1.Pleuro-peritoneal Shunting for Refractory Pericardial Effusion after Coronary Artery Bypass Grafting
Takashi Matsumoto ; Masayoshi Umesue ; Hironori Baba ; Kanzi Matsui
Japanese Journal of Cardiovascular Surgery 2010;39(6):343-346
A-75-year-old man had refractory late cardiac tamponade after an off-pump coronary artery bypass grafting. He was initially treated by pericardiocentesis with oral nonsteroidal anti-inflammatory drugs, but the treatment failed. Pericardial fenestration was conducted twice for refractory pericardial effusion during his hospitalization. He presented again with recurrence of cardiac tamponade 2 months after the last pericardial fenestration. Therefore, a pleuroperitoneal shunt system was implanted. He recovered well and was discharged without reaccumulation of pericardial effusion.
2.Transesophageal Pacing for the Evaluation of Ischemic Heart Disease in Patients with Atheroscrelotic Vascular Disease.
Kenichiro AZUMA ; Hajime HIROSE ; Kouji MATSUMOTO ; Hironori ARAKAWA
Japanese Journal of Cardiovascular Surgery 1993;22(6):456-461
Transesophageal pacing (TEP) was performed in 54 patients with atheroscrelotic vascular disease to detect ischemic heart disease (IHD). Thirty patients had arteriosclerosis obliterans of the lower extremities (ASO) and 24 patients aortic aneurysm (AA). All patients underwent coronary arteriography. Sensitivity for the diagnosis of IHD was 90% and the specificity 67%, accuracy 83% in ASO and sensitivity 80%, specificity 93%, accuracy 88% in AA. In both vascular diseases the sensitivity was 87%, the specificity was 83%, and the accuracy was 85%. These results suggest that TEP is a useful screening test to detect IHD in patients with atheroscrelotic vascular disease who are candidates for surgery.
3.Lipoprotein(a) in the Abdominal Aortic Aneurysmal Wall.
Hironori Arakawa ; Hajime Hirose ; Koji Matsumoto ; Masaya Shibata ; Shigeyuki Fuwa ; Mitsuru Seishima ; Yoko Yano ; Akio Noma
Japanese Journal of Cardiovascular Surgery 1996;25(6):359-363
Lipoprotein(a) [Lp(a)] has been considered as an independent risk factor for arteriosclerotic diseases. With an anticipation that Lp(a) would also serve as a risk factor for abdominal aortic aneurysms (AAA), we analyzed serum and tissue Lp(a) levels of patients with AAA in relation to those in healthy individuals. Serum Lp(a) levels were significantly higher in the AAA group (53.2±60.8mg/dl) than in the healthy controls (14.6±13.6mg/d) (p<0.001). The Lp(a) level in the aneurysmal wall of patients with AAA was 49.8±38.2ng/mg. There was a significant correlation between serum and aneurysmal wall Lp(a) levels in AAA patients (r2=0.79, p<0.01). Immunohistochemical examination revealed Lp(a) in the extracellular matrix of the middle layer of the tunica intima, but not in the tunica media or externa.
4.Surgical Repair of Dissecting Aortic Aneurysms(DeBakey IIIb) Presenting with Visceral Perfusion from the False Lumen.
Shigeyuki Fuwa ; Hajime Hirose ; Masanori Hashimoto ; Hisashi Iwata ; Kiyokage Kubo ; Makoto Ishikawa ; Hironori Arakawa ; Kenichiro Azuma ; Koji Matsumoto
Japanese Journal of Cardiovascular Surgery 1995;24(5):281-285
We reviewed our experience with 4 cases of chronic dissecting aortic aneurysm (DeBakey IIIb) with the false lumen extending into the abdominal aorta and major branches being perfused from the false lumen. In such cases, resection of the intrathoracic portion of the aneurysm and closing of the distral false lumen may exclude visceral perfusion from the false lumen. In order to ensure continued perfusion of true and false lumens after repair, we performed “double barrel” anastomosis for distal anastomosis in graft replacement of the descending aorta. Follow-up periods ranged from 8 to 21 months, 17 months on average. Postoperatively, neither apparent expansion of the false lumen nor compression of the true lumen was found in these cases. The advantage of this procedure is the effective restoration of visceral perfusion. We emphasize that this procedure is one of the choices of procedures, as a two-staged approach for chronic aortic dissection presenting with visceral perfusion from the false lumen and without an enlarged abdominal aorta, though more patients and longer follow-up are required to fully evaluate this procedure.
5.Use of perioperative ureteral stent in abdominal aortic aneurysm with retroperitoneal fibrosis: A report of two cases.
