon ions at GSI, the present study will evaluate this treatment concept in a larger patient population and will compare outcome to current standard photon treatment., Trial Registration: NCT01166321.

Published
2010
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14. Randomised phase I/II study to evaluate carbon ion radiotherapy versus fractionated stereotactic radiotherapy in patients with recurrent or progressive gliomas: the CINDERELLA trial.

Author

Combs SE, Burkholder I, Edler L, Rieken S, Habermehl D, Jäkel O, Haberer T, Haselmann R, Unterberg A, Wick W, and Debus J

Subjects
Contrast Media pharmacology, Disease-Free Survival, Dose Fractionation, Radiation, Dose-Response Relationship, Radiation, Humans, Ions therapeutic use, Japan, Models, Statistical, Recurrence, Research Design, Treatment Outcome, Brain Neoplasms radiotherapy, Carbon therapeutic use, Glioma radiotherapy, Radiotherapy methods
Abstract

Background: Treatment of patients with recurrent glioma includes neurosurgical resection, chemotherapy, or radiation therapy. In most cases, a full course of radiotherapy has been applied after primary diagnosis, therefore application of re-irradiation has to be applied cauteously. With modern precision photon techniques such as fractionated stereotactic radiotherapy (FSRT), a second course of radiotherapy is safe and effective and leads to survival times of 22, 16 and 8 months for recurrent WHO grade II, III and IV gliomas.Carbon ions offer physical and biological characteristics. Due to their inverted dose profile and the high local dose deposition within the Bragg peak precise dose application and sparing of normal tissue is possible. Moreover, in comparison to photons, carbon ions offer an increased relative biological effectiveness (RBE), which can be calculated between 2 and 5 depending on the GBM cell line as well as the endpoint analyzed. Protons, however, offer an RBE which is comparable to photons.First Japanese Data on the evaluation of carbon ion radiation therapy for the treatment of primary high-grade gliomas showed promising results in a small and heterogeneous patient collective., Methods Design: In the current Phase I/II-CINDERELLA-trial re-irradiation using carbon ions will be compared to FSRT applied to the area of contrast enhancement representing high-grade tumor areas in patients with recurrent gliomas. Within the Phase I Part of the trial, the Recommended Dose (RD) of carbon ion radiotherapy will be determined in a dose escalation scheme. In the subsequent randomized Phase II part, the RD will be evaluated in the experimental arm, compared to the standard arm, FSRT with a total dose of 36 Gy in single doses of 2 Gy.Primary endpoint of the Phase I part is toxicity. Primary endpoint of the randomized part II is survival after re-irradiation at 12 months, secondary endpoint is progression-free survival., Discussion: The Cinderella trial is the first study to evaluate carbon ion radiotherapy for recurrent gliomas, and to compare this treatment to photon FSRT in a randomized setting using an ion beam delivered by intensity modulated rasterscanning., Trial Registration: NCT01166308.

Published
2010
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15. Randomized phase II study evaluating a carbon ion boost applied after combined radiochemotherapy with temozolomide versus a proton boost after radiochemotherapy with temozolomide in patients with primary glioblastoma: the CLEOPATRA trial.

Author

Combs SE, Kieser M, Rieken S, Habermehl D, Jäkel O, Haberer T, Nikoghosyan A, Haselmann R, Unterberg A, Wick W, and Debus J

Subjects
Adolescent, Brain Neoplasms pathology, Combined Modality Therapy, Dacarbazine therapeutic use, Female, Glioblastoma pathology, Humans, Male, Prognosis, Radiotherapy Dosage, Relative Biological Effectiveness, Survival Rate, Temozolomide, Antineoplastic Agents, Alkylating therapeutic use, Brain Neoplasms therapy, Carbon therapeutic use, Dacarbazine analogs & derivatives, Glioblastoma therapy, Proton Therapy
Abstract

