Hirntumoren im Kindesalter

About 380 children younger than 16 years of age are diagnosed with a brain tumor in Germany every year. Compared to adults, different types of brain tumors are found in children. The diagnosis is often delayed in spite of presentation with characteristic symptoms. Unspecific persistent symptoms must be followed by further diagnostics. Since the 1980s, multimodal therapeutic regimens have been developed systematically by the Society for Pediatric Oncology and Hematology (GPOH) in the context of treatment optimalization trials. Neurosurgery, chemotherapy and irradiation are applied according to histology, stage of metastasis, and the age of the children. Currently, 80–90% of children diagnosed with a brain tumor in Germany are treated according to the respective trial in the context of the ‘treatment network HIT’. The principle aims are improved survival and quality of life, and the reduction of therapy-associated toxicity and late-effects. In this article, typical clinical symptoms, diagnostic recommendations and current treatment strategies are described.     

VEGFR-3 Neutralization Inhibits Ovarian Lymphangiogenesis,Follicle Maturation,and Murine Pregnancy

Lymphatic vessels surround follicles within the ovary, but their roles in folliculogenesis and pregnancy, as well as the necessity of lymphangiogenesis in follicle maturation and health, are undefined. We used systemic delivery of mF4-31C1, a specific antagonist vascular endothelial growth factor receptor 3 (VEGFR-3) antibody to block lymphangiogenesis in mice. VEGFR-3 neutralization for 2 weeks before mating blocked ovarian lymphangiogenesis at all stages of follicle maturation, most notably around corpora lutea, without significantly affecting follicular blood angiogenesis. The numbers of oocytes ovulated, fertilized, and implanted in the uterus were normal in these mice; however, pregnancies were unsuccessful because of retarded fetal growth and miscarriage. Fewer patent secondary follicles were isolated from treated ovaries, and isolated blastocysts exhibited reduced cell densities. Embryos from VEGFR-3–neutralized dams developed normally when transferred to untreated surrogates. Conversely, normal embryos transferred into mF4-31C1–treated dams led to the same fetal deficiencies observed with in situ gestation. Although no significant changes were measured in uterine blood or lymphatic vascular densities, VEGFR-3 neutralization reduced serum and ovarian estradiol concentrations during gestation. VEGFR-3–mediated lymphangiogenesis thus appears to modulate the folliculogenic microenvironment and may be necessary for maintenance of hormone levels during pregnancy; both of these are novel roles for the lymphatic vasculature.Ovarian neovascularization provides a unique environment in which to study physiological adult vasculogenesis apart from the traditional settings of wound healing and cancer pathologies. Lymphatic circulation plays a central role in fluid, lipid, and cellular transport,¹ and lymphatic vessels are present within the ovary and surround follicles during development and maturation,^2–5 but the importance of the lymphatic vasculature and lymphangiogenesis in the ovary is unclear. Consequently, the potential roles of lymphatic vessels in follicle maturation and pregnancy, and the extent of involvement or even necessity of maternal lymphangiogenesis in reproduction, are undefined. This contrasts with ovarian blood angiogenesis, whose critical roles in follicular nourishment and maturation and in the formation and maintenance of the corpus luteum are well appreciated; indeed, oocyte fertilization, embryonic implantation, uterine expansion, and successful gestation all require blood angiogenesis.^6–8 Lymphangiogenesis, which is often concurrent with blood angiogenesis,⁹ may also play an important role in these processes.Adult blood angiogenesis requires signaling via vascular endothelial growth factor receptor 2 (VEGFR-2), most potently by VEGF ligation.^10,11 In murine ovaries, VEGF expression increases during angiogenic growth phases,¹² and blockade of VEGFR-2 signaling in mice effectively prevents angiogenesis, resulting in a marked decrease in ovarian weight, blood vessel density, and number of corpora lutea, and in infertility.^13–15 Because gonadotropin treatment apparently does not correct these deficiencies,¹⁶ it is likely that follicle maturation and successful pregnancy are highly dependent on VEGFR-2–mediated neovascularization in the ovary.^6,17 Vascularization also occurs in the uterine wall and decidua during pregnancy, and significant disruption of angiogenesis by VEGFR-2 blockade in these tissues after fertilization has been shown to greatly reduce pregnancy success.¹⁸VEGFR-3 is expressed primarily on lymphatic endothelial cells in adult tissue,^19,20 and its signaling, via ligation by VEGF-C or VEGF-D, is necessary for lymphangiogenesis by inducing lymphatic endothelial cell proliferation and migration.^19–23 Blockade of VEGFR-3 signaling using a function-blocking antibody such as mF4-31C1 (ImClone Systems; Eli Lilly, Indianapolis, IN) completely blocks the initiation of new lymphatic vessels in adult mice without affecting pre-existing lymphatic morphology or function and without apparently affecting blood angiogenesis.^18,21,22 The ovary contains a dense lymphatic network that has been morphologically assessed in large rodents.^24–26 Recent studies in which murine ovarian lymphatic vessel expansion was impaired during development found the dams to be infertile as adults.³We investigated VEGFR-3–mediated lymphangiogenesis and the roles of new lymphatic vessels and lymphangiogenesis in female reproduction and found that lymphangiogenesis occurs within the murine ovary during reproductive cycles and folliculogenesis and that VEGFR-3 neutralization prevents viable, full-term pregnancies. Using combined in vivo, ex vivo, and in vitro methods, we examined which aspects of female fertility are influenced by inhibited maternal lymphangiogenesis including oocyte and follicular development and maturation, uterine implantation, and embryonic development. After we had eliminated direct effects on fetal and uterine VEGFR-3–mediated neovascularization, our results suggested that the new ovarian lymphatic vessels specifically modulate follicle development and hormone production, demonstrating a critical and novel role for ovarian lymphangiogenesis in reproduction.     

