wave front propagation, especially in low voltage zones. By performing HDM mapping inside the PVAI lines after conventional encirclement lesions, we hoped to identify any RPs associated with ECs inside our PVAI lines. Thus, the purpose of this study was to determine the prevalence and number of ECs inside the PVAI lines after a conventional PVAI, and the effect of an EC ablation on the outcomes in patients with non-valvular paroxysmal (pAF), persistent (persAF), and long-lasting AF (LLAF). Methods Baseline Clinical Characteristics of the Patient GroupsThe present study was approved by the institutional review committee and ethics review board of our hospital, the Ethical Review Board of Steel Memorial Yawata Hospital. The procedures were followed in accordance with the Declaration of Helsinki and the ethical standards of the responsible committee on human experimentation. Moreover, we enrolled this study in an international registry of P ulmonary vein (PV) antrum isolation (PVAI) with radiofrequency catheter ablation (RFCA) has proven to be a useful strategy for atrial fibrillation patients (AF) worldwide. 1 To prevent initiating and maintaining AF, a complete PVAI should be a target of the AF treatment. 1 However, in spite of establishing complete PVAI lines, we rarely experience and encounter remaining potentials (RPs) inside our PVAI lines detected by high-density mapping (HDM). Then, when we perform pacing from the ablation catheter on the RPs inside our PVAI lines, we confirm that the pacing can capture RPs and conduct to the atrium. This finding indicates the existence of epicardial connection(s) (ECs) from inside the PVAI lines to the atrium after establishing complete conventional PVAI lines. The recent Intellamap Orion 2 (Boston Scientific Corporation, Marlborough, MA, USA) and Advisor TM HD Grid 3 (Abbott, Plymouth, MN, USA) advanced catheter technologies, which are directional HDM catheters, can not only identify low voltages and small local electrical signals, but also more importantly can capture the direction of the
The Saprospira sp. strain SS98-5 cells form colonies on a nutrient-rich agar medium, but are motile by gliding under low-nutrient condition and then numerous microtubule-like fibril structures are found intracellularly. The fibril structures are composed of a proteinous subunit SCFP; this gene was cloned previously. Here, the organization of ORFs adjacent to the SS98-5 SCFP gene and its transcription were investigated, and a SCFP gene homolog was cloned from Saprospira sp. SS03-4, a relative strain of SS98-5. The SCFP gene was also encoded within the SS03-4 chromosome, and grouped into a phage tail sheath protein family, suggesting its bacteriophage genome origin. Four ORFs adjacent to the SCFP gene were identified and their organization was in common with several prokaryotes. The SCFP mRNA was detected by reverse transcriptase polymerase chain reaction from gliding and non-gliding cells, implying that the SCFP gene was transcribed independent of existence or absence of the fibril structures.
Background Cardiac sarcoidosis (CS) is a chronic inflammatory disease characterised by impaired contractility of the myocardium secondary to cardiac conduction system abnormalities, which result in atrio-ventricular (AV) conduction block and ventricular tachyarrhythmias. Notably, sinus node (SN) abnormalities are rarely associated with CS. Case Summary We herein present a case of CS presenting with SN abnormalities associated with atrial involvement of the CS and describe the utility of cardiac magnetic resonance imaging (cMRI), fluorine-18-fluorodeoxyglucose positron emission tomography/computed tomography (18-FDG RET-CT) scans, and cardiac biopsy, in making an initial early diagnosis of early-stage CS. Fortunately, an initial appropriate immunosuppression therapy with methylprednisolone for the CS thus far can help the SN and AV conduction function recover and has provided a good clinical course without the implantation of a pacemaker or implantable cardio-defibrillator. Discussion Although the diagnosis of CS may be elusive, the initial clinical suspicion and use of advanced imaging may be important for an early diagnosis of CS. Further, because CS may sometimes rapidly progress, the early diagnosis and treatment of early-stage CS may also be important to help the SN and AV conduction function recover, and avoid an implantation of a pacemaker, as in this present case.
Background Left ventricular (LV) free wall ruptures (LVFWRs) of myocardial infarctions (MIs) are still one of the most fatal mechanical complications after an acute MI (AMI). LVFWRs are estimated to occur in 0.01% to 0.52% of patients following an ST-elevation MI (STEMI) and are rarely reported in the setting of a non- or subtle-ST-elevation MI. Case Summary We herein present a report of a 92-year-old male rescue case with an LVFWR following a small subtle-STEMI. Contrast cardiac computed tomography was useful to diagnose the LVFWR. An emergent cardiac surgery was performed. Finally, the patient’s life was saved. Discussion This case demonstrates that even without clinical evidence of transmural infarction such as non- or subtle-STEMI, those patients may carry a risk of fatal complications including LVFWR, especially in older age and a first lateral wall AMI without collateral flow, as in this present case. Thus, the physicians should be aware of the possibility of LVFWRs even in the setting of an AMI without or with subtle-ST-elevation. High clinical suspicion and vigilance are the cornerstone of a timely and accurate diagnosis of LVFWR. This is the first report of a rescue case of a patient with an LVFWR associated with a subtle-STEMI.
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