Objective:To investigate the efficacy and influencing factors of selective ligation of the middle meningeal artery after drilling and drainage surgery for chronic subdural hematoma.Methods:The clinical data of patients with chronic subdural hemorrhage who underwent routine drilling and drainage surgery in Beijing Geriatric Hospital from October 2018 to January 2021 were taken as the control group; The clinical data of patients with chronic subdural hemorrhage who underwent routine drilling and drainage surgery and ligation of the middle meningeal artery in the same hospital from February 2021 to January 2023 was taken as the observation group.Results:Comparison of CSDH Markwalder grading scale and Glasgow coma scale (MGS-GCS) neurosurgical dysfunction grading before and after surgery between the control group and the observation group showed statistically significant differences ( χ2 = 34.56 and 63.39, P<0.01). There was statistically significant difference in the grading of postoperative MGS-GCS neurosurgical dysfunction between the control group and the observation group ( χ2 = 4.34, P = 0.037); the recurrence rate of the observation group was lower than that of the control group: 10.6% (5/47) vs. 28.0% (14/50), with statistical differences ( χ2 = 4.63, P = 0.031). The factors that reduce recurrence in the middle meningeal artery ligation group included Alzheimer disease coronary heart disease, males, oral antipsychotic and oral anticoagulant ( χ2 = 15.25, 4.36, 6.09, 12.63 and 8.68; P<0.05). Conclusions:Preliminary exploration has found that selective ligation of the middle meningeal artery during the drilling and drainage surgery for chronic subdural hematoma can reduce postoperative recurrence, especially suitable for patients with Alzheimer disease, coronary heart disease, males, oral antipsychotic and oral anticoagulant. After preoperative CT skull reconstruction and pruning to obtain the sulcus of the middle meningeal artery, the body surface localization of the ligation of the middle meningeal artery can be obtained. This surgery is safe and there is no additional damage to the cranial nerve. The efficacy of this surgical technique is expected to be further validated through large-scale, multicenter, randomized controlled studies.

Objective:To study the precision of 3D printing coplanar template (3D-PCT) assisted CT-guided radioactive particle implantation using two types of phantoms, and compare the differences between the phantoms, in order to provide reference for radioactive particle implantation.Methods:The needle inserting path was designed in the brachytherapy treatment planning system (BTPS) and the needle tip coordinates were obtained. Following the needle inserting path, the implant needles were inserted into the custom and the liver phantoms, respectively. Then gold markers were implanted through the needles. Subsequently, the needles were withdrawn by 10 mm, and the cold sources were implanted. The coordinates of needle tips, gold markers, and cold sources were recorded. The precision of implanted needles, first particles, and particles after needle withdrawal were obtained by calculating the distance between two points in the space. Finally, the differences between the two phantoms were compared through independent samples t-test. Results:In the 3D-PCT-assisted CT-guided radioactive particle implantation, the precision of implanted needles, first particles, and particles after needle withdrawal in the custom and the liver phantoms was (1.89±0.72) and (2.14±0.88 ) mm ( P>0.05), (2.03±1.14) and (2.42±1.12) mm ( P>0.05), and (-1.96±1.29) and (-2.82±0.91) mm ( t=2.09, P=0.046), respectively. Conclusions:The 3D-PCT-assisted CT-guided radioactive particle implantation is efficient, stable, and precise, showing slight precision differences between the two phantoms.

