The future on ice.

Reproductive Tissue Banking: Scientific Principles Edited by Armand M. Karow and John D. Critser.

Small intestinal submucosa: a rapidly resorbed bioscaffold for augmentation cystoplasty in a dog model.

The extracellular matrix (ECM) of porcine small intestinal submucosa (SIS) has been shown to serve as a resorbable scaffold for tissue repair and remodeling in several body locations including the urinary bladder. The rate of resorption and extent of SIS degradation are unknown. Nine dogs were divided into three equal groups.

Acoustic method to quantitatively assess the position and patency of infant endotracheal tubes: preliminary results in rabbits.

In this preliminary laboratory study, an acoustical method was evaluated to quantitatively assess the position and patency of an infant-size endotracheal tube (ETT) by in vivo and in vitro measurements. The method consists of emitting an audible sound pulse into the ETT and the airways, and deriving position and patency information from the timing and characteristics of the returning echoes. The method's capacity to measure ETT changes of position in the tracheae of five anesthetized New Zealand white rabbits (weight, 4.

Small intestinal submucosa: a substrate for in vitro cell growth.

The extracellular matrix (ECM) of the small intestinal submucosa (SIS) was harvested by removing the superficial layers of the mucosa and the external muscular layers. The remaining 80 microns thick sheet was disinfected and sterilized by methods which removed all cellular components. The SIS-ECM, retaining its native 3-dimensional microarchitecture and composition, was evaluated for its ability to support in vitro cell growth.

Skin-temperature distribution under a new type of defibrillating electrode.

The temperature rises under a new type of x-ray-transparent, improved current-density-distribution defibrillation electrode applied to pig skin were measured at four sites with fiberoptic thermal probes. Three anesthetized pigs, ranging in weight from 79 to 92 lb, were used. Temperature-time curves were obtained and the maximum temperature was identified.

Application and evaluation of the alamarBlue assay for cell growth and survival of fibroblasts.

Cell proliferation assays are essential to developing an understanding of the molecular mechanisms that modulate cell growth and differentiation. In this paper, we describe the application of alamarBlue, a new and versatile metabolic dye, for the detection of Swiss 3T3 fibroblast proliferation and/or survival. As a redox indicator, alamarBlue is reduced by reactions innate to cellular metabolism and, therefore, provides an indirect measure of viable cell number.

Identification of extractable growth factors from small intestinal submucosa.

When implanted as a biomaterial for tissue replacement, selected submucosal layers of porcine small intestine induce site-specific tissue remodeling. Small intestinal submucosa (SIS), as isolated, is primarily an acellular extracellular matrix material. In an attempt to discover the components of small intestinal submucosa which are able to induce this tissue remodeling, the material was extracted and extracts were tested for the ability to stimulate Swiss 3T3 fibroblasts to synthesize DNA and proliferate.

The paradox in using electrically stimulated skeletal muscle to pump blood.

For over four decades, various methods have been described for the use of electrically stimulated skeletal muscle to pump blood. To date, there has been no way of predicting the efficacy or long-term pumping capabilities of these methods. This article reviews the basic physiological properties of skeletal muscle and relates them to the blood pumping task and illustrates the paradox, namely a high preload is needed for a forceful contraction, but a high prolonged preload produces muscle ischemia and early fatigue.

Ventricular defibrillating threshold: strength-duration and percent-success curves.

The term defibrillation threshold is usually understood to mean the shock intensity just enough to defibrillate a specified cardiac chamber (atria or ventricles). With the advent of so many different types of defibrillator, it is important to be able to specify the defibrillation threshold, which has frequently been described by the classical strength-duration curve. Another method of representing defibrillation plots the percent-successful defibrillation against shock-strength area.

Historical evolution of circuit models for the electrode-electrolyte interface.

Electrodes are widely used to measure bioelectric events and to stimulate excitable tissues. In one form or another, electrodes have been around for nearly two centuries; yet our ability to predict their properties is extremely limited, despite considerable research, especially during the last century. This paper chronicles the accumulation of knowledge about the electrode-electrolyte interface as a circuit element.

Glycosaminoglycan content of small intestinal submucosa: a bioscaffold for tissue replacement.

Small intestinal submucosa (SIS) is a resorbable biomaterial that induces tissue remodeling when used as a xenogeneic tissue graft in animal models of vascular, urologic, dermatologic, neurologic, and orthopedic injury. Determination of the composition and structure of naturally occurring biomaterials such as SIS that promote tissue remodeling is necessary for the greater understanding of their role in wound healing. Since glycosaminoglycans (GAGs) are important components of extracellular matrix (ECM) and SIS is primarily an ECM-based material, studies were performed to identify the species of glycosaminoglycans present in SIS.

