In vivo colocalization of 2-nitroimidazole EF5 fluorescence intensity and electron paramagnetic resonance oximetry in mouse tumors.

BACKGROUND AND PURPOSE: The primary objective of this study was to establish in vivo the relationship between 2-2-nitro-1H-imidazol-1yl-N-(2,2,3,3,3-pentafluoropropyl)-acetamide (EF5) adduct formation and intratumoral oxygen concentrations measured by electron paramagnetic resonance (EPR) in a tumor model mimicking a clinical situation. The secondary objective was an attempt to calibrate in situ the immunofluorescence (IF) signal with EPR oximetry. MATERIALS AND METHODS: IM syngeneic fibrosarcoma (NFSA) bearing C3H mice were used. Three days after injection of a paramagnetic charcoal into the tumor, the mice were anesthetized, injected with the hypoxic marker EF5, and monitored every 20 min for 3 h with a low-frequency EPR spectrometer. Animals were allowed to breath either under 21 or 100% O(2). Tumors were then harvested, frozen, cut into sections including the charcoal and processed for EF5 adducts detection using monoclonal antibodies. Slices were viewed with a fluorescence microscope and 190x140 micrometer areas surrounding the charcoal were digitized and analyzed with the NIH-Image and Adobe Photoshop software. The fluorescence intensity (FI) was measured in the whole pictures and in strips of 10 micrometer around the charcoal. RESULTS: EF5 binding increased with decreasing pO(2), most substantially at pO(2) below 5 mm Hg. Baseline (ambient air) pO(2) reached 3.2+/-2.1 mm Hg in NFSA tumors. It increased to 9.8+/-3.2 mm Hg under 100% O(2). A statistically significant correlation was observed on an individual tumor basis between the FI in the first 10 micrometer strip around the charcoal and the pO(2) determined by EPR oximetry (Wilcoxon signed rank test: P<0.001). CONCLUSIONS: The present study confirms the intrinsic relationship between EF5 adduct binding and intratumoral pO(2) in an in vivo environment under biologically-relevant pO(2) values of less than 10 mm Hg.     

Increased oxygenation of intracranial tumors by efaproxyn (efaproxiral), an allosteric hemoglobin modifier: In vivo EPR oximetry study

PURPOSE: To determine quantitatively the changes in oxygenation of intracranial tumors induced by efaproxiral, an allosteric hemoglobin modifier. Efaproxiral reduces hemoglobin-oxygen binding affinity, which facilitates oxygen release from hemoglobin into surrounding tissues and potentially increases the pO(2) of the tumors. METHODS AND MATERIALS: The study was performed on 10 male Fisher 344 rats with 9L intracranial tumors. Electron paramagnetic resonance (EPR) oximetry was used to measure quantitatively the changes in the pO(2) in the tumors. Lithium phthalocyanine (LiPc) crystals were implanted in the tumors and in the normal brain tissue in the opposite hemispheres. We monitored the cerebral pO(2) starting 7 to 10 days after the tumor cells were implanted. NMR imaging determined the position and size of tumor in the brain. After an initial baseline EPR measurement, efaproxiral (150 mg/kg) was injected intravenously over 15 minutes, and measurements of tumor and normal brain oxygen tension were made alternately at 10-minute intervals for the next 60 minutes; the procedure was repeated for 6 consecutive days. RESULTS: Efaproxiral significantly increased the pO(2) of both the intracranial tumors and the normal brain tissue on all days. The maximum increase was reached at 52.9 to 59.7 minutes and 54.1 to 63.2 minutes after injection, respectively. The pO(2) returned to baseline values at 106 to 126.5 minutes after treatment. The maximum tumor and normal tissue pO(2) values achieved after efaproxiral treatment from Day 1 through Day 6 ranged from 139.7 to 197.7 mm Hg and 103.0 to 135.9 mm Hg, respectively. The maximum increase in tumor tissue pO(2) values from Day 2 to Day 5 was greater than the maximum increase in normal tissue pO(2). CONCLUSION: We obtained quantitative data on the timing and extent of efaproxiral-induced changes in the pO(2) of intracerebral 9L tumors. These results illustrate a unique and useful capability of in vivo EPR oximetry to obtain repeated noninvasive measurements of tumor oxygenation over a number of days. The information on the dynamics of tumor pO(2) after efaproxiral administration illustrates the ability of efaproxiral to increase intracranial tumor oxygenation.     

Effects of hyperbaric oxygen and normobaric carbogen on the radiation response of the rat rhabdomyosarcoma R1H.

