TAVR vs SAVR: Rising Expectations and Changing Indications for Surgery in Response to PARTNER II.

Despite the criticisms and concerns raised on the data published in the PARTNER II trial and related analyses, we are undeniably witnessing a revolution in the management of aortic valve disease, in which conventional full sternotomy surgical aortic valve replacement (SAVR), with all related complications and clinical burden, will soon become a nonviable option. Several of the findings described in the PARTNER II trial, although considerable as points of incongruence and study biases in comparison with SAVR, could be taken as lessons to found a new course in SAVR and redesign the respective roles of surgery and interventional procedures in aortic disease. In particular, the results of these trials can actually be considered as a stimulus to invest more effort to improve the current surgical practice that should embrace alternative solutions and least invasive approaches to provide a competitive advantage over percutaneous procedures.

New minimally invasive surgical approach for excision of left atrial myxoma.

A novel minimally invasive technique for left atrial myxoma surgery involving a combination of mini-sternotomy and restricted left atrial dome incision is described. Surgery is performed through a mini-J sternotomy at third intercostal space and a standard aorto-right atrial cannulation. Exposure of cardiac mass is obtained by a restricted incision of the left atrial dome which provides excellent view of the entire interatrial septum.

Is it time to change how we think about incomplete coronary revascularization?

The optimal degree of revascularization for patients with chronic multivessel coronary artery disease remains an unsolved issue. Intuitively, complete revascularization decreases cardiovascular events and improves outcomes compared to incomplete procedures, but in recent years the concept of incomplete revascularization moved from a sub-optimal or a defective treatment towards the most appropriate revascularization technique in some categories of patients. A reasonable level of incomplete anatomic revascularization has been shown to be safe and achievable with both percutaneous (PCI) and surgical procedures (CABG), despite with different long-term outcomes.

Preliminary In Vivo Evaluation of a Hybrid Armored Vascular Graft Combining Electrospinning and Additive Manufacturing Techniques.

In this study, we tested in vivo effectiveness of a previously developed poly-l-lactide/poly-ε-caprolactone armored vascular graft releasing heparin. This bioprosthesis was designed in order to overcome the main drawbacks of tissue-engineered vascular grafts, mainly concerning poor mechanical properties, thrombogenicity, and endothelialization. The bioprosthesis was successfully implanted in an aortic vascular reconstruction model in rabbits.

First-in-Man Transcervical Surgical Aortic Valve Replacement Using the CoreVista System.

Objective: This study aimed to evaluate a novel device system for surgical aortic valve replacement (SAVR) using a unique new less invasive access approach. The hypothesis is that SAVR can be performed through a short transverse incision in the neck, similar to that used for transcervical thymectomy avoiding chest disruption.

Methods: A new device system was developed to provide retraction, step-by-step illumination, and on-screen visualization for the new approach.

From stem cells to viable autologous semilunar heart valve.

Background: An estimated 275,000 patients undergo heart valve replacement each year. However, existing solutions for valve replacement are complicated by the morbidity associated with lifelong anticoagulation of mechanical valves and the limited durability of bioprostheses. Recent advances in tissue engineering and our understanding of stem cell biology may provide a lifelong solution to these problems.

Aortic valve replacement with continuously perfused beating heart in patients with patent bypass conduits.

We present a technique for replacement of the aortic valve in selected patients undergoing redo surgery in the presence of patent coronary artery bypass grafts and occluded native coronary arteries that affords optimal myocardial protection, limited dissection of the heart and minimal risk of injury to existing grafts, in particular, the internal mammary artery.

Tissue-engineered microvessels on three-dimensional biodegradable scaffolds using human endothelial progenitor cells.

Tissue engineering may offer patients new options when replacement or repair of an organ is needed. However, most tissues will require a microvascular network to supply oxygen and nutrients. One strategy for creating a microvascular network would be promotion of vasculogenesis in situ by seeding vascular progenitor cells within the biopolymeric construct.

The independent role of cyclic flexure in the early in vitro development of an engineered heart valve tissue.

Tissue engineered heart valves (TEHV) are being investigated as an alternative to current non-viable prosthetic valves and valved conduits. Studies suggest that pulse duplicator bioreactors can stimulate TEHV development. In the current study, a model system was used to determine if cyclic flexure, a major mode of heart valve deformation, has independent effects on TEHV cell and extracellular matrix (ECM) development.

Ethical and regulatory issues concerning engineered tissues for congenital heart repair.

Recent progress in the fields of tissue engineering and xenotransplantation has brought the reality of using engineered tissues for the treatment of congenital heart disease ever closer. However, the introduction of complex scientific advances into the clinic can generate difficult ethical dilemmas for surgeons, patients, and the wider public. Conventional regulatory approaches are not well suited to the introduction of novel cell- and tissue-based therapies.

Dynamic rotational seeding and cell culture system for vascular tube formation.

Optimization of cell seeding and culturing is an important step for the successful tissue engineering of vascular conduits. We evaluated the effectiveness of using a hybridization oven for rotational seeding and culturing of ovine vascular myofibroblasts onto biodegradable polymer scaffolds suitable for replacement of small- and large-diameter blood vessels. Large tubes (12 mm internal diameter and 60 mm length, n = 4) and small tubes (5 mm internal diameter and 20 mm length, n = 4) were made from a combination of polyglycolic acid/poly-4-hydroxybutyrate and coated with collagen solution.

A novel bioreactor for the dynamic flexural stimulation of tissue engineered heart valve biomaterials.

Dynamic flexure is a major mode of deformation in the native heart valve cusp, and may effect the mechanical and biological development of tissue engineered heart valves (TEHV). To explore this hypothesis, a novel bioreactor was developed to study the effect of dynamic flexural stimulation on TEHV biomaterials. It was implemented in a study to compare the effect of uni-directional cyclic flexure on the effective stiffness of two candidate TEHV scaffolds: a non-woven mesh of polyglycolic acid (PGA) fibers, and a non-woven mesh of PGA and poly L-lactic acid (PLLA) fibers, both coated with poly 4-hydroxybutyrate (P4HB).

Thoracic Surgery Directors Association Award. Bone marrow as a cell source for tissue engineering heart valves.

Background: This study was designed to assess the feasibility of using ovine bone marrow-derived mesenchymal stem cells to develop a trileaflet heart valve using a tissue engineering approach.

Methods: Bone marrow was aspirated from the sternum of adult sheep. Cells were isolated using a Ficoll gradient, cultured, and characterized based on immunofluorescent staining and the ability to differentiate down a specific cell lineage.

Advances in the mechanisms of cell delivery to cardiovascular scaffolds: comparison of two rotating cell culture systems.

Having a reliable method of delivering cells to polymer scaffolds in vitro is fundamental to the development of tissue engineered structures. This paper compares the efficacy of two rotating systems for this purpose. Ten conduits, measuring 40 mm by 10 mm, were fabricated from polyglycolic acid mesh and poly-4-hydrobutyrate.

Pneumomediastinum during spontaneous vaginal delivery.

We report two rare cases of spontaneous pneumomediastinum that presented shortly after childbirth and resolved without treatment. Spontaneous pneumomediastinum has been described in a wide range of seemingly unrelated but recurrent clinical scenarios. We highlight their common etiologic factors and provide the anatomic and physiologic bases for the radiologic signs that are common in all these conditions.