1.The Role of Pharmacists in Supporting Home Catecholamine Therapy for Inotrope-Dependent Patients With End-Stage Heart Failure
Miki TAKAMIZAWA ; Toru SHINOHARA ; Mitomi TAKANO ; Makoto TAKAMIZAWA ; Yoshiyuki AOKI ; Hirokazu KOMATSU ; Takahiro TACHIBANA ; Yutaka AOKI ; Atsushi MIURA ; Kenichi HORIUCHI ; Yoshikazu YAZAKI
Journal of the Japanese Association of Rural Medicine 2025;73(5):415-424
Patients with heart failure often have difficulty in stopping cardiotonic drugs as the disease stage progresses, and long-term hospitalization is a factor that significantly reduces quality of life. To solve this problem, in September 2017, our hospital started an initiative to support overnight stays at home by using a portable precision infusion pump and continuously injecting cardiotonic drugs with the approval of the hospital’s medical ethics committee. Since there are few case reports of similar efforts in Japan, here we describe the use of drugs and the content of the intervention by pharmacists. The drug is administered via a peripherally inserted central venous catheter using an ambulatory precision infusion pump. The pharmacist calculates the drug dose and flow rate required during the at-home period using spreadsheet software, and proposes a prescription to the doctor. In addition, if multiple cardiotonics and diuretics are administered, the presence or absence of compounding changes is confirmed, and the feasibility of mixing should be examined, and then prepared aseptically on a clean bench on the day of administration. We started to administer catecholamine while in the hospital on the day before the stay at home. Then we prepared the catecholamine in a portable precision infusion pump and administered it during stay at home. To date, we have supported 8 cases in stays at home without emergency hospitalization or sudden death due to exacerbation of heart failure.
2.New Approach to Supporting Medical Students Falling Short of Expectations at Aichi Medical University
Seiko KAWAI ; Katsuhisa WASEDA ; Maki SATO ; Ruri AOKI ; Kouta SUZUKI ; Atsushi MIYAMOTO ; Nobutaro BAN
Medical Education 2025;56(1):11-16
Aichi Medical University, a peer teaching support system was introduced in the 2018 academic year to assist students with low academic performance. While the initiative yielded some positive outcomes, variations in group motivation occasionally resulted in a lackadaisical attitude. Furthermore, limited faculty involvement restricted the scope of in-depth discussions. The onset of COVID-19 in 2020 further disrupted learning modalities, leading to an increase in the number of students repeating academic years. To address these challenges, several revisions were implemented in the learning support system starting in the 2022 academic year. These changes included confirming students’ willingness to participate in study sessions, increasing the number of faculty tutors, and enabling students to form study groups autonomously. This paper discusses the evolution of our learning support system and the experiences that led to these revisions.
3.Minimally invasive radical hysterectomy and the importance of avoiding cancer cell spillage for early-stage cervical cancer: a narrative review
Atsushi FUSEGI ; Hiroyuki KANAO ; Shiho TSUMURA ; Atsushi MURAKAMI ; Akiko ABE ; Yoichi AOKI ; Hidetaka NOMURA
Journal of Gynecologic Oncology 2023;34(1):e5-
Radical hysterectomy is a standard surgery to treat early-stage uterine cervical cancer. The Laparoscopic Approach to Cervical Cancer (LACC) trial has shown that patients receiving minimally invasive radical hysterectomy have a poorer prognosis than those receiving open radical hysterectomy; however, the reason for this remains unclear. The LACC trial had 2 concerns: the learning curve and the procedural effects. Appropriate management of the learning curve effect, including surgeons’ skills, is required to correctly interpret the result of surgical randomized controlled trials. Whether the LACC trial managed the learning curve effect remains controversial, based on the surgeons’ inclusion criteria and the distribution of institutions with recurrent cases. An appropriate surgical procedure is also needed, and avoiding intraoperative cancer cell spillage plays an important role during cancer surgery. Cancer cell spillage during minimally invasive surgery to treat cervical cancer is caused by several factors, including 1) exposure of tumor, 2) the use of a uterine manipulator, and 3) direct handling of the uterine cervix. Unfortunately, these issues were not addressed by the LACC trial. We evaluated the results of minimally invasive radical hysterectomy while avoiding cancer cell spillage for early-stage cervical cancer. Our findings show that avoiding cancer cell spillage during minimally invasive radical hysterectomy may ensure an equivalent oncologic outcome, comparable to that of open radical hysterectomy. Therefore, evaluating the importance of avoiding cancer cell spillage during minimally invasive surgery with a better control of the learning curve and procedural effects is needed.