Background: Treatment standard for patients with primary glioblastoma (GBM) is combined radiochemotherapy with temozolomide (TMZ). Radiation is delivered up to a total dose of 60 Gy using photons. Using this treatment regimen, overall survival could be extended significantly however, median overall survival is still only about 15 months. Carbon ions offer physical and biological advantages. Due to their inverted dose profile and the high local dose deposition within the Bragg peak precise dose application and sparing of normal tissue is possible. Moreover, in comparison to photons, carbon ions offer an increase relative biological effectiveness (RBE), which can be calculated between 2 and 5 depending on the GBM cell line as well as the endpoint analyzed. Protons, however, offer an RBE which is comparable to photons. First Japanese Data on the evaluation of carbon ion radiation therapy showed promising results in a small and heterogeneous patient collective., Methods/design: In the current Phase II-CLEOPATRA-Study a carbon ion boost will be compared to a proton boost applied to the macroscopic tumor after surgery at primary diagnosis in patients with GBM applied after standard radiochemotherapy with TMZ up to 50 Gy. In the experimental arm, a carbon ion boost will be applied to the macroscopic tumor up to a total dose of 18 Gy E in 6 fractions at a single dose of 3 Gy E. In the standard arm, a proton boost will be applied up to a total dose 10 Gy E in 5 single fractions of 2 Gy E. Primary endpoint is overall survival, secondary objectives are progression-free survival, toxicity and safety., Discussion: The Cleopatra Trial is the first study to evaluate the effect of carbon ion radiotherapy within multimodality treatment of primary glioblastoma in a randomized trial comparing this innovative treatment of the treatment standard, consisitng of photon radiotherapy in combination with temozolomide., Trial Registration: ISRCTN37428883 and NCT01165671.

Published
2010
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16. Treatment of primary glioblastoma multiforme with cetuximab, radiotherapy and temozolomide (GERT)--phase I/II trial: study protocol.

Author

Combs SE, Heeger S, Haselmann R, Edler L, Debus J, and Schulz-Ertner D

Subjects
Adolescent, Adult, Aged, Antibodies, Monoclonal administration & dosage, Antibodies, Monoclonal, Humanized, Antineoplastic Combined Chemotherapy Protocols adverse effects, Cetuximab, Combined Modality Therapy, Dacarbazine administration & dosage, Dacarbazine analogs & derivatives, Disease Progression, ErbB Receptors antagonists & inhibitors, ErbB Receptors physiology, Female, Humans, Male, Middle Aged, Survival Analysis, Temozolomide, Antineoplastic Combined Chemotherapy Protocols therapeutic use, Brain Neoplasms drug therapy, Brain Neoplasms radiotherapy, Glioblastoma drug therapy, Glioblastoma radiotherapy
Abstract

Background: The implementation of combined radiochemotherapy (RCHT) with temozolomide (TMZ) has lead to a significant increase in overall survival times in patients with Glioblastoma multiforme (GBM), however, outcome still remains unsatisfactory. The majority of GBMs show an overexpression and/or amplification of the epidermal growth factor receptor (EGFR). Therefore, addition of EGFR-inhibition with cetuximab to the current standard treatment approach with radiotherapy and TMZ seems promising., Methods/design: GERT is a one-armed single-center phase I/II trial. In a first step, dose-escalation of TMZ from 50 mg/m2 to 75 mg/m2 together with radiotherapy and cetuximab will be performed. Should safety be proven, the phase II trial will be initiated with the standard dose of 75 mg/m2 of TMZ. Cetuximab will be applied in the standard application dose of 400 mg/m2 in week 1, thereafter at a dose of 250 mg/m2 weekly. A total of 46 patients will be included into this phase I/II trial. Primary endpoints are feasibility and toxicity, secondary endpoints are overall and progression-free survival. An interim analysis will be performed after inclusion of 15 patients into the main study. Patients' enrollment will be performed over a period of 2 years. The observation time will end 2 years after inclusion of the last patient., Discussion: The goal of this study is to evaluate the safety and efficacy of combined RCHT-immunotherapy with TMZ and cetuximab as first-line treatment for patients with primary GBM.

Published
2006
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