PURPOSE: Hypoxic tumor cells are an important factor of radioresistance. Hyperbaric oxygen (HBO) and normobaric carbogen (95% oxygen, 5% carbon dioxide) increase the oxygen delivery to tumors. This study was performed to explore changes of tumor oxygenation during a course of fractionated irradiation and to determine the effectiveness of normobaric carbogen and HBO during the final phase of the radiation treatment. METHODS AND MATERIALS: Experiments were performed on the rhabdomyosarcoma R1H growing on WAG/Rij rats. After 20 X-ray fractions of 2 Gy within 4 weeks, oxygen partial pressure (pO2) was measured using the Eppendorf oxygen electrode under ambient conditions, with normobaric carbogen or HBO at a pressure of 240 kPa. Following the 4-week radiation course, a top-up dose of 10-50 Gy was applied in 2-10 fractions of 5 Gy with or without hyperoxygenation. RESULTS: HBO but not carbogen significantly increased the median pO2 in irradiated tumors. The radiation doses to control 50% of tumors were 38.0 Gy, 29.5 Gy, and 25.0 Gy for air, carbogen, and HBO, respectively. Both high oxygen content gas inspirations led to significantly improved tumor responses with oxygen enhancement ratios (OERs) of 1.3 for normobaric carbogen and 1.5 for HBO (air vs. carbogen: p = 0.044; air vs. HBO: p = 0.02; carbogen vs. HBO: p = 0.048). CONCLUSION: Both normobaric carbogen and HBO significantly improved the radiation response of R1H tumors. HBO appeared to be more effective than normobaric carbogen, both with regard to tumor oxygenation and response to irradiation.     

Effect of RSR13, an allosteric hemoglobin modifier, on oxygenation in murine tumors: an in vivo electron paramagnetic resonance oximetry and bold MRI study

PURPOSE: RSR13, an allosteric modifier of hemoglobin, reduces hemoglobin-oxygen binding affinity facilitating oxygen release from hemoglobin, resulting in increases in tissue pO(2). The purpose of this study was noninvasively to monitor the time course and effect of RSR13 on tumor oxygenation, directly using in vivo electron paramagnetic resonance (EPR oximetry), and indirectly using blood oxygen level dependent magnetic resonance imaging (BOLD MRI). METHODS AND MATERIALS: The study was performed in transplanted radiation-induced fibrosarcoma tumors (RIF-1) in 18 female C3H/HEJ mice, which had two lithium phthalocyanine (LiPc) deposits implanted in the tumor when the tumors reached about 200-600 mm(3). Baseline EPR measurements were made daily for 3 days. Then, for 6 consecutive days and after an initial baseline EPR measurement, RSR13 (150 mg/kg) or vehicle (same volume) was injected intraperitoneally, and measurements of intratumoral oxygen were made at 10-min intervals for the next 60 min. In each mouse, every third day, instead of EPR oximetry, BOLD MRI measurements were made for 60 min after administration of the RSR13. RESULTS: Based on EPR measurements, RSR13 produced statistically significant temporal increases in tumor pO(2) over the 60-min time course, which reached a maximum at 35-43 min postdose. The average time required to return to the baseline pO(2) was 70-85 min. The maximum increase in tumor tissue pO(2) values after RSR13 treatment from Day 1 to Day 5 (8.3-12.4 mm Hg) was greater than the maximum tumor tissue pO(2) value for Day 6 (4.7 mm Hg, p < 0.01). The maximum increase in pO(2) occurred on Day 2 (12.4 mm Hg) after RSR13 treatment. There was little change in R(2)*, indicating that the RSR13 had minimal detectable effects on total deoxyhemoglobin and hemoglobin-oxygen saturation. CONCLUSION: The extent of the increase in tumor pO(2) achieved by RSR13 would be expected to lead to a significant increase in the effectiveness of tumor radiotherapy. The lack of a change in the BOLD MRI signal suggests that the tumor physiology was largely unchanged by RSR13. These results illustrate a unique and useful capability of in vivo EPR oximetry and BOLD MRI to obtain repeated measurements of tumor oxygenation and physiology. The dynamics of tumor pO(2) after RSR13 administration may be useful for the design of clinical protocols using allosteric hemoglobin effectors.     

Oxygenation of cervical cancers during radiotherapy and radiotherapy + cis-retinoic acid/interferon

