Single lead catheter of implantable cardioverter-defibrillator with floating atrial sensing dipole implanted via persistent left superior vena cava

Persistent left superior vena cava (LSVC) is a congenital anomaly with 0.3%-1% prevalence in the general population. It is usually asymptomatic but in case of transvenous lead positioning, i.e., for pacemaker or implantable cardioverter defibrillator (ICD), may be a cause for significant complications or unsuccessful implantation. Single lead ICD with atrial sensing dipole (ICD DX) is a safe and functional technology in patients without congenital abnormalities. We provide a review of the literature and a case report of successful implantation of an ICD DX in a patient with LSVC and its efficacy in treating ventricular arrhythmias

A migrant left ventricular lead

We report the case of 70-year-old woman with Reel syndrome and cardiac resynchronization therapy device who experienced severe device malfunction. Reel syndrome was misdiagnosed for several months and the patient manifested fatigue, discomfort and diaphragmatic stimulation

Oltre la dissincronia quali fattori determinano la risposta alla terapia di resincronizzazione cardiaca?

Although cardiac resynchronization therapy is currently used for treatment of refractory heart failure in patients with low ejection fraction and cardiac dyssynchrony, there is a substantial number of non-responders. This indicates that, in addition to cardiac dyssynchrony, there are other factors affecting response to cardiac resynchronization therapy. Pre-implant identification of these factors appears of crucial importance in order to finalize the resynchronization treatment to those patients who have the highest probability of a positive response. In this review the main non-dyssynchrony determinants of response to cardiac resynchronization therapy are presented and discussed

A 49-year-old woman with dyspnoea, palpitations and syncope

Pulmonary hypertension is rarely described in association with Sjogren's syndrome. The authors report the case of a patient in which pulmonary hypertension was the inaugural clinical manifestation of primary Sjogren's syndrome. Clinical assessment, differential diagnosis, etiopathological implications, and therapeutic approach are discussed

Noncontact Mapping of Left Ventricle during CRT Implant

Introduction: Not all candidates for cardiac resynchronization therapy (CRT) are responders at followup. Echocardiographic parameters of dyssynchrony do not predict the response. Analysis of electrical properties of left ventricle (LV) by noncontact mapping (NCM) could be useful to better identify candidates for CRT. Methods and Results: We studied nine consecutive patients undergoing CRT. An NCM was positioned in the LV via atrial transeptal puncture. LV activation was recorded during sinus rhythm (SR), pacing from RV, from different LV epicardial locations, and in biventricular (BIV) pacing. The corresponding invasive pressure was determined. Heparin, administered during NCM, was reversed and CRT implant was completed. An offline analysis of the data was performed in order to measure transeptal and total LV activation time, to evaluate the site of earliest and latest LV activation, and the pattern of activation. No complications occurred. Mean time of total NCM procedures was 24 ± 7 minutes. During SR, RV, LV, and BIV pacing, respectively, a “U”-shaped LV activation pattern was found in three, seven, four, and and two patients; mean LV activation time was 58.1 ± 7.0, 81.7 ± 15.8, 71.1 ± 12.4, and 65.6 ± 7.7ms; and mean systolic LV peak pressure was 114 ± 21, 97 ± 18, 103 ± 17 and 110 ± 15 mmHg, respectively. LV activation was influenced by a slow conduction area at the pacing site and by the duration of transeptal time. Conclusion: An NCM during CRT is safe and feasible. It provides an additional information on electrical activation in SR and in various modality of pacing. Further studies with larger populations are needed in order to correlate electrical to clinical outcomes. (PACE 2010; 74–84

Cardiac resynchronization therapy guided by multimodality cardiac imaging

Aims: Up to 30–45% of implanted patients are non-responders to CRT. We evaluated the role of a ‘CRT team’ using cardiac magnetic resonance (CMR) and longitudinal myocardial strain to identify the target area defined as the most delayed and viable region for LV pacing. Methods and results: A total of 100 heart failure patients candidates for CRT divided into two groups were enrolled. Group 1 consisted of 50 consecutive patients scheduled for CRT and prospectively included. Group 2 (control) consisted of 50 patients with a CRT device implanted according to standard clinical practice and matched for age, sex, and LVEF with group 1. Patients were evaluated at baseline and at 6-month follow-up. In group 1, patients underwent two-dimensional speckle-tracking assessment of longitudinal myocardial strain and CMR imaging to identify the target area for LV lead pacing. A positive response to CRT was defined as a reduction of ≥15% of the LV end-systolic volume at 6-month follow-up. A total of 39 (78%) patients of group 1 were classified as responders to CRT whilst in group 2, only 28 (56%) were responders (P = 0.019). The ‘CRT team’ identified as target for LV pacing the lateral area in 30 (60%) patients, and the anterolateral or posterolateral areas in 12 (24%) patients. In 8 (16%) patients, the target was far from the lateral area, in the anterior or posterior areas. The patients with concordant position exhibited the highest positive response (93.1%) to CRT. Conclusions: Multimodality cardiac imaging as a guide for CRT implantation is useful to increase response rate