Maintenance of atrial fibrillation in anesthetized and unanesthetized sheep using cholinergic drive.

Atrial fibrillation (AF) was induced electrically and the duration of AF was measured in six isoflurane-anesthetized sheep (weight range 54.5-72.7 kg), and in five unanesthetized sheep (weight range 60-75 kg).

The use of xenogeneic small intestinal submucosa as a biomaterial for Achilles tendon repair in a dog model.

A study was conducted to evaluate the tissue response to a xenogeneic biomaterial when this material was used to repair an experimentally induced Achilles tendon defect in the dog. Twenty dogs had a 1.5 cm segmental defect of the Achilles tendon created surgically which was then repaired with acellular connective tissue derived from porcine small intestinal submucosa (SIS).

Mechanical properties of xenogeneic small-intestinal submucosa when used as an aortic graft in the dog.

Small-intestinal submucosa (SIS) has been shown to induce tissue remodelling in vivo when used as a vascular graft. The present study investigated in physical and mechanical properties of remodeled aortic grafts derived from xenogeneic SIS material. Eight infrarenal aortic grafts were implanted in mongrel dogs.

The pumping and left ventricular unloading capabilities of the ventricular synchronous skeletal-muscle ventricle.

The pumping and left ventricular unloading capabilities of the left ventricular, ventricular synchronous skeletal-muscle ventricle were determined in nine anesthetized dogs ranging in weight from 20.7 to 31.8 kg.

The evolution of abdominal compression in cardiopulmonary resuscitation.

Objective: To review the history of external abdominal compression as an adjunct to cardiopulmonary resuscitation (CPR), tracking the development of five major themes over the course of the 20th century: 1) augmentation of peripheral resistance by physical means, 2) risk of hepatic injury with abdominal compression, 3) counterpulsation vs sustained compression, 4) the abdominal pump mechanism, and 5) contact compression techniques.

Methods: Literature retrieved from successive MEDLINE English-language searches was received with a special emphasis on work and concepts highlighted by participants at the First Purdue Conference on Interposed Abdominal Compression-CPR, September 1992.

Results: External abdominal compression of one form or another has been studied as a means of resuscitation by many investigators throughout the 20th century.

Two unsung heroes of closed-chest cardiac pacing: Green and McWilliam.

In the latter half of the last century, cardiorespiratory arrest was not uncommon due to the anesthetic used (chloroform). Animal studies showed that the heart could be paced. One physician (Green) resuscitated 5 of 7 cardiac arrest patients with single stimuli applied to body surface electrodes.

Comparison of the resistance to infection of intestinal submucosa arterial autografts versus polytetrafluoroethylene arterial prostheses in a dog model.

Purpose: Prosthetic graft infection represents a most challenging complication to the vascular surgeon. Although expanded polytetrafluoroethylene (ePTFE) grafts have an acceptable patency rate, especially in the large-diameter arterial location, bacterial contamination of this material usually requires surgical removal of the graft.

Methods: We compared the resistance of large-diameter ePTFE grafts and grafts constructed of small intestinal submucosa (SIS) to deliberate infection with Staphylococcus aureus.

A selective, non-ischemic, non-pharmacological left ventricular failure animal model.

Selective left ventricular failure was induced in 13 acute anesthetized, closed chest dogs ranging in weight from 18-26 kg. Failure was induced by passing a single, high intensity pulse of current from a defibrillator connected to a left ventricular catheter electrode and a left chest electrode. The intensity of the myocardial damaging shock was related to the predicted current required for transventricular defibrillation, based on heart weight.

Interposed abdominal compression as an adjunct to cardiopulmonary resuscitation.

The addition of IAC to otherwise standard CPR provides for the application of external pressure over the abdomen in counterpoint to the rhythm of chest compression. Interposed abdominal compression is a simple manual technique that can supplement the use of adrenergic drugs to increase both coronary perfusion pressure and total blood flow during CPR. Mechanistically, manual abdominal compressions induce both central aortic and central venous pressure pulses.

Stroke volume with dynamic cardiomyoplasty during ventricular fibrillation in the acute dog.

The objective of this study was to determine the pumping capability of dynamic cardiomyoplasty during induced ventricular fibrillation. In this acute study of 6 dogs, the pumping capability of the unconditioned left latissimus dorsi (LD) muscle (141 to 292 gm), wrapped around both ventricles, was investigated during induced ventricular fibrillation. Left-ventricular and femoral artery pressure, the ECG and aortic root flow velocity were monitored.