1.A Case of Congenital Hypoplastic Aortic Root Treated by Multi-stage Open and Closed Valvotomies, Doty's Aortoplasty, and Aortoventriculoplasty.
Takenori Yamazaki ; Atsukata Kobayashi ; Keiji Ohara ; Masato Nakayama ; Shuichirou Sugimura
Japanese Journal of Cardiovascular Surgery 1997;26(5):330-333
A 9-year-old boy was first noted to have a heart murmur on the 7th postnatal day. Cardiac catheterization at the age of 4 months showed combined valvular and supravalvular aortic stenosis, bicuspid aortic valve and hypoplastic aortic annulus. Emergency open aortic valvotomy was performed. At the age of 6 years, he had infectious endocarditis which was treated medically. Echo-cardiography at this time showed a 90mmHg pressure gradient across the aortic valve. In August 1992 and in March 1993, ballon valvuloplasties were done but without a significant reduction in the pressure gradient. In July 1993, when the patient was 7 years old, repeated surgical valvotomy and Doty's aortoplasty were performed. Two years later the boy had exertional dyspnea, and a cardiac catheterization showed pulmonary artery pressure of 60/27mmHg, and a 110mmHg pressure gradient across the aortic value. In July 1995, he underwent aortic valve replacement with Konno's aortoventriculoplasty, and a SJM 19mm AHP valve was implanted. One year after surgery, he is without any symptoms. Although the end result was acceptable, earlier AVR with Konno procedure may have spared the child from one extra surgical procedure. Strategic options in the surgical therapy of this condition are discussed.
2.Experience of Coronary Artery Bypass Grafting on the Beating Heart with a Right Heart Bypass System.
Takenori Yamazaki ; Toshiaki Itou ; Tomohiro Nakayama ; Koji Sakurai ; Masato Nakayama ; Hiroshi Masumoto ; Yo Yano ; Toshio Abe
Japanese Journal of Cardiovascular Surgery 2003;32(2):59-63
Since November 1999 we have attempted to use a right heart bypass (RHB) system for beating heart coronary artery bypass grafting (CABG), which system produce better exposure of lateral and posterior wall of the heart and so enable us to facilitate bypass grafting to these branches. We report on our initial clinical experience with this system and the purpose of this study is to evaluate the efficacy of this system. To clarify the efficacy of the RHB system, we compared the intraoperative and postoperative clinical course, as well as outcome, between patients who underwent beating heart CABG with RHB and patients without RHB. Seventy-seven patients underwent beating heart CABG with RHB (RHB group) between November 1999 and December 2001. In the same period, 88 patients underwent beating heart CABG without RHB. Of these latter, 30 patients needed displacement of the beating heart in order to expose target coronary arteries (OPCAB group). Perioperative clinical parameters were compared between the groups. Patients in the RHB group received more grafts (2.4±0.6) than patients in the OPCAB group (2.0±0.2, p=0.002). There were no hospital deaths in either group. While displacing the beating heart, SvO2 decreased and pulmonary artery pressure increased in both groups. Nevertheless, the value of SvO2 was significantly higher in RHB group while displacing to expose the circumflex region (p=0.048) and the distal right coronary artery region (p<0.01). The effect of elevation of pulmonary artery pressure in the RHB group was lower than that in the OPCAB group, but it was not statistically different. Water balance during operation was 2, 898±1, 019ml in the RHB group and the 2, 237±807ml in OPCAB group (p=0.002). Body temperature following operation was 36.0±0.8°C in the RHB group and 36.5±0.8°C in the OPCAB group (p<0.01). However, no differences were found in postoperative blood loss, required transfusion, duration of mechanical ventilation, ICU stay and hospital stay. No patient had postoperative complications related to the RHB system. The introduction of the RHB enabled bypass grafting to posterior wall vessels with better exposure and under greater hemodynamic stability. Therefore we think it a very effective support system which enable multiple coronary revascularization on beating heart CABG.
3.A novel method for determining dose distribution on panoramic reconstruction computed tomography images from radiotherapy computed tomography
Hiroyuki OKAMOTO ; Madoka SAKURAMACHI ; Wakako YATSUOKA ; Takao UENO ; Kouji KATSURA ; Naoya MURAKAMI ; Satoshi NAKAMURA ; Kotaro IIJIMA ; Takahito CHIBA ; Hiroki NAKAYAMA ; Yasunori SHUTO ; Yuki TAKANO ; Yuta KOBAYASHI ; Hironori KISHIDA ; Yuka URAGO ; Masato NISHITANI ; Shuka NISHINA ; Koushin ARAI ; Hiroshi IGAKI
Imaging Science in Dentistry 2024;54(2):129-137
Purpose:
Patients with head and neck cancer (HNC) who undergo dental procedures during radiotherapy (RT) face an increased risk of developing osteoradionecrosis (ORN). Accordingly, new tools must be developed to extract critical information regarding the dose delivered to the teeth and mandible. This article proposes a novel approach for visualizing 3-dimensional planned dose distributions on panoramic reconstruction computed tomography (pCT) images.
Materials and Methods:
Four patients with HNC who underwent volumetric modulated arc therapy were included. One patient experienced ORN and required the extraction of teeth after RT. In the study approach, the dental arch curve (DAC) was defined using an open-source platform. Subsequently, pCT images and dose distributions were generated based on the new coordinate system. All teeth and mandibles were delineated on both the original CT and pCT images. To evaluate the consistency of dose metrics, the Mann-Whitney U test and Student t-test were employed.
Results:
A total of 61 teeth and 4 mandibles were evaluated. The correlation coefficient between the 2 methods was 0.999, and no statistically significant difference was observed (P>0.05). This method facilitated a straightforward and intuitive understanding of the delivered dose. In 1 patient, ORN corresponded to the region of the root and the gum receiving a high dosage (approximately 70 Gy).
Conclusion
The proposed method particularly benefits dentists involved in the management of patients with HNC. It enables the visualization of a 3-dimensional dose distribution in the teeth and mandible on pCT, enhancing the understanding of the dose delivered during RT.