PURPOSE: We have evaluated the tumor tissue pO2 in cervical cancers during radiotherapy with special emphasis on the course of the pO2 in primarily hypoxic tumors and in patients treated with radiotherapy plus 13-cis-retinoic acid/interferon-alpha-2a. METHODS AND MATERIALS: From June 1995 through April 1997, 49 patients with squamous cell carcinoma FIGO IIB-IVA of the cervix who were treated with definitive radiotherapy with curative intent underwent polarographic measurement of tumor tissue pO2 with an Eppendorf pO2-histograph prior to and during radiation treatment. Radiotherapy consisted of external irradiation with 50.4 Gy in 28 fractions of 1.8 Gy plus high dose rate (HDR) brachytherapy. Twenty-two patients had additional treatment with 13-cis-retinoic acid (cRA, isotretinoin) and interferon-alpha-2a (IFN-alpha-2a). Therapy with cRA/IFN in these patients started 2 weeks before radiotherapy; during this induction period, cRA was administered in a dosage of 1 mg per kilogram body weight orally daily and IFN-alpha-2a in a dosage of 6x10(6) I.U. subcutaneously daily. After start of external radiotherapy (XRT), cRA/IFN was continued concomitantly with radiotherapy in reduced doses (0.5 mg cRA per kg body weight orally daily plus 3x10(6) I.U. IFN-alpha-2a subcutaneously three times weekly until the end of the radiation treatment). PO2 measurements were performed prior to radiotherapy, at 20 Gy, and at the end of radiotherapy. RESULTS: A poor oxygenation defined as a median pO2 of 10 mm Hg or less was present in 15/38 tumors (39%) in which measurements prior to any treatment were done. Low pO2 readings below 5 mm Hg were present in 70% of all tumors prior to treatment. In 13 of 15 hypoxic tumors, pO2 measurements at 19.8 Gy were performed. In these tumors, a significant increase of the median pO2 from 6.0+/-3.1 mm Hg to 20.7+/-21.2 mm Hg was found, p<0.01. The increase in the median pO2 was more pronounced in patients with radiotherapy plus additional cRA/IFN treatment as compared to patients treated with irradiation alone (median pO2 raised from 7.0+/-3.5 mm Hg to 40.9+/-21.3 mm Hg versus 5.7+/-3.1 mm Hg to 14.7+/-17.9 mm Hg). In a multivariate analysis, both the effect of radiation dose (pretreatment versus 19.8 Gy) and the type of treatment (XRT alone versus XRT plus cRA/IFN) had significant impact on the pO2 (P = 0.003 and p = 0.04). In patients with well-oxygenated tumors (pretreatment median pO2>10 mm Hg), 20/23 (87%) achieved a clinically complete response. In patients with primarily hypoxic tumors, 6/6 patients whose primarily hypoxic tumors showed an increase of the median pO2 above 10 mm Hg at 19.8 Gy achieved a complete remission (CR). In contrast, only 4/7 patients with a low pretreatment and persisting low median pO2 achieved a CR. CONCLUSIONS: There are evident changes in the oxygenation of cervical cancers during a course of fractionated radiotherapy. In primarily hypoxic tumors, a significant increase of the median pO2 was found. An additional treatment with cis-retinoic acid/interferon further improved the oxygenation. An impact of the different patterns of oxygenation on local control is to be evaluated.     

Correlation of radiation response with tumor oxygenation in the Dunning prostate R3327-AT1 tumor

PURPOSE: To investigate the application of pretreatment oxygenation to the AT1 subline of the Dunning R3327 prostate tumor, which is more hypoxic and faster growing than the H1 subline previously studied. METHODS AND MATERIALS: Dunning prostate R3327-AT1 tumors growing on Copenhagen rats were administered 30 Gy of X-ray radiation either with or without oxygen inhalation. Tumor oxygenation was sampled by (19)F nuclear magnetic resonance echo planar imaging relaxometry of the reporter molecule hexafluorobenzene, no more than 24 h before irradiation. RESULTS: Large tumors (>3.0 cm(3)) exhibited significantly greater hypoxic fractions and lower mean partial pressure of oxygen (pO(2)) than their smaller counterparts (<1.5 cm(3)). However, unlike the R3327-HI subline, large AT1 tumors generally did not respond to oxygen inhalation in terms of altered hypoxic fraction or response to irradiation. Although the tumors did not respond to oxygen inhalation, each tumor had a different pO(2), and there was a clear trend between level of oxygenation at time of irradiation and tumor growth delay, with considerably better outcome when mean pO(2) > 10 mm Hg. The comparatively small baseline hypoxic fraction in the group of small tumors was virtually eliminated by breathing oxygen, and the growth rate was significantly reduced for tumors on rats breathing oxygen during irradiation. CONCLUSIONS: These results further validate the usefulness of nuclear magnetic resonance oximetry as a predictor of response to radiation therapy.     

Repeated tumor pO2 measurements by multi-site EPR oximetry as a prognostic marker for enhanced therapeutic efficacy of fractionated radiotherapy

Purpose

To investigate the temporal effects of single or fractionated radiotherapy on subcutaneous RIF-1 tumor pO₂ and to determine the therapeutic outcomes when the timing of fractionations is guided by tumor pO₂.