Junya KUSAKA ; Shigekiyo MATSUMOTO ; Satoshi HAGIWARA ; Hironori KOGA ; Takayuki NOGUCHI
Korean Journal of Anesthesiology 2012;63(1):76-79
Retroperitoneal fibrosis is associated with fibroblast proliferation due to inflammatory changes in adipose/fibrous tissue. Given that aortic dilation in abdominal aortic aneurysm can cause compression of the ureter, abdominal aortic aneurysm complicated by retroperitoneal fibrosis is likely to result in urinary tract obstruction. Accordingly, close attention to changes in perioperative urine volume is warranted when operating on patients with abdominal aortic aneurysm complicated by retroperitoneal fibrosis. We have recently performed laparotomies on two cases of abdominal aortic aneurysm complicated by retroperitoneal fibrosis. In the first case, surgery was performed without the placement of a ureteral stent. The patient developed postrenal acute renal failure caused by postoperative urinary retention. In the second case, ureteral stent placement in advance enabled perioperative management without complications. The clinical course of these cases suggests that, in laparotomy with concomitant retroperitoneal fibrosis, preoperative ureteral stent placement can prevent postoperative complications in the renal and urinary systems.
Acute Kidney Injury
;
Aortic Aneurysm
;
Aortic Aneurysm, Abdominal
;
Fibroblasts
;
Humans
;
Laparotomy
;
Postoperative Complications
;
Retroperitoneal Fibrosis
;
Stents
;
Ureter
;
Urinary Retention
;
Urinary Tract
6.V-Rod Technique for Direct Repair Surgery of Pediatric Lumbar Spondylolysis Combined with Posterior Apophyseal Ring Fracture.
Takayuki SUMITA ; Koichi SAIRYO ; Isao SHIBUYA ; Yoshihiro KITAHAMA ; Yasuo KANAMORI ; Hironori MATSUMOTO ; Soichi KOGA ; Yasuhiro KITAGAWA ; Akira DEZAWA
Asian Spine Journal 2013;7(2):115-118
We report a pediatric baseball player having both a fracture of the posterior ring apophysis and spondylolysis. He was presented to a primary care physician complaining of back pain and leg pain. Despite conservative treatment for 3 months, the pain did not subside. He was referred to our clinic, and surgical intervention was carried out. First, a bony fragment of the caudal L5 apophyseal ring was removed following fenestration at the L5-S interlaminal space, bilaterally: and decompression of the bilateral S1 nerve roots was confirmed. Next, pseudoarthrosis of the L5 pars was refreshed and pedicle screws were inserted bilaterally. A v-shaped rod was inserted beneath the L5 spinous process, which stabilized the pars defects. After the surgery, back pain and leg pain completely disappeared. In conclusion, the v-rod technique is appropriate for the spondylolysis direct repair surgery, especially, in case the loose lamina would have a partial laminotomy.
Back Pain
;
Baseball
;
Decompression
;
Humans
;
Laminectomy
;
Leg
;
Physicians, Primary Care
;
Pseudarthrosis
;
Spondylolysis
7.Stereomicroscopic on-site evaluation in endoscopic ultrasound-guided tissue acquisition of upper gastrointestinal subepithelial lesions
Seigo NAKATANI ; Kosuke OKUWAKI ; Masafumi WATANABE ; Hiroshi IMAIZUMI ; Tomohisa IWAI ; Takaaki MATSUMOTO ; Rikiya HASEGAWA ; Hironori MASUTANI ; Takahiro KUROSU ; Akihiro TAMAKI ; Junro ISHIZAKI ; Ayana ISHIZAKI ; Mitsuhiro KIDA ; Chika KUSANO
Clinical Endoscopy 2024;57(1):89-95
Background/Aims:
In stereomicroscopic sample isolation processing, the cutoff value (≥4 mm) of stereomicroscopically visible white cores indicates high diagnostic sensitivity. We aimed to evaluate endoscopic ultrasound-guided tissue acquisition (EUS-TA) using a simplified stereomicroscopic on-site evaluation of upper gastrointestinal subepithelial lesions (SELs).
Methods:
In this multicenter prospective trial, we performed EUS-TA using a 22-gauge Franseen needle in 34 participants with SELs derived from the upper gastrointestinal muscularis propria, requiring pathological diagnosis. The presence of stereomicroscopically visible white core (SVWC) in each specimen was assessed using stereomicroscopic on-site evaluation. The primary outcome was EUS-TA’s diagnostic sensitivity with stereomicroscopic on-site evaluation based on the SVWC cutoff value (≥4 mm) for malignant upper gastrointestinal SELs.
Results:
The total number of punctures was 68; 61 specimens (89.7%) contained stereomicroscopically visible white cores ≥4 mm in size. The final diagnoses were gastrointestinal stromal tumor, leiomyoma, and schwannoma in 76.5%, 14.7%, and 8.8% of the cases, respectively. The sensitivity of EUS-TA with stereomicroscopic on-site evaluation based on the SVWC cutoff value for malignant SELs was 100%. The per-lesion accuracy of histological diagnosis reached the highest level (100%) at the second puncture.
Conclusions
Stereomicroscopic on-site evaluation showed high diagnostic sensitivity and could be a new method for diagnosing upper gastrointestinal SELs using EUS-TA.