"The Expert Group on Tumor Ablation Therapy of Chinese Medical Doctor Association, The Tumor Ablation Committee of Chinese College of Interventionalists, The Society of Tumor Ablation Therapy of Chinese Anti-Cancer Association and The Ablation Expert Committee of the Chinese Society of Clinical Oncology" have organized multidisciplinary experts to formulate the consensus for thermal ablation of pulmonary subsolid nodules or ground-glass nodule (GGN). The expert consensus reviews current literatures and provides clinical practices for thermal ablation of GGN. The main contents include: (1) clinical evaluation of GGN, (2) procedures, indications, contraindications, outcomes evaluation and related complications of thermal ablation for GGN and (3) future development directions.
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Objective:To verify the accuracy and feasibility of radioactive 125I seed implantation assisted by an optical navigation system and a 3D-printing non-coplanar template in the treatment of recurrent head and neck cancers. Methods:A total of 12 patients with recurrent head and neck cancer treated with radioactive 125I seed implantation assisted by an optical navigation system and 3D-printing non-coplanar template were enrolled from Dec 2018 to Dec 2019.The pre-plan and post-implant implantation needle number and implanted seed number were recorded.Meanwhile, their dosimetric parameters were compared, including D90, minimum peripheral dose (MPD), V100, V150, V200, conformity index (CI), external index (EI), and the homogeneity index (HI) of the target volume. Results:The median lesion volume was 31.5 cm 3, the median number of seeds was 61.5, and the median prescription dose was 130 Gy.The means of the pre-plan D90, MPD, V100, V150 and V200 were 134.2, 64.6, 93.3, 75.3 and 39.3 Gy, respectively, while those of post-implant D90, MPD, V100, V150, and V200 were 146.7, 68.94, 97.47, 80.40 and 48.30 Gy, respectively, with no statistically significant difference ( P>0.05). Meanwhile, there was no statistically significant difference between the pre-plan and post-implantation needle number, implanted seed number, CI, HI, and EI ( P>0.05). In terms of postoperative dose quality assessment, eight cases were rated excellent (66.6%) and four cases were rated good (33.3%). Conclusions:Radioactive 125I seed implantation assisted by an optical navigation system and 3D-printing non-coplanar template can be accurately performed in the treatment of recurrent head and neck cancer, with good consistency between pre-plan and post-implant dosimetric parameters and thus of prospective potential in clinical application.

Objective:To compare preoperative planning parameters between non-coplanar and coplanar template-assisted radioactive seed implantation in the treatment of pancreatic cancers, in order to guide clinical application.Methods:Patients with pancreatic cancers who received external irradiation in the Peking University Third Hospital from Jan 2017 to May 2019 were selected.Their image information was imported into the brachytherapy planning system, and the non-coplanar plan and coplanar plan were designed individually.Each patient′s prescription dose was set to 110 Gy, and the activity of the radioactive seeds were 0.4 mCi(1 Ci=3.7×10 10Bq), respectively.For the two plans, the dose distribution was optimized and dosimetric parameters were compared, including the implantation needle number, the implanted seed number, the minimum prescription doses delivered to 90% and 100% of the target volume ( D90 and D100), mean percentages of volume receiving 100%, 150% and 200% of the prescription doses ( V100, V150 and V200), conformity index (CI), external index (EI), and homogeneity index (HI) of the target volume, as well as the doses of 2 cm 3 and 5 cm 3 ( D2 cm 3 and D5 cm 3) of the surrounding normal organs such as the small intestines, colon, duodenum, stomach, and spinal cord. Results:The implantation needle number in the coplanar plan was slightly higher than that in the non-coplanar plan, namely 18.63 vs. 16.45 ( t=-3.239, P <0.05). The implanted seed number was equivalent, namely 90.2 vs. 91.01, with no statistical difference ( P>0.05). There was no significant difference between D90, D100, V100, V150, V200, CI, EI, and HI in the target area of the two plans ( P>0.05). Meanwhile, there was no obvious difference in D2 cm 3 and D5 cm 3 of normal organs including the small intestines, colon, duodenum, stomach, and spinal cord ( P>0.05). Conclusions:With both the coplanar plan and the non-coplanar plan, the prescription doses can be achieved and meanwhile, there are very small differences in the doses of normal organs.Given that 3D-printing non-coplanar and coplanar templates have their own characteristics, it is necessary to choose them according to specific situations.

