• Journal of Korean Neurosurgical Society
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• 제29권10호
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• pp.1383-1388
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• 2000

We report a case of 54 years old male with malignant meningioma originating in the posterior fossa with multiple recurrences, intracranial and extracranial metastases. In spite of gross total removal of tumor and conventional external radiation therapy(CERT), 2 more recurrences, 5 more intracranial metastases and 1 extracranial metastasis to the rib were developed. We tried fractionated stereotactic radiation therapy(FSRT) and CERT to the intracranial metastasis with satisfactory result. Extracranial metastasis to the rib was resected and histological finding was similar to that of original tumor.

• Radiation Oncology Journal
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• 제33권4호
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• pp.265-275
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• 2015

Despite the increasing use of stereotactic body radiation therapy (SBRT) and stereotactic radiation surgery (SRS) in recent years, the biological base of these high-dose hypo-fractionated radiotherapy modalities has been elusive. Given that most human tumors contain radioresistant hypoxic tumor cells, the radiobiological principles for the conventional multiple-fractionated radiotherapy cannot account for the high efficacy of SBRT and SRS. Recent emerging evidence strongly indicates that SBRT and SRS not only directly kill tumor cells, but also destroy the tumor vascular beds, thereby deteriorating intratumor microenvironment leading to indirect tumor cell death. Furthermore, indications are that the massive release of tumor antigens from the tumor cells directly and indirectly killed by SBRT and SRS stimulate anti-tumor immunity, thereby suppressing recurrence and metastatic tumor growth. The reoxygenation, repair, repopulation, and redistribution, which are important components in the response of tumors to conventional fractionated radiotherapy, play relatively little role in SBRT and SRS. The linear-quadratic model, which accounts for only direct cell death has been suggested to overestimate the cell death by high dose per fraction irradiation. However, the model may in some clinical cases incidentally do not overestimate total cell death because high-dose irradiation causes additional cell death through indirect mechanisms. For the improvement of the efficacy of SBRT and SRS, further investigation is warranted to gain detailed insights into the mechanisms underlying the SBRT and SRS.

• 대한방사선치료학회지
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• 제9권1호
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• pp.25-28
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• 1997

With the advances in radiation therapy technology and equipment, the need for more accurate and safer radiation delivery to the target region has been continuously growing. Stereotactic Radiosurgery(SRS) is a good example of $^{\ast}Accuracy^{\ast}$ but has a substantial risk of causing severe late neurological damages. Fractionated Stereotactic Radiation Therapy(FSRT) is a modification of SRS enabling conventional fractionation with maintaining accuracy using noninvasive and relocatable frame. Verification of mechanical accuracy in FSRT has been done according to the manufacture's recommendations using RLPP, LTLF, and Depth-helmet. In order to reinforce this, we have developed additional novel verification procedure using Linac-grams with the Angiolocalizer attached on the GTC frame, which are then digitized into the planning software(X-Knife) to generate the three dimensional coordinates for cmoparison. This method has been successful in such ways that the anatomical landmarks are identifiable on the Linac-gram films and that the serial comparisons of the stereotactic coordinates of the isocenter are possible with more certainty a along the FSRT course than before.

• 대한두경부종양학회:학술대회논문집
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• 대한두경부종양학회 1995년도 제12차 학술대회 연제순서 및 초록집
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• pp.208.3-209
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• 1995

• 대한두경부종양학회:학술대회논문집
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• 대한두경부종양학회 1996년도 제13차 학술대회 연제순서 및 초록집
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• pp.250.2-251
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• 1996

• Radiation Oncology Journal
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• 제16권2호
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• pp.185-194
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• 1998