Methods

The time-course of the tumor pO₂ changes was followed by multi-site electron paramagnetic resonance (EPR) oximetry. The tumors were treated with single 10, 20, and 10 Gy × 2 doses, and the tumor pO₂ was measured repeatedly for six consecutive days. In the 10 Gy × 2 group, the second dose of 10 Gy was delivered at a time when the tumors were either relatively oxygenated or hypoxic. The changes in tumor volumes were followed for nine days to determine the therapeutic outcomes.

Results

A significant increase in tumor pO₂ was observed at 24 h post 10 Gy, while 20 Gy resulted in a significant increase in tumor pO₂ at 72-120 h post irradiation. The tumors irradiated with a second dose of 10 Gy at 24 h, when the tumors were oxygenated, had a significant increase in tumor doubling times (DTs), as compared to tumors treated at 48 h when they were hypoxic (p < 0.01).

Conclusion

Results indicate that the time of tumor oxygenation depends on the irradiation doses, and radiotherapeutic efficacy could be optimized if irradiations are scheduled at times of increased tumor oxygenation. In vivo multi-site EPR oximetry could be potentially used to monitor tumor pO₂ repeatedly during fractionated schemes to optimize radiotherapeutic outcome. This technique could also be used to identify responsive and non-responsive tumors, which will facilitate the design of other therapeutic approaches for non-responsive tumors at early time points during the course of therapy.     

Repeated tumor oximetry to identify therapeutic window during metronomic cyclophosphamide treatment of 9L gliomas

Malignant gliomas are aggressive and angiogenic tumors with high VEGF content. Consequently, approaches such as metronomic chemotherapy, which have an anti-angiogenic effect, are being investigated. However, a lack of an appropriate technique that can facilitate the identification of vascular changes during antiangiogenic treatments has restricted therapeutic optimization. We have investigated the potential of tumor pO2 as a marker to detect vascular changes during metronomic chemotherapy. Electron paramagnetic resonance (EPR) oximetry was used to repeatedly assess tumor pO2 during metronomic cyclophosphamide treatment of subcutaneous 9L tumors. The 9L tumors were hypoxic with a pO2 of 5.6-8?mmHg and a tumor volume of 247-300?mm3 prior to any treatment. Tumor pO2 increased significantly to 19.7?mmHg on day?10 and remained at an elevated level until day?33 during 4 weekly treatments with 140?mg/kg cyclophosphamide. A significant decrease in the tumor volume on days?21-31 occurred in the cyclophosphamide group, while the tumor volume of the control group significantly increased during measurements for two weeks. A significant tumor growth delay was achieved with two weekly treatments of cyclophosphamide plus radiotherapy (4?Gy?x?5) as compared to control, cyclophosphamide and radiotherapy alone groups. The results indicate the potential of EPR oximetry to assess tumor pO2 during metronomic chemotherapy. The ability to identify the duration of an increase in tumor pO2, therapeutic window, non-invasively by EPR oximetry could have a significant impact on the optimization of antiangiogenic approaches for the treatment of gliomas. This vital information could also be used to schedule radiotherapy to enhance therapeutic outcome.     

Oxygenation of head and neck cancer: changes during radiotherapy and impact on treatment outcome.

BACKGROUND AND PURPOSE: To evaluate the long term clinical significance of tumor oxygenation in a population of head and neck cancer patients receiving radiotherapy and to assess changes in tumor oxygenation during the course of treatment. METHODS AND MATERIALS: Patients with head and neck cancer receiving primary RT underwent pretreatment polarographic tumor oxygen measurement of the primary site or a metastatic neck lymph node. Treatment consisted of once daily (2 Gy/fraction to a total dose of 66-70 Gy) or twice daily irradiation (1.25 Gy/fraction to 70-75 Gy) to the primary site. Twenty-seven patients underwent a second series of measurements early in the course of irradiation. RESULTS: Sixty-three patients underwent pretreatment tumor oxygen assessment (primary site, n = 24; nodes, n = 39). The median pO2 for primary lesions was 4.8 mmHg, and it was 4.3 mmHg for cervical nodes. There was a weak association between anemia and more poorly oxygened tumors, but many non-anemic patients still had poorly oxygenated tumors. Repeat assessments of tumor oxygenation after 10-15 Gy were unchanged compared to pretreatment baselines. Poorly oxygenated nodes pretreatment were more likely to contain viable residual disease at post-radiation neck dissection. Median follow-up time for surviving patients was 20 months (range 3-50 months). Hypoxia (tumor median pO2 <10 mmHg) adversely affected 2 year local-regional control (30 vs. 73%, P = 0.01), disease-free survival (26 vs. 73%, P = 0.005), and survival (35 vs. 83%, P = 0.02). CONCLUSION: Tumor oxygenation affects the prognosis of head and neck cancer independently of other known prognostic variables. This parameter may be a useful tool for the selection of patients for investigational treatment strategies.     