4.Comparison of Implantability, Early Post-Operative Valve Function and Structural Valve Deterioration between the Carpentier-Edward Perimount Magna Valve and St. Jude Medical Trifecta Valve
Atsushi AOKI ; Tadashi OMOTO ; Kazuto MARUTA ; Tomoaki MASUDA ; Yui HORIKAWA
Japanese Journal of Cardiovascular Surgery 2020;49(5):243-252
Purpose : Easy and safe implantability, good post-operative valve function and good long-term durability are required for any bioprosthetic valve implanted in aortic position. The Carpentier Edwards Perimount Magna valve (Magna) was introduced in 2009 and the St. Jude Medical Trifecta valve (Trifecta) was introduced in 2012 to our institution. In this study, we compared implantability, early post-operative valve function and structural valve deterioration (SVD) between these two valves. Patients and Methods : Between January 2009 and December 2019, Magna or Trifecta were electively implanted for 254 patients (Magna 151 patients and Trifecta 103 patients) and these patients were included in this study. Implantability was evaluated by occurrence of intraoperative valve dysfunction. Early post-operative valve function was evaluated by mean pressure gradient (m-PG) and indexed aortic valve area (AVAI) by ultrasonography performed 10 days after surgery. The relationship between indexed bioprosthetic valve orifice area calculated from internal diameter (GOAI) and AVAI was evaluated. If there was a significant relationship between GOAI and AVAI, maximum body surface area (BSA) to obtain AVAI≥0.85 cm2/m2 was estimated from 99% reliable interval of regression line. Results : Age, gender, and BSA did not differ between the two groups. There was no intraoperative valve dysfunction in Magna ; however we experienced one patient with severe aortic regurgitation due to stent distortion by the aortic wall during surgery with the 25 mm Trifecta valve. For this patient, Trifecta was replaced with Magna intra-operatively. In the 19 mm valve, AVAI was significantly larger (1.12±0.27 cm2/m2 vs. 0.88±0.21 cm2/m2, p<0.001) and m-PG was significantly lower (8.7±2.7 mmHg vs. 17.2±6.3 mmHg, p<0.001) in Trifecta. The frequency of AVAI<0.85 cm2/m2 (24% vs. 49%, p=0.036) and the frequency of m-PG≥20 mmHg (0% vs. 26%, p=0.006) were significantly less in Trifecta. There was significant relationship between GOAI and AVAI in both valves. Maximum BSA to obtain AVAI ≥0.85 cm2/m2 was estimated as 1.35 m2 in Magna and 1.50 m2 in Trifecta. In the 21 mm valve, AVAI was significantly larger (1.14±0.23 cm2/m2 vs. 0.92±0.22 cm2/m2, p<0.001) and m-PG was significantly lower (7.8±3.2 mmHg vs. 14.6±4.7 mmHg, p<0.001) in Trifecta. The frequency of AVAI<0.85 cm2/m2 was significantly less in Trifecta (11% vs. 42%, p=0.002) ; however, the frequency of m-PG≥20 mmHg did not differ significantly. There was a significant relationship between GOAI and AVAI in Magna and Trifecta. Maximum BSA to obtain AVAI ≥0.85 cm2/m2 was estimated as 1.49 m2 in Magna and 1.70 m2 in Trifecta. In the 23 and 25 mm valves, AVAI was significantly larger and m-PG was significantly lower in Trifecta. However neither the frequency of AVAI<0.85 cm2/m2 nor m-PG≥20 mmHg differed between the two valves. There was one early (27 months after surgery) SVD due to leaflet tear in Trifecta and two SVDs due to leaflet calcification more than 10 years after surgery in Magna. Conclusion : For Trifecta implantation, valve size selection seemed to be important and larger valves should be avoided with narrow ST junctions. Selection of 19 and 21 mm Magna valves should be limited for the patient with a BSA less than 1.35 and 1.49 m2 respectively. In Trifecta, early SVD might occur and careful follow-up is necessary.