Cardiac resynchronization therapy: Implant rates, temporal trends and relationships with heart failure epidemiology

BACKGROUND: Consensus guidelines define indications for cardiac resynchronization therapy (CRT), but the variability in implant rates in 'real world' clinical practice, as well as the relationship with the epidemiology of heart failure are not defined. METHODS AND RESULTS: In Emilia-Romagna, an Italian region with around 4.4 million inhabitants, a registry was instituted to collect data on implanted devices for CRT, with (CRT-D) or without defibrillation (CRT-P) capabilities. Data from all consecutive patients resident in this region who underwent a first implant of a CRT device in years 2006-2010 were collected and standardized (considering each of the nine provinces of the region). The number of CRT implants increased progressively, with a 71% increase in 2010 compared to 2006. Between 84 and 90% of implants were with CRT-D devices. The variability in standardized implant rates among the provinces was substantial and the ratio between the provinces with the highest and the lowest implant rates was always greater than 2. Considering prevalent cases of heart failure in the period 2006-2010, the proportion of patients implanted with CRT per year ranged between 0.23 and 0.30%. CONCLUSIONS: The application in 'real world' clinical practice of CRT in heart failure is quite heterogeneous, with substantial variability even among areas belonging to the same region, with the need to make the access to this treatment more equitable. Despite the increased use of CRT, its overall rate of adoption is low, if a population of prevalent heart failure patients is selected on the basis of administrative data on hospitalizations. \ua9 2014 Italian Federation of Cardiology

Automatic management of atrial and ventricular stimulation in a contemporary unselected population of pacemaker recipients: The ESSENTIAL Registry

Aims We investigated the applicability of the Ventricular Capture Control (VCC) and Atrial Capture Control (ACC) algorithms for automatic management of cardiac stimulation featured by Biotronik pacemakers in a broad, unselected population of pacemaker recipients. Methods and results Ventricular Capture Control and Atrial Capture Control were programmed to work at a maximum adapted output voltage as 4.8 V in consecutive recipients of Biotronik pacemakers. Ambulatory threshold measurements were made 1 and 12 months after pacemaker implant/replacement in all possible pacing/sensing configurations, and were compared with manual measurements. Among 542 patients aged 80 (73-85) years, 382 had a pacemaker implant and 160 a pacemaker replacement. Ventricular Capture Control could work at long term in 97% of patients irrespectively of pacing indication, lead type, and lead service life, performance being superior with discordant pacing/sensing configurations. Atrial Capture Control could work in 93% of patients at 4.8 V maximum adapted voltage and at any pulse width, regardless of pacing indication, lead type, and service life. At 12-month follow-up, a ventricular threshold increase 651.5 V had occurred in 4.4% of patients uneventfully owing to VCC functioning. Projected pacemaker longevity at 1 month was strongly correlated with the 12-month estimate, and exceeded 13 years in >60% of patients. Conclusion These algorithms for automatic management of pacing output ensure patient safety in the event of a huge increase of pacing threshold, while enabling maximization of battery longevity. Their applicability is quite broad in an unselected pacemaker population irrespectively of lead choice and service of life

White matter and cerebellar involvement in alternating hemiplegia of childhood

Objective: To determine whether brain volumetric and white matter microstructural changes are present and correlate with neurological impairment in subjects with alternating hemiplegia of childhood (AHC). Methods: In this prospective single-center study, 12 AHC subjects (mean age 22.9 years) and 24 controls were studied with 3DT1-weighted MR imaging and high angular resolution diffusion imaging at 3T. Data obtained with voxel-based morphometry and tract-based spatial statistics were correlated with motor impairment using the International Cooperative Ataxia Rating Scale (ICARS) and Movement and Disability sub-scales of Burke-Fahn-Marsden Dystonia Rating Scale (BFMMS and BFMDS). Results: Compared to healthy controls, AHC subjects showed lower total brain volume (P < 0.001) and white matter volume (P = 0.002), with reduced clusters of white matter in frontal and parietal regions (P < 0.001). No significant regional differences were found in cortical or subcortical grey matter volumes. Lower cerebellar subvolumes correlated with worse ataxic symptoms and global motor impairment in AHC group (P < 0.001). Increased mean and radial diffusivity values were found in the corpus callosum, corticospinal tracts, superior and inferior longitudinal fasciculi, subcortical frontotemporal white matter, internal and external capsules, and optic radiations (P < 0.001). These diffusion scalar changes correlated with higher ICARS and BFMDS scores (P < 0.001). Interpretation: AHC subjects showed prevalent white matter involvement, with reduced volume in several cerebral and cerebellar regions associated with widespread microstructural changes reflecting secondary myelin injury rather than axonal loss. Conversely, no specific pattern of grey matter atrophy emerged. Lower cerebellar volumes, correlating with severity of neurological manifestations, seems related to disrupted developmental rather than neurodegenerative processes