Changes in tumor oxygenation/perfusion induced by the no donor, isosorbide dinitrate, in comparison with carbogen: monitoring by EPR and MRI

PURPOSE: In an effort to improve radiotherapy treatments, methods aimed at increasing the quantity of oxygen delivered to tumors were investigated. The aim of this study was to evaluate the effect of one nitric oxide (NO) donor (isosorbide dinitrate) on pO(2) and blood flow in a murine tumor model. The effect was compared to carbogen, used as a reference treatment. METHODS AND MATERIALS: Thirty-six liver tumors implanted in mouse thighs were imaged using magnetic resonance imaging (MRI) at 4.7 Tesla with dynamic Gd-DTPA and blood oxygen level-dependent (BOLD) contrast-enhanced imaging after administration of isosorbide dinitrate or carbogen. The effect on the pO(2) was also tested by EPR oximetry (1.1 GHz) on 52 mice. RESULTS: A significant increase in MRI intensity was observed for both treatments in comparison with the control group. EPR oximetry showed a dose-dependant increase in tumor pO(2) for isosorbide dinitrate (by 5.9 mmHg at 0.2 mg/kg) and a substantially greater change for carbogen breathing (by 23 mmHg). CONCLUSION: Both tumor blood flow and pO(2) were increased by isosorbide dinitrate and carbogen. Carbogen is more efficient than isosorbide dinitrate in increasing the BOLD image intensity, as well as the tumor pO(2), but as efficient as isosorbide dinitrate in the Gd-DTPA contrast-enhanced imaging. We conclude that the effects of carbogen on improving tumor pO(2) involve both improved blood flow and improved hemoglobin oxygenation, whereas the effects of isosorbide dinitrate are predominantly mediated by improved blood flow alone.     

Tumor hypoxia--a confounding or exploitable factor in interstitial brachytherapy? Effects of tissue trauma in an experimental rat tumor model

PURPOSE: To evaluate the potential effects of tumor hypoxia induced by afterloading catheter implantation on the effectiveness of brachytherapy in a rat tumor model. METHODS AND MATERIALS: Afterloading catheters (4) were implanted in subcutaneously growing R1M rhabdomyosarcoma in female Wag/Rij rats. A MicroSelectron (Nucletron) was used for interstitial high-dose-rate irradiation ((192)Ir). Tumor oxygenation, perfusion, and cell survival were assessed by pO(2) histography (Eppendorf), Tc-99m injection, and excision assay, respectively. RESULTS: Tumor perfusion was markedly reduced at 1 h after catheter implantation (33.9 +/- 6.0% (SEM, n = 9) of control) and partly recovered after 5 h (61.5 +/- 12.2%). At 24 h, the perfusion level reached control values (100.6 +/- 25.7%), but was highly variable with some of the tumors showing hardly any recovery at all. Tumor oxygenation showed a similar pattern, but with less recovery. Median pO(2) readings were 13.5, 1.2, and 5.3 mm Hg before and at 1 and 24 h after implantation, respectively (7 tumors). The percentages of pO(2) readings 相似文献   

二甲双胍增强放射对CT26WT细胞及小鼠移植瘤效应机制研究

目的 探讨二甲双胍(Met)联合放射对结肠癌CT26WT细胞及移植瘤的抑制作用及其机制研究。方法 利用CellTiter-Glo化学发光细胞活性试验检测0.5、1.0、5.0、10.0μmol/L的Met对CT26WT细胞活力影响,克隆形成试验检测对照组、10.0μmol/L的Met、15Gy照射、15Gy+10.0μmol/L的Met组对CT26WT细胞的增殖抑制作用。构建Bablc小鼠皮下移植瘤模型,肿瘤体积>150mm³随机分对照组、单纯15Gy照射、Met组、15Gy+Met组,照射前24h给予小鼠750 mg/kg的Met,定期测量肿瘤体积及小鼠体重绘制肿瘤生长曲线及生存时间曲线。蛋白质印迹法检测上述处理条件下CT26WT细胞及移植瘤组织中P-H2AX、Sting蛋白表达;并利用免疫组化方法检测移植瘤组织中CD8a (+) T细胞的浸润情况。结果 0、0.5、1.0、5.0、10.0μmol/L的Met的相对细胞存活率分别为100%、87.9%、87.8%、87.3%、76.5%(P<0.05),其中10.0μmol/L较5.0μmol/L抑制作用更强(P<0.001)。克隆形成实验结果显示对照组、Met组、15Gy组、15Gy+Met组细胞克隆形成率分别为34.0%、24.0%、22.3%、14.0%(P<0.001)。与对照组比较,Met组、15Gy组、15Gy+Met组细胞内Sting蛋白表达分别增加2.99、1.37、4.41倍(P<0.001、<0.01、<0.001)。15Gy+Met组P-H2AX蛋白表达较15Gy组增加1.43倍(P<0.001)。移植瘤体积15Gy+Met组较对照组生长缓慢,最终结果为(1007.0±388.5)、(2639.0±242.9) mm³,(P<0.05),15Gy+Met组小鼠总生存期较对照组增加(48d︰32d,P<0.001)。移植瘤组织中P-H2AX、Sting蛋白表达量在15Gy+Met组较对照组分别增加8.8、1.6倍(P均<0.001)。15Gy+Met组CD8a (+) T细胞浸润在较对照组明显增高(P<0.01)。结论 Met与放射联合能协同抑制结肠癌细胞增殖、克隆形成,可能作用机制是通过加重DNA损伤、激活Sting信号通路导致肿瘤组织中CD8a (+) T细胞增加加强对肿瘤细胞的杀伤作用。     