목적 : 재현성이 높은 정위적 고정장치의 개발로 인하여 보편화되고 있는 분할층위 방사선치료는 정확히 표적부위에 방사선을 조사하면서 주위 정상조직에서의 급격한 선량감소를 보이며, 분할치료를 시행함으로서 부작용을 최소화할 수 있는 치료기법이다. 이에 저자들은 분할정위 방사선치료에 대한 초기 임상경험에 대한 예비적 결과를 보고하고자 한다. 대상 및 방법 : 1995년 8월부터 1996년 12월까지 총 15명의 양성 뇌종양 환자들을 대상으로 분할정위 방사선치료를 시행하였다. 환자의 연령분포는 6-70세(중앙값 40세)로 7명 대 8명의 남녀비를 나타내었다. 진단명에 따라 뇌하수체 선종 10명, 두개인두종 2명, 청신경초종 1명, 뇌수막종 2명이었다. Gill-Thomas-Cosman 프레임과 3차원 다회전치료를 이용하여 일일 선량 2Gy를 90-100%의 등선량표면 기준으로 조사하였다. 콜리메이터는 직경 26-70mm의 원형을 사용하였다. 결과 : 6-20개월의 비교적 짧은 추적조사기간이나 방사선학적 영상촬영 검사상 1명의 추적조사실패를 제외하고 7명이 완전관해 내지 병변의 축소를 나타내었으며, 1명의 병변내 괴사, 1명의 석회화, 5명의 무변화 등 전통적인 방사선치료와 유사한 결과를 보였다. 경미한 급성반응외 뇌신경마비나 뇌조직괴사의 부작용은 관찰되지 않았다. 치료 시마다 측정하는 두피-헬멧 거리의 오차는 평균 $1.1{\pm}0.6mm$이었다. 결론 : 분할정위 방사선치료의 고정장치는 비교적 재현성이 높은 치료시스템으로서 뇌종양의 치료로서 안전하며 효과적인 치료기법으로 판단된다. 향훈 일회 및 총 선량 등의 치료일정은 지속적인 임상연구로 풀어나가야 할 과제이다.

• Radiation Oncology Journal
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• 제15권1호
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• pp.19-26
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• 1997

목적 : 근치적 방사선치료 후 국소 재발된 비인강암의 방사선 재치료의 방법으로서 정위적 방사선 분할치료를 적용하여 그 치료 효과를 보고자 한다. 대상 및 방법 : 1995년 9월부터 1996년 8월까지 삼성 서울 병원 치료방사선과에서 정위적 방사선 분할치료를 시행받은 3명의 국소 재발 비인강암 환자들을 대상으로 하였다. 2명은 정위적 방사선 분할치료의 적용이 세 번째 방사선치료였다. 2명은 방사선 민감제로서 항암치료를 함께 시행하였다. 정위적 방사선 분할치료는 환자 개별적으로 제작되어 재장착이 용이한 Gill-Thomas-Cosman(GTC) 정위틀의 좌표계를 기준으로 하였으며 XKnife-3를 이용하여 multiple non-coplanar arc therapy의 치료 계획을 수립하여 일회당 2.5Gy씩 모두 45Gy 또는 50Gy를 조사하였다. 결과 : 3명 모두에서 만족할 만한 자각 증상의 호전을 경험하였으며 치료 종료 후 1개월에 시행한 자기 공명 영상에서 종양 크기의 현저한 감소를 확인하였으며 방사선으로 인한 뇌신경 장애의 부작용은 없었다. 2명은 정위적 방사선 분할치료의 치료 범위 바깥에서 다시 재발하여 7개월 및 9개월에 사망하였으며 1명은 4개월째 생존해 있다. 결론 : 정위적 방사선 분할치료는 국소 재발 비인강암의 방사선 재치료의 방법으로서 비교적 안전하고 효과적인 치료 방법을 확인하였으며 원격 전이에 대한 보다 효과적인 항암치료의 개발이 요구된다.

• 한국의학물리학회:학술대회논문집
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• 한국의학물리학회 2002년도 Proceedings
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• pp.446-449
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• 2002

The video based electronic portal imaging device (EPID), which could display the portal image in near real time, was implemented to verify treatment position error in FSRT(Fractionated Stereotatic Radiation Therapy) instead of a portal film. Also, Developed FSRT system was composed of the stereotactic frame, frame mounting system and collimator cones. The verification of treatment position is very crucial in special therapies like FSRT. In general, the FSRT uses high dpse rate at small field size for treating small intracranial lesions. To evaluate quantitative positioning errors in FSRT, we used the first FSRT image as reference image and obtained the second FSRT image that was moved 2mm intentionally and detected intracranial contours after image processing. The generated 2mm error could be verified by overlapping only contours of two images. Through this study, the radiation treatment efficiency could be improved by performing precise radiation therapy with a developed video based EPID and FSRT.