【Objective】 To investigate the molecular mechanism of long non-coding RNA (lncRNA) TDRG1 in facilitating the malignant progression and poor prognosis of patients with cervical cancer. 【Methods】 Cervical cancer cell lines and normal cervical cell Ect1/E6E7 were collected. Quantitative real-time polymerase chain reaction (qRT-PCR) was used to detect the expression of TDRG1. Cervical cancer cell lines were transfected with TDRG1-siRNA, and the proliferation of cancer cells was detected by CCK-8 method and cell plate cloning experiment. The invasion and migration of cancer cells were measured by Transwell experiment. The apoptosis of cancer cells was examined by flow cytometry, and the expressions of relevant proteins were tested by Western blot. 【Results】 Compared with Ect1/E6E7, cervical cancer cell lines showed relatively increased expression of TDRG1. Downregulation of TDRG1 expression inhibited the proliferation and colony formation (162±21 vs. 411±33, P<0.05), as well as the invasion and migration (invasion: 86±13 vs. 315±38, P<0.01; migration: 177±22 vs. 406±41, P<0.01) of Hela cells. Meanwhile, the apoptosis of Hela cells increased [(28±1.5)% vs. (16±1.2)%, P<0.05] and the expression of Bcl-2 protein reduced. In addition, TDRG1 knockdown also decreased the activity of autophagy in Hela cells. 【Conclusion】 TDRG1 facilitates the malignant biological progression of cervical cancer by inhibiting the apoptosis and providing a protective autophagy in cervical cells.

Objective:To compare the difference of preoperative and postoperative plans of navigation-assisted three-dimensional (3D)-printing template combined with CT-guided radioactive 125I seeds implantation for malignant tumors, and verify preliminarily the plan quality of optical navigation-assisted seeds implantation. Methods:From December 2018 to November 2019, a total of 20 patients (10 males, 10 females, median age: 60.5 years) with malignant tumors received navigation-assisted 3D-printing template combined with CT-guided radioactive 125I seeds implantation in Peking University Third Hospital. Eight cases were implanted in the head and neck, 1 case in the chest wall, 9 cases in the pelvis and 2 cases in the paravertebral and/or retroperitoneal region. The median prescription dose was 150 Gy. The data in the preoperative and postoperative plans was compared, including seeds number, needles number, and some dosimetry parameters. Dosimetry parameters including dose delivered to 90% gross tumor volume (GTV) ( D90), percentage of GTV received 100%, 150%, and 200% of the prescribed dose ( V100, V150, V200), minimum peripheral dose (MPD), conformal index (CI), external index (EI), homogeneity index (HI) of target volume, and 2 cm 3 range of spinal cord receiving dose ( D2 cm 3). Paired t test and Wilcoxon signed rank test were used to analyze the data. Results:The needles number of preoperative and postoperative plans was the same (both 12 (9, 19)), and the seeds number of postoperative plan was more than preoperative plan with no significant difference (51(35, 68) vs 49(35, 63); z=1.859, P>0.05). The MPD of postoperative plans was higher than preoperative plans ((80.52±14.89) vs (67.22±20.56) Gy, t=-3.769, P=0.001). There were no significant differences in other dosimetry parameters between the two plans ( t values: -0.533, -0.423, z values: from -0.849 to 1.416, all P>0.05). Postoperative dose quality assessment was excellent in 17 cases (17/20), good in 2 cases (2/20) and middle in 1 case (1/20). Conclusions:The quality of the implantation is good under the guidance of combined mode. The actual target dose after operation can meet the requirements of preoperative planning.