5.Should indications for laterally extended endopelvic resection (LEER) exclude patients with sciatica?
Hiroyuki KANAO ; Yoichi AOKI ; Atsushi FUSEGI ; Nobuhiro TAKESHIMA
Journal of Gynecologic Oncology 2020;31(5):e63-
Objective:
Previously, indications for laterally extended endopelvic resection (LEER) have excluded patients with sciatica because R0 resection has not been deemed possible [1].Because laparoscopy optimizes visualization and thus provides for meticulous dissection, we hypothesized that R0 resection can be achieved by means of laparoscopic LEER in patients with sciatica. This video article aimed to clarify the technical feasibility of laparoscopic LEER performed for laterally recurrent previously irradiated cervical cancer with concomitant sciatica.
Methods:
We investigated technical feasibility of laparoscopic LEER performed as a salvage therapy following abdominal radical hysterectomy and concurrent chemoradiotherapy in a patient suffering laterally recurrent cervical carcinoma with concomitant sciatica. The recurrent tumor involved the right external and internal iliac artery and vein, ileocecum, rectosigmoid colon, right ureter, right obturator nerve, and right sciatic nerve, with a resulting fistula between the tumor and the rectosigmoid colon, and severe sciatica.Resection of all these structures was essential for achievement of R0 status, and such resection means concomitant femoral bypass with prosthetic graft interposition and gastrointestinal/urinary tract resection.
Results:
Laparoscopic LEER with femoral-femoral artery bypass could be conducted without any postoperative complications. Pathological R0 resection could be achieved, and local recurrence could have been controlled. However, the patient died from liver and lung metastasis at 1 year after this resection surgery.
Conclusion
Laparoscopic LEER for a laterally recurrent previously irradiated cervical cancer with concomitant sciatica was technically feasible, however, further study involving a greater number of patients and longer follow-up period is warranted to determine the stringent indications.
6.Preventive Effect of Tolvaptan on Pleural Effusion after Cardiac Valvular Surgery
Atsushi AOKI ; Tadashi OMOTO ; Kazuto MARUTA ; Tomoaki MASUDA ; Yui HORIKAWA
Japanese Journal of Cardiovascular Surgery 2019;48(4):227-233
Background : Post-operative fluid management after cardiac valvular surgery is very important. In our institute, carperitide 0.0125 γ was started during surgery and oral furosemide 20-40 mg/day and spironolactone 25 mg/day were started at post-operative day (POD) 1 as the standard therapy. Tolvaptan, vasopressin V2 receptor antagonist, was started when fluid retention such as pleural effusion occurred. With this strategy, the frequency of pleural drainage was more than 40%. Therefore we changed our standard therapy in February 2018. In this new standard therapy, carperitide (0.0125 γ) was started and maintained until oral intake became possible and tolvaptan 7.5 mg was started with furosemide 20 mg and spironolactone 25 mg as oral medicine usually at POD 1. In this study, whether tolvaptan prevents pleural effusion or not after cardiac surgery was examined. Subjects and Methods : Sixty-four patients were operated during February 2017 and December 2018 were included in this study. Thirty-two patients operated in the period until January 2018 served