• 대한두경부종양학회지
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• 제14권2호
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• pp.156-163
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• 1998

Background & Objectives: Frameless fractionated stereotactic radiotherapy(FFSRT) is a modification of stereotactic radiosurgery(SRS) with radiobiologic advantage of fractionation without losing mechanical accuracy of SRS. Local recurrence of head and neck cancer at or near skull base benefit from reirradiation. Main barrier to successful palliation is dose limitation secondary to normal tissue tolerance. We try to evaluate the efficacy and safety of FFSRT as a new modality of reirradaton in these challenging patients. Materials & Methods: Seven patients with recurrent head & neck cancer involving at or near skull base received FFSRT from September 1995 to November 1997. Six patients with nasopharyngeal cancer had received induction chemotherapy and curative radiation therapy. One patient with maxillary sinus cancer had received total maxillectomy and postoperative radiation therapy as a initial treatment. Follow-up ranged from 11 to 32 months with median of 24 months. Three of 7 patients received hyperfractionated radiation therapy(1.1-1.2Gy/fraction, bid, total 19.8-24Gy) just before FFSRT. All patients received FFSRT(3-5Gy/fraction, total 15-30Gy/5-10fractions). Chemotherapy(cis-platin $100mg/m^2$) were given concurrently with FFSRT in four patients. Second course of FFSRT were given in 4 patients with progression or recurrence after initial FFSRT. Because IF(irregularity factor; ratio of surface area of target to the surface area of sphere with same volume as a target) is too big to use conventional stereotactic RT using multiple arc method for protection of radiation damage to critical normal tissue, all patients received FFSRT with conformal method using irregular static ports. Results: Five of 7 patients showed complete remission in follow-up CT &/or MRI. Three of these five patients who developed marginal, in-field, and out-field recurrences, respectively. Another one of complete responders has been dead of G-I bleeding without evidence of local recurrence. One partial responder who showed progressive disease 15 months after initial FFSRT has received additional FFSRT, and then he is well-being with symptomatic improvement. One minmal responder who showed progression of locoregional disease 9 months after $1^{st}$ FFSRT has received 2nd FFSRT, and then he is alive with stable disease. Five of 7 case had showed direct invasion to skull base and had complaint headache and various symptoms of cranial nerve involvement. Four of these five case showed improvement of neurologic symptoms after FFSRT. No significant neurologic complicaltion related to FFSRT was observed during follow-up periods. Tumor volumes were ranged from 3.9 to 50.7 cc and surface area ranged from 16.1 to $114.9cm^2$. IF ranged from 1.21 to 1.74. The average ratio of volume of prescription isodose shell to target volume was 1.02 that indicated the improvement of target coverage and dose distribution with FFSRT with conformal method compared to target coverage with FFSRT with multiple arc method. Conclusion: Our initial experience suggests that FFSRT with conformal method was relatively effective and safe modality in the treatment of recurrent head and neck cancer involving at or near skull base. Treatment benefit included good palliation of symptoms and reasonable radiographic response. However, more experience and additional follow-up are needed to better assess its ultimate role in treating these challenging patients.

• 한국의학물리학회지:의학물리
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• 제31권3호
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• pp.63-70
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• 2020

Stereotactic radiosurgery is one of the most sophisticated forms of modern advanced radiation therapy. Unlike conventional fractionated radiotherapy, stereotactic radiosurgery uses a high dose of radiation with steep gradient precisely delivered to target lesions. Lars Leksell presented the principle of radiosurgery in 1951. Gamma Knife^® (GK) is the first radiosurgery device used in clinics, and the first patient was treated in the winter of 1967. The first GK unit had 179 cobalt 60 sources distributed on a hemispherical surface. A patient could move only in a single direction. Treatment planning was performed manually and took more than a day. The latest model, Gamma Knife^® Icon^TM, shares the same principle but has many new dazzling characteristics. In this article, first, a brief history of radiosurgery was described. Then, the physical properties of modern radiosurgery machines and physicists' endeavors to assure the quality of radiosurgery were described. Intrinsic characteristics of modern radiosurgery devices such as small fields, steep dose distribution producing sharp penumbra, and multi-directionality of the beam were reviewed together with the techniques to assess the accuracy of these devices. The reference conditions and principles of GK dosimetry given in the most recent international standard protocol, International Atomic Energy Agency TRS 483, were shortly reviewed, and several points needing careful revisions were highlighted. Understanding the principles and physics of radiosurgery will be helpful for modern medical physicists.