Nitric oxide-mediated increase in tumor blood flow and oxygenation of tumors implanted in muscles stimulated by electric pulses

PURPOSE: Oxygen deficiency in tumors reduces the efficacy of nonsurgical treatment modalities. We tested the hypothesis that electrical stimulation of the sciatic nerve could modify the oxygenation status and the blood flow of tumors implanted in the thigh of mice. MATERIALS AND METHODS: The sciatic nerve was electrically stimulated at 5 Hz. Local transplantable liver tumor (TLT) and fibrosarcoma (FSaII) tumor oxygen pressure (pO(2)) and perfusion measurements were carried out using electron paramagnetic resonance (EPR) oximetry and the OxyLite/OxyFlo technique. The radiosensitizing effect of the protocol was assessed by irradiating FSaII tumors with X-rays. RESULTS: Tumor pO(2) increased from approximately 3 mm Hg to approximately 8 mm Hg, and relative tumor blood flow was increased by 241% and 162% for TLT and FSaII tumor models, respectively. The effect on the tumor oxygenation was inhibited by a nitric oxide synthase (NOS) inhibitor, and an increase in the tumor nitric oxide (NO) content was observed using EPR spin-trapping. The tumor oxygen consumption rate was decreased after the stimulation protocol. In addition, the electrical stimulation of the host tissue increased regrowth delays by a factor of 1.65. CONCLUSIONS: This increase in tumor oxygenation is due to the temporary increase in tumor blood flow, but particularly to a decrease in the tumor oxygen consumption rate (inhibition of respiration) that is mediated by a local production of NO during the protocol. Those tumor hemodynamic changes resulted in a radiosensitizing effect.     

二甲双胍增强放射对CT26WT细胞及小鼠移植瘤效应机制研究

目的 探讨二甲双胍(Met)联合放射对结肠癌CT26WT细胞及移植瘤的抑制作用及其机制研究。方法 利用CellTiter-Glo化学发光细胞活性试验检测0.5、1.0、5.0、10.0μmol/L的Met对CT26WT细胞活力影响,克隆形成试验检测对照组、10.0μmol/L的Met、15Gy照射、15Gy+10.0μmol/L的Met组对CT26WT细胞的增殖抑制作用。构建Bablc小鼠皮下移植瘤模型,肿瘤体积>150mm³随机分对照组、单纯15Gy照射、Met组、15Gy+Met组,照射前24h给予小鼠750 mg/kg的Met,定期测量肿瘤体积及小鼠体重绘制肿瘤生长曲线及生存时间曲线。蛋白质印迹法检测上述处理条件下CT26WT细胞及移植瘤组织中P-H2AX、Sting蛋白表达;并利用免疫组化方法检测移植瘤组织中CD8a (+) T细胞的浸润情况。结果 0、0.5、1.0、5.0、10.0μmol/L的Met的相对细胞存活率分别为100%、87.9%、87.8%、87.3%、76.5%(P<0.05),其中10.0μmol/L较5.0μmol/L抑制作用更强(P<0.001)。克隆形成实验结果显示对照组、Met组、15Gy组、15Gy+Met组细胞克隆形成率分别为34.0%、24.0%、22.3%、14.0%(P<0.001)。与对照组比较,Met组、15Gy组、15Gy+Met组细胞内Sting蛋白表达分别增加2.99、1.37、4.41倍(P<0.001、<0.01、<0.001)。15Gy+Met组P-H2AX蛋白表达较15Gy组增加1.43倍(P<0.001)。移植瘤体积15Gy+Met组较对照组生长缓慢,最终结果为(1007.0±388.5)、(2639.0±242.9) mm³,(P<0.05),15Gy+Met组小鼠总生存期较对照组增加(48d︰32d,P<0.001)。移植瘤组织中P-H2AX、Sting蛋白表达量在15Gy+Met组较对照组分别增加8.8、1.6倍(P均<0.001)。15Gy+Met组CD8a (+) T细胞浸润在较对照组明显增高(P<0.01)。结论 Met与放射联合能协同抑制结肠癌细胞增殖、克隆形成,可能作用机制是通过加重DNA损伤、激活Sting信号通路导致肿瘤组织中CD8a (+) T细胞增加加强对肿瘤细胞的杀伤作用。     

The effect of external electron beam on neointima in rat carotid artery injury model.