as control group and were compared with 32 patients for whom tolvaptan was started on POD 1 (tolvaptan group). Results : There was no significant difference between two groups for background, operative procedure, operation time, cardiopulmonary bypass time, aortic cross clamp time and fluid balance during procedure. Tolvaptan was given to all patients in the tolvaptan group and in 22% of patients in the control group. Oral furosemide dose (tolvaptan group 21±5 mg/day, control group 31±20 mg/day, p=0.0112), and the frequency of patients with intravenous furosemide administration (tolvaptan group 9%, control group 44%, p=0.0038) were significantly less in tolvaptan group. In the tolvaptan group, intravenous furosemide administrated only once in all patients, whereas the frequency of intravenous furosemide administration was 1-32 times, average 6.6 times in control group. Tolvaptan was stopped within 1 week because of too much urination in two patients and the elevation of liver enzyme in two patients without any adverse effects. Post-operative urination volume until POD 5 did not differ. In both groups, body weight increased at POD 1 and 2 and returned to pre-operative weight at POD 3. Pleural effusion was significantly less in the tolvaptan group at POD 3 (tolvaptan group : none 66%, small amount 22%, moderate amount 3%, drain tube inserted 9%, control group : none 16%, small amount 34%, moderate amount 13%, drain tube inserted 38%, p=0.0003), at POD 7 (tolvaptan group : none 72%, small amount 28%, vs., control group : none 47%, small amount 19%, moderate amount 22%, drain tube inserted 13%, p=0.0041) and at discharge (tolvaptan group : none 94%, small amount 6%, vs., control group : none 69%, small amount 22%, moderate amount 9%, p=0.0301). The frequency of pleural drainage was also less in the tolvaptan group (tolvaptan group 9.4%, control group 44%, p=0.0038). Conclusion : After cardiac valvular surgery, tolvaptan started at POD 1 is very effective to reduce the frequency of pleural effusion and pleural drainage, and careful checking for too much urination and the elevation of liver enzymes is mandatory.
7.Appendix 1
Masao IWAGAMI ; Kotonari AOKI ; Manabu AKAZAWA ; Chieko ISHIGURO ; Shinobu IMAI ; Nobuhiro OOBA ; Makiko KUSAMA ; Daisuke KOIDE ; Atsushi GOTO ; Norihiro KOBAYASHI ; Izumi SATO ; Sayuri NAKANE ; Makoto MIYAZAKI ; Kiyoshi KUBOTA
Japanese Journal of Pharmacoepidemiology 2018;23(2):124-124
8.Appendix 2
Masao IWAGAMI ; Kotonari AOKI ; Manabu AKAZAWA ; Chieko ISHIGURO ; Shinobu IMAI ; Nobuhiro OOBA ; Makiko KUSAMA ; Daisuke KOIDE ; Atsushi GOTO ; Norihiro KOBAYASHI ; Izumi SATO ; Sayuri NAKANE ; Makoto MIYAZAKI ; Kiyoshi KUBOTA
Japanese Journal of Pharmacoepidemiology 2018;23(2):125-130
9.Appendix 3
Masao IWAGAMI ; Kotonari AOKI ; Manabu AKAZAWA ; Chieko ISHIGURO ; Shinobu IMAI ; Nobuhiro OOBA ; Makiko KUSAMA ; Daisuke KOIDE ; Atsushi GOTO ; Norihiro KOBAYASHI ; Izumi SATO ; Sayuri NAKANE ; Makoto MIYAZAKI ; Kiyoshi KUBOTA
Japanese Journal of Pharmacoepidemiology 2018;23(2):131-139
10.Appendix 4
Masao IWAGAMI ; Kotonari AOKI ; Manabu AKAZAWA ; Chieko ISHIGURO ; Shinobu IMAI ; Nobuhiro OOBA ; Makiko KUSAMA ; Daisuke KOIDE ; Atsushi GOTO ; Norihiro KOBAYASHI ; Izumi SATO ; Sayuri NAKANE ; Makoto MIYAZAKI ; Kiyoshi KUBOTA
Japanese Journal of Pharmacoepidemiology 2018;23(2):140-143


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