A model for the role of HLA-DQ molecules in the pathogenesis of juvenile chronic arthritis

Summary Restriction fragment length polymorphism (RFLP) typing of MHC-class II loci DRB, DQA1, DQB1, DQA2 and DPB1 was performed in 94 patients with seronegative juvenile chronic arthritis (JCA) and 184 random controls. Analysis of allele frequencies and MHC-class II 4-loci haplotypes indicate: (1) Susceptibility to JCA is more strongly associated with the HLA-DQ subregion than with the HLA-DR subregion, especially in early onset pauciarticular JCA (EOPA-JCA). (2) Haplotype and sequence analysis show two independent MHC-class II associations for susceptibility to EOPA-JCA, one located in DQA1, the other in DPB1. (3) Two RFLP defined patterns of the DQA1 locus, DQA1.5 (DQA1^*0501) and DQA1.8 (DQA1^*0401, ^*0601) are strongly associated with the disease. (4) Analysis of amino-acid (AA) sequences coded in exon 2 of DQA1 reveals an AA sequence of six AAs common to all three associated DQA1 alleles. This suggests a model that includes a functional role for HLA-DQ molecules in the pathogenesis of JCA.Most of the data covered in this article are from the doctoral thesis of Haas [39]. Supported by SFB 217 To whom ffprint requests should be sent     

Surgical site infections following short-term radiotherapy and total mesorectal excision: results of a randomized study examining the role of gentamicin collagen implant in rectal cancer surgery

Background

Despite the findings of several randomized clinical studies, the role of gentamicin collagen implant (GCI) in rectal cancer surgery is unclear. Local pelvic application of GCI following preoperative radiotherapy and total mesorectal excision (TME) was evaluated to determine the risk of surgical site infections (SSI).

Methods

In this single-center trial, 176 patients with rectal cancer after preoperative, short-term radiotherapy (5 × 5 Gy) were randomized either to the study group in which GCI was used or in the control group without GCI. Prior to surgery and intraoperatively five patients were excluded from the study. The remaining 171 patients were analyzed; 86 were in the study group and 85 in the control group.

Results

There were no statistically significant differences in the overall rate of early postoperative complications between the study and control group: 25.6 and 34.1 % respectively; p = 0.245, relative risk (RR) 0.750 [95 % confidence interval (CI) 0.471–1.195]. The reoperation rate was similar in both groups: 12.8 versus 9.4 %; p = 0.628; RR 1.359; (95 % CI 0.575–3.212). The total rate of SSI and organ space SSI were 22.2 and 15.8 % without differences between the study and control group. In patients without anastomotic leakage, the risk of organ space SSI was significantly reduced in patients who received GCI: 2.6 versus 13.0 %; p = 0.018.

Conclusions

Application of GCI in the pelvic cavity after short-term preoperative radiotherapy and TME may reduce the risk of organ space SSI but only in the absence of anastomotic leakage.     

Operative field temperature during transnasal endoscopic cranial base procedures

Background

Data regarding the safety of endoscopic skull base exploration are very scarce. With this method, fragile vital structures (cranial nerves, the optic complex, brainstem, hypothalamus or cerebral ventricles) are exposed to direct illumination within a closed space. Also, high-speed drills, cauterization and ultrasonic aspiration deliver a significant load of thermal energy. The aim of this study was to record the temperature close to the structures of the skull base and in the intradural space during the procedures performed using extended endoscopic transnasal approaches.

Methods

The temperature of the skull base was continuously recorded during six transnasal endoscopic procedures. Implantable copper-constantan thermocouples were inserted: one into the esophagus and another through the nostril to reach the operative field at the skull base.

Results

At the beginning of the procedure, the temperature of the operative field was on average 36.8 °C?±?0.80 °C, i.e. only 1 °C higher than the esophageal temperature. Then it grew continuously during the whole procedure, to eventually reach a level of 42–43 °C at the final stage, whereas the esophageal temperature remained stable. Occasionally, the temperature increased up to 45 °C during cauterization and ultrasonic aspiration, and even up to 62 °C during high-speed drilling.

Conclusion

Endoscopic skull base surgery is associated with an incessant increase of the temperature of the intraoperative field. The temperature can peak suddenly to levels which can potentially harm neural structures and influence the rate of postoperative complications.