PURPOSE: Endovascular irradiation with either a gamma or a beta source has shown to reduce neointimal proliferation. However, the effect of external-beam radiation on neointimal hyperplasia is controversial. The objective of this study was to determine the effect of external-beam irradiation with different doses on neointimal hyperplasia in the rat carotid artery injury model. METHODS AND MATERIALS: Twenty-seven Sprague-Dawley rats underwent endothelial denudation injury by 2F Fogarty balloons on carotid artery. Immediately after the injury, rats were irradiated externally using 6-MeV electrons. Rats were grouped according to the radiation doses, 0 Gy as controls (n = 5), 5 Gy (n = 5), 10 Gy (n = 5), 15 Gy (n = 6), and 20 Gy (n = 6). Then, rats were sacrificed after 2 weeks and the carotid arteries were perfusion-fixed in paraformaldehyde. External elastic lamina (EEL) area, lumen area, maximal intimal thickness (MIT), and intimal area (IA) of the injured segments were measured on the basis of histomorphometry. RESULTS: In EEL and lumen area, there was no statistically significant difference between the irradiated groups and the controls. In MIT and IA, low-dose radiation (5 Gy and 10 Gy) did not induce any significant reduction. High-dose radiation (15 Gy and 20 Gy), however, reduced MIT and IA significantly. CONCLUSION: External electron beam reduced the intimal area, and the inhibition of neointimal proliferation was dependent upon radiation doses. This study suggests that the minimal effective dose for the inhibition of neointimal hyperplasia following denudation injury in the rat carotid model is between 10 Gy and 15 Gy.     

Long-term adverse effects of radiation inhibition of restenosis: radiation injury to the aorta and branch arteries in a canine model.

PURPOSE: To determine the long-term effects of irradiation on large arteries in view of the possible use of radiation to prevent restenosis after angioplasty. METHODS AND MATERIALS: Groups of dogs received 10-55 Gy single-dose alone, or in combination with 50 Gy in 2-Gy fractions, or 50-80 Gy in 2-2.7-Gy fractions to an 8-cm length of aorta and branch arteries. Single doses were delivered intraoperatively. Two or 5 years after irradiation, aortas and branch arteries were evaluated histomorphometrically to determine areas of intima, media, and adventitia, and qualitatively to determine other adverse effects. RESULTS: Intimal area increased at single doses < 20 Gy and after all fractionated doses, but was normal at doses > 20 Gy 2 years after irradiation. Intimal area was greater at 5 years than at 2 years after irradiation. Adventitial area increased with increasing dose at 2 and 5 years after irradiation. Thrombosis of the aorta and branch arteries occurred at 4-5 years after irradiation with ED50s of 29.7 Gy and about 25 Gy, respectively, but did not occur after fractionated irradiation. CONCLUSION: Intimal proliferation is inhibited at single doses > 20 Gy, but may be stimulated at single doses of < 20 Gy or after fractionated irradiation. Adventitial fibrosis increases with increasing dose and could contribute to adverse late vascular remodeling. Severe adverse effects were not evident until 4-5 years after irradiation at does of > 20 Gy to an 8-cm vessel length.     

电离辐射对食管癌细胞周期及MDC1、53BP1蛋白表达的影响

目的 观察60Co γ射线照射后食管癌细胞周期、细胞凋亡及其相关蛋白表达的变化,为食管癌放射治疗、靶向治疗提供理论依据。方法 食管癌细胞株TE 13进行不同剂量（0、1、2、5、10、15Gy）照射后,应用流式细胞术分别检测照射后1、2、12、24和48h细胞周期和凋亡指数的变化;同时采用Western blot方法检测MDC1和53BP1蛋白表达情况。结果 TE 13细胞照射后12、24、48h,TE 13细胞的G0/G1期、G2/M期和S期的变化呈现明显剂量依赖性,1Gy和2Gy照射后12h,细胞G2/M期阻滞开始出现;5、10、15Gy照射后24h,细胞G2/M期阻滞最为明显,与对照组（0Gy组）相比,差异具有统计学意义（P<0.05）;15Gy照射后12h、24、48h,TE 13细胞的凋亡增加非常显著（P<0.01）;不同剂量照射后1、2、24h,TE 13细胞MDC1和53BP1蛋白表达未见明显变化（P>0.05）。结论 TE 13细胞经不同剂量放射线照射后,细胞周期出现明显的G2/M期阻滞,细胞凋亡指数明显增加,但对MDC1和53BP1蛋白表达未见明显影响。     

