1.A Successful Surgically Treated Case of Patent Ductus Arteriosus Associated with Noonan's Syndrome.
Toshihiko Ichihara ; Hideki Ishida ; Teiji Asakura ; Yoshimasa Sakai ; Kenzou Yasuura
Japanese Journal of Cardiovascular Surgery 1999;28(3):158-162
A 37-year-old woman with Noonan's syndrome underwent surgery for patent ductus arteriosus (PDA) and ventricular septal defect (VSD) with cardiomyopathy. Preoperative examination showed a small left-to-right shunt ratio (L→R) and mild pulmonary hypertension. However she had severe heart failure and repeated upper respiratory infections. The cardiomyopathy of this patient was the dilated type rather than the hypertrophic obstructive type which is usually seen in Noonan's syndrome. Postoperative cardiac functions did not improve significantly. This report discussed the operative technique, indications, and cardiac function aspects associated with Noonan's syndrome.
2.Surgical Treatment for Acute Pulmonary Embolism
Keiichi Ishida ; Hideki Ueda ; Hiroki Kohno ; Yusaku Tamura ; Michiko Watanabe ; Shinichiro Abe ; Kazuyoshi Fukazawa ; Yuichi Inage ; Masahisa Masuda ; Goro Matsumiya
Japanese Journal of Cardiovascular Surgery 2015;44(5):249-255
Background : Acute massive pulmonary embolism is a life-threatening disease. It is often treated with thrombolytic therapy, however, the mortality rates are unsatisfactorily high in patients who developed shock and subsequent cardiac arrest. Surgical pulmonary embolectomy is a last resort for patients with hemodynamic instability. We studied the outcomes of our patients who underwent pulmonary embolectomy for acute pulmonary embolism. Methods : Eight patients who underwent pulmonary embolectomy between January 2011 and December 2014 were studied. Our surgical indications were as follows. Patients who experienced cardiac arrest and treated with PCPS, and those in persistent vital shock, with contraindications of thrombolytic therapy, or with right heart floating thrombus. However, patients with ischemic encephalopathy or acute exacerbation of chronic thromboembolic pulmonary hypertension, and those who had already been treated with thrombolytic therapy were excluded. Preoperative ECMO was indicated for those in sustained shock. Pulmonary embolectomy was performed through median sternotomy and with cardiopulmonary bypass. After antegrade cardiac arrest, all clots were removed with forceps under direct vision through incisions in the bilateral main pulmonary arteries. IVC filter (Günther Tulip) was placed through the right atrial appendage. In our early cases, IVC filter (Neuhaus Protect) was placed after chest closure. Anticoagulation was not administered until hemostasis was achieved. Results : Seven patients underwent pulmonary embolectomy for massive pulmonary embolism, and in one patient pulmonary embolectomy was indicated for right heart floating thrombi although the pulmonary embolism was submassive. Three patients underwent cardiopulmonary resuscitation and were treated with ECMO. Other 3 patients in sustained shock vital were electively treated with ECMO. The other patient developed cardiopulmonary arrest shortly after anesthetic induction and intubation, and suffered disturbance of consciousness postoperatively. All patients were successfully weaned from cardiopulmonary bypass and underwent IVC filter placement (5 Neuhaus Protect, and 3 GProtec Tulip). One patient died due to a vascular complication associated with catheter insertion (retroperitoneal hematoma). No patients developed residual pulmonary hypertension. There were postoperative complications including pneumonia in 5 patients, tracheostomy in 2 patients, atrial fibrillation in 3 patients, and pericardial effusion in 1 patient. One patient who suffered disturbance of consciousness died 2.4 months after the surgery. Other patients had not developed any thrombotic and hemorrhagic complications during a median follow-up of 13.1 months. Conclusions : Pulmonary embolectomy is an effective treatment of acute massive pulmonary embolism. We believe that our strategy is useful, consisting of preoperative hemodynamic stability by an institution of ECMO, complete removal of clots by bilateral main pulmonary incisions, and prevention of recurrence by IVC filter placement.
4.Successful local use of heparin calcium for congested fingertip replants
Hideki KADOTA ; Atsushi IMAIZUMI ; Kunihiro ISHIDA ; Yasunori SASHIDA
Archives of Plastic Surgery 2020;47(1):54-61
Background:
Conventional methods of external bleeding for congested fingertip replants exhibit notable problems, including uncontrollable bleeding and unpredictable survival of the replant. We have added a local injection of heparin calcium to the routine use of systemic heparinization for inducing external bleeding. We retrospectively examined patients who underwent external bleeding using our method.
Methods:
Local subcutaneous injections of heparin calcium were made in 15 congested replants in addition to systemic heparinization. Each injection ranged from 500 to 5,000 U. The average duration of the injections was 4.1 days. Surgical outcomes were analyzed and compared with a control group of patients who underwent external bleeding without heparin calcium.
Results:
The overall survival rate was 93.3%, which was higher than that of the control group (83.3%), but the difference was not statistically significant (P=0.569). The survival rate for subzones I and II by the Ishikawa subzone classification was 100%, whereas it was 87.5% in subzones III and IV. No statistically significant difference was observed. The rate of partial necrosis was 0% in subzones I and II, whereas it was significantly higher (66.7%) in subzones III and IV (P=0.015). The mean total blood loss via external bleeding was 588 g in 10 fingers. No patients required blood transfusion.
Conclusions
Congestion of a replanted fingertip can be successfully managed without blood transfusion by our method. Although complete relief from congestion in replants in subzones I and II is achievable, there is a higher risk of partial necrosis in subzones III and IV.