A Multi-Dimensional Analysis of a Novel Approach for Wireless Stimulation

The elimination of integrated batteries in biomedical implants holds great promise for improving health outcomes in patients with implantable devices. However, despite extensive research in wireless power transfer, achieving efficient power transfer and effective operational range have remained a hindering challenge within anatomical constraints. Objective : We hereby demonstrate an intravascular wireless and batteryless microscale stimulator, designed for (1) low power dissipation via intermittent transmission and (2) reduced fixation mechanical burden via deployment to the anterior cardiac vein (ACV, ∼3.8 mm in diameter). Methods : We introduced a unique coil design circumferentially confined to a 3 mm diameter hollow-cylinder that was driven by a novel transmitter-based control architecture with improved power efficiency. Results : We examined wireless capacity using heterogenous bovine tissue, demonstrating >5 V stimulation threshold with up to 20 mm transmitter-receiver displacement and 20° of misalignment. Feasibility for human use was validated using Finite Element Method (FEM) simulation of the cardiac cycle, guided by pacer phantom-integrated Magnetic Resonance Images (MRI). Conclusion : This system design thus enabled sufficient wireless power transfer in the face of extensive stimulator miniaturization. Significance : Our successful feasibility studies demonstrated the capacity for minimally invasive deployment and low-risk fixation

A Multi-Dimensional Analysis of a Novel Approach for Wireless Stimulation

The elimination of integrated batteries in biomedical implants holds great promise for improving health outcomes in patients with implantable devices. However, despite extensive research in wireless power transfer, achieving efficient power transfer and effective operational range have remained a hindering challenge within anatomical constraints. Objective : We hereby demonstrate an intravascular wireless and batteryless microscale stimulator, designed for (1) low power dissipation via intermittent transmission and (2) reduced fixation mechanical burden via deployment to the anterior cardiac vein (ACV, ∼3.8 mm in diameter). Methods : We introduced a unique coil design circumferentially confined to a 3 mm diameter hollow-cylinder that was driven by a novel transmitter-based control architecture with improved power efficiency. Results : We examined wireless capacity using heterogenous bovine tissue, demonstrating >5 V stimulation threshold with up to 20 mm transmitter-receiver displacement and 20° of misalignment. Feasibility for human use was validated using Finite Element Method (FEM) simulation of the cardiac cycle, guided by pacer phantom-integrated Magnetic Resonance Images (MRI). Conclusion : This system design thus enabled sufficient wireless power transfer in the face of extensive stimulator miniaturization. Significance : Our successful feasibility studies demonstrated the capacity for minimally invasive deployment and low-risk fixation

Role of New Therapies in Reducing Mortality and Major Morbidity in Patients with Systolic Heart Failure

Though heart failure therapies, particularly for systolic heart failure, have developed rapidly and markedly during the past four decades, a need for additional relief persists and is progressively being met. Two new drugs have been approved for marketing in the United States within the past two years, and two other glucose lowering therapies for diabetes appear to have efficacy for heart failure as well. In addition, device therapy for heart failure has progressed markedly during the past 5 years, particularly in refinements of the indications and applications of devices to minimize symptoms and hospitalizations and to maximize survival. This chapter will outline these recent developments

Cellular Cardiomyoplasty: Clinical Application

Myocardial regeneration can be induced with the implantation of a variety of myogenic and angiogenic cell types. More than 150 patients have been treated with cellular cardiomyoplasty worldwide, 18 patients have been treated by our group. Cellular cardiomyoplasty seems to reduce the size and fibrosis of infarct scars, limit postischemic remodelling, and restore regional myocardial contractility. Techniques for skeletal myoblasts culture and ex vivo expansion using autologous patient serum (obtained from plasmapheresis) have been developed by our group. In this article we propose (1) a total autologous cell culture technique and procedures for cell delivery and (2) a clinical trial with appropriate endpoints structured to determine the efficacy of cellular cardiomyoplasty

Topics in Neuromodulation Treatment

"Topics in Neuromodulation Treatment" is a book that invites to the reader to make an update in this important and well-defined area involved in the Neuroscience world. The book pays attention in some aspects of the electrical therapy and also in the drug delivery management of several neurological illnesses including the classic ones like epilepsy, Parkinson's disease, pain, and other indications more recently incorporated to this important tool like bladder incontinency, heart ischemia and stroke. The manuscript is dedicated not only to the expert, but also to the scientist that begins in this amazing field. The authors are physicians of different specialties and they guarantee the clinical expertise to provide to the reader the best guide to treat the patient

What Did We Learn about VADs in 2021?

This is our 8th annual literature review on mechanical circulatory support (MCS) devices. Our previous reports were well received by the readers. The full text of the reviews for 2014, 2015, 2016, 2017, 2018, 2019, and 20201-7 were downloaded 821, 861, 701, 869, 951, 272, and 365 times, respectively. In this review, we summarized the most interesting and important, from our standpoint, publications from 2021. There may be some slight overlap with the end of 2020 because some papers were published online first, and the year of the publication changed when they became available in print. For the fifth time, we added a section on extracorporeal membrane oxygenation (ECMO), which primarily addresses new developments in veno-arterial ECMO. Readers who wish to supplement this review, argue with the author’s statements, or express their opinions are encouraged to do so by sending letters to the editor at [email protected] or posting on our Facebook page at https://www.facebook.com/TheVADJournal