Treatment with high marginal dose is mandatory to achieve long-term control of skull base chordomas and chondrosarcomas by means of stereotactic radiosurgery

Chordomas and chondrosarcomas of the skull base are rare. Since total resection of these tumors is difficult, adjuvant radiotherapy is necessary. This study was performed to evaluate the effect of stereotactic radiosurgery (SRS) for skull base chordomas and chondrosarcomas and to determine the optimal marginal dose for these tumors. Fourteen patients with histologically proven chordomas or chondrosarcomas underwent 16 sessions of SRS using gamma knife. The marginal doses ranged from 10 to 20 Gy (mean, 15 Gy). Lower marginal doses of 12 Gy on average (range, 10–12.5 Gy) were applied to four patients since they underwent prior fractionated radiotherapy, and partial treatment for which parts of tumors were excluded from planned target volume because of their proximity to critical structures was also applied to four patients. The whole tumors were covered with higher marginal doses of 18 Gy on average (range, 16–20 Gy) for six patients. The mean follow-up period was 65 months. Progression-free survival (PFS) rates at 3 and 5 years after SRS was 53 and 43%, respectively. Five-year PFS rates for patients who underwent SRS with higher and lower marginal doses were 80 and 14%, respectively, which were significantly different (P = 0.005). Tumor progression after partial irradiation mainly occurred from sites where delivered doses were reduced. Sufficient marginal doses at least 16 Gy appeared crucial. Proper combination with surgical resection to detach tumors from critical structures and to reduce tumor volume is necessary to completely deliver sufficient marginal doses for SRS.     

Gamma Knife radiosurgery for numerous brain metastases: is this a safe treatment?

Gamma Knife (GK) radiosurgery has recently been employed in patients with numerous brain metastases (METs), even those with 10 or more lesions. However, cumulative irradiation doses to the whole brain (WB), with such treatment, have not been determined.

Since the GammaPlan ver. 5.10 (ver. 5.31 is presently available, Leksell GammaPlan) became available in November 1998, 92 GK procedures have been performed for 80 patients with 10 or more brain METs at our facility. The median lesion number was 17 (range: 10–43) and the median cumulative volume of all tumors was 8.02 cc (range: 0.46–81.41 cc). The median selected dose at the lesion periphery was 20 Gy (range: 12–25 Gy). Based on these treatment protocols, the cumulative irradiation dose was computed.

The median cumulative irradiation dose to the WB was 4.71 (range: 2.16–8.51) Gy. The median brain volumes receiving >2 Gy, >5 Gy, >10 Gy, >15 Gy, and >20 Gy were 1105 (range 410–1501) cc, 309 (46–1247) cc, 64 (13–282) cc, 24 (2–77) cc, and 8 (0–40) cc, respectively.

The cumulative WB irradiation doses for patients with numerous radiosurgical targets were not considered to exceed the threshold level of normal brain necrosis.     

Irradiation of rat brain reduces P-glycoprotein expression and function

The blood-brain barrier (BBB) hampers delivery of several drugs including chemotherapeutics to the brain. The drug efflux pump P-glycoprotein (P-gp), expressed on brain capillary endothelial cells, is part of the BBB. P-gp expression on capillary endothelium decreases 5 days after brain irradiation, which may reduce P-gp function and increase brain levels of P-gp substrates. To elucidate whether radiation therapy reduces P-gp expression and function in the brain, right hemispheres of rats were irradiated with single doses of 2-25 Gy followed by 10 mg kg(-1) of the P-gp substrate cyclosporine A (CsA) intravenously (i.v.), with once 15 Gy followed by CsA (10, 15 or 20 mg kg(-1)), or with fractionated irradiation (4 x 5 Gy) followed by CsA (10 mg kg(-1)) 5 days later. Additionally, four groups of three rats received 25 Gy once and were killed 10, 15, 20 or 25 days later. The brains were removed and P-gp detected immunohistochemically. P-gp function was assessed by [(11)C]carvedilol uptake using quantitative autoradiography. Irradiation increased [(11)C]carvedilol uptake dose-dependently, to a maximum of 20% above non irradiated hemisphere. CsA increased [(11)C]carvedilol uptake dose-dependently in both hemispheres, but more (P<0.001) in the irradiated hemisphere. Fractionated irradiation resulted in a lost P-gp expression 10 days after start irradiation, which coincided with increased [(11)C]carvedilol uptake. P-gp expression decreased between day 15 and 20 after single dose irradiation, and increased again thereafter. Rat brain irradiation results in a temporary decreased P-gp function.