Objective: To compare the preoperative and postoperative dosimetric parameters in the treatment of spinal metastasis, and to verify the accuracy of 3D-printing non-coplanar template (3D-PNCT) combined with CT-guided ¹²⁵I seed implantation for the treatment of spinal metastasis. Methods: The treatment plans of 7 patients with spinal metastasis (9 lesions) from 2016 to 2018 receiving 3D-PNCT in combination with CT-guided ¹²⁵I seed implantation were retrospectively analyzed. The dosimetric parameters including homogeneity index (HI), conformal index (CI), external index (EI), dose of 90% target volume(D₉₀), mPD, volume percent of 100%, 150%, and 200% prescribed dose V₁₀₀、V₁₅₀、V₂₀₀ and D_2cm³ of spinal cord were compared before and after operation. The british columbia cancer ageny particle implantation quality evaluation standard was applied to evaluate the quality of implantation. Results: The HI, EI and CI, D₉₀, mPD, V₁₀₀, V₁₅₀, V₂₀₀ and D_2cm³ of spinal cord did not significantly differ before and after the plan (all P>0.05). Five were evaluated as excellent and 4 were assessed as good. Conclusion The postoperative dosimetric parameters of 3D-PNCT combined with CT guided ¹²⁵I seed implantation of spinal metastasis are basically consistent with preoperative dosimetric parameters. The postoperative plans are evaluated as excellent or good, suggesting that the technology has a good therapeutic accuracy in the treatment of spinal metastasis.

Objective To verify the accuracy of three-dimensional printing coplanar coordinate template (3D-PCCT) technology for 125I seeds implantations in chest tumor at dosimetry level.Methods From January 2016 to June 2017,a total of 22 patients (15 males,7 females;median age 62 years) with chest tumors who received 3D-PCCT assisted 125I seeds implantation in Peking University Third Hospital were enrolled in this retrospective study.There were 8 patients with primary lung cancer and 14 with metastatic carcinoma.The sites for implantation included lung (12 cases),mediastinum (2 cases) and chest wall (8 cases).The prescribed dose was 110-180 Gy.The preoperative plan design,puncture and seeds implantation guided by template were carried out and the dose distribution of postoperative plan was compared with that of preoperative plan.Dose parameters included dose delivered to 90％ gross tumor volume (D90),minimum peripheral dose,the percentage of GTV receiving 100％ prescription dose (V100),the percentage of GTV receiving 150％ prescription dose (V150),conformity index,external index of target volume,uniformity index,D2 cm3 of spinal cord and aorta,and V20 of affected side lung.Wilcoxon signed rank test was used to analyze the data.Results The median D90 was 150.4(125.6,187.0) Gy.Postoperative D90 was higher than the prescribed dose in 68％ (15/22) cases.For median value of most parameters,there were no significant differences between the postoperative plans and preoperative plans (all P＞0.05) except for the actual V100,which was lower than the preplanned (95.5％ vs 97.2％;P=O.040).Conclusion 3D-PCCT could provide good accuracy in 125I seeds implantation for chest tumor.

Objective To compare the dose distribution of postoperative plans with preoperative plans of 3D-printing template (coplanar and non-coplanar) assisted and CT-guided 125I seed implantation for the treatment of soft tissue sarcoma,and to explore the accuracy of treatment at dosimetry level.Methods From December 2015 to July 2017,19 patients with soft tissue sarcoma (a total of 25 lesions)were treated with 3D printing template assisted and CT-guided 125I seed implantation in Peking University Third Hospital.All patients underwent preoperative assessment,CT simulation orientation,preoperative planning,3D-template printing,3D-template reduction,needle and seed implantation,postoperative dosimetry assessment,postoperative care and follow-up.The preoperative and postoperative dosimetric parameters were conpared.Ten cases of soft tissue sarcoma in superficial trunk or limbs were screened.Preoperative planning of coplanar template and non-coplanar template were designed respectively.The dosimetric parameters of preoperative planning guided of two templates were compared.Results Twentyfive 3D-printing templates were designed and constructed,and 25 lesions were totalled.There was no statistical difference between preoperative and postoperative dosimetric parameters.There was no statistical difference of the preoperative plan's dosimetric parameters between coplanar and non-coplanar in soft tissue sarcoma of superficial trunk/limbs.Conclusions The validation of actual dose distribution in postoperative plans assisted by 3D-printing template in 125I seed implantation showed that most of parameters could meet the expectation of preoperative plans,which indicated the improvement in accuracy for this new modality.For soft tissue sarcoma located in the superficial trunk/limbs,it was recommended to select the 3D-printing coplanar template firstly.