Charlotte H. Greene

Role of Small Intestine Submucosa (SIS) as a Nerve Conduit: Preliminary Report

The goal of peripheral nerve repair is to successfully direct the regenerating fibers into the environment of the distal terminus with minimal loss of fibers at the suture line. Successful nerve repair is dependent on sensory, motor, and autonomic axons making appropriate connection with their distal terminus. The subsequent results are dependent on parameters such as the location and extent of the injury, appropriateness of realignment of the injured nerve, and the surgical technique. Peripheral nerve repair using autograft material has several shortcomings, including donor site morbidity, inadequate return of function, and aberrant regeneration. Recent peripheral nerve research has focused on the generation of synthetic conduits for nerve guidance. Small intestine submucosa (SIS) is a biological material that might better address those outcomes and improve regeneration. Its unique properties appear to offer several advantages. The SIS graft acts as a natural conduit between the proximal and distal nerves, provides a favorable growth environment, and appears to lack antigenicity. This preliminary study to evaluate the integrity of sciatic nerve repair was conducted over a period of 90 d. Distally directed growth of the proximal nerve was demonstrated histologically. Further investigations to demonstrate the extent and integrity of this regeneration are underway.

A somatic component to myocardial infarction

Sixty two patients were randomised to be seen by osteopathic physicians for palpation of the thoracic paravertebral soft tissue, T1-T8. Twenty five patients had clinically confirmed acute myocardial infarction. Of the remainder, 22 without known cardiovascular disease served as controls and 15 were placed in an excluded group because of diagnosed cardiovascular disease other than myocardial infarction. Observations were described in predetermined standard terminology. The control group was found to have a low incidence of palpable changes throughout the thoracic dorsum, and these changes were uniformly distributed from T1 to T8. Examination of the group with myocardial infarction disclosed a significantly higher incidence of soft tissue changes (increased firmness, warmth, ropiness, oedematous changes, heavy musculature), confined almost entirely to the upper four thoracic levels. The 15 patients who were excluded from the experimental group because they had various cardiovascular diseases other than myocardial infarction also showed significantly different changes on palpation compared with the group with myocardial infarction. These findings suggest that myocardial infarction is accompanied by characteristic paravertebral soft tissue changes which are readily detected by palpation.

Regeneration of uterine horn using porcine small intestinal submucosa grafts in rabbits.

Tubal factor infertility may be reversed using porcine small-intestinal submucosa (SIS). The method uses as a model the New Zealand White rabbit uerine horn. In surgery, SIS grafts were prepared from porcine jejunum; the uterine horn segment was resected and a graft was placed; then the contralateral adnexa was resected. Fecundability was tested with natural mating. Three out of six rabbits became pregnant. Gross and microscopic examination confirmed regeneration of all tissue layers. Thus, this study determined that SIS facilitates successful regeneration of uterine horn morphology in a manner similar to that observed in other tissues and species.

An alternative to synthetic aortic grafts using jejunum.

Synthetic materials currently used for arterial grafts can provoke serious complications such as infection, rejection, and incomplete reendothelialization. Porcine small intestinal submucosa (SIS) allografts (homografts) may not share these disadvantages yet still may provide an effective graft alternative. This study was designed to provide additional information concerning the performance of this material when used as an allo-patch graft. A porcine model was selected to enable hemodynamic comparisons to the adult human physiology. Slaughterhouse small intestine was used to prepare the SIS graft material. A well-vascularized section ofjejunum was resected, rinsed, and maintained in 0.9% NaCl solution containing 10% gentamicin. The graft was prepared by removing the serosal layer, inverting the material, and discarding the mucosal surface in a similar manner. The remaining submucosa and stratum compactum constituted the graft material and was subdivided into sizes from 1.5 to 3.0 cm2 tacked to foil for manageability, and was returned to the gentamicin solution. The surgery was initiated with a femoral arterial line in the anesthetized swine, followed by isolation and preparation of the infrarenal aorta for grafting. Cross-clamps were applied and a 1.0 x 1.5-cm section of aortic wall was resected. Two sides of allograft were freed from the foil and sewn into the aorta. Then the remaining sides were removed from the foil and final graft placement was completed. The graft was harvested at postoperative day 28 and presented for microscopic examination. Results confirmed that reendothelialization with neovascularization had occurred during this interval.

Healing of Incisions in the Tongue: A Comparison of Results with Milliwatt Carbon Dioxide Laser Tissue Welding versus Suture Repair

The healing of carbon dioxide laser weld closures produced by two commercial instruments of differing design were compared. Healing after laser welding was also compared to healing following conventional suture closure. Healing was evaluated histologically and by measurement of tensile strength over time. No histologic differences were found between closures produced by different lasers; however, in all cases suture closure resulted in slower healing times consistent with a foreign body reaction prolonging the healing process. Tensile strength measurements were performed at intervals over the first 21 days after the operation. Laser repair was found to be equivalent to or stronger than suture repair at every interval measured. The clinical use of the carbon dioxide laser for tissue welding of oral injuries should be investigated further, since it appears to be a good alternative to suture repair.

Cw holmium for medical applications: a preliminary study

It had been previously suggested that the depth of tissue penetration would beapproximately .4mm.. The surgical team felt that the actual depth would besignificantly greater when measured. The elctron microscopy studies bearthis out. The operators did note that quick motion of the beam enabled themto precisely shave superficial tissues when this was desireable.The laser was noted to cut in a similar fashion to the carbon dioxide laserwith conspicuously less char on the sides of the incision. The laser also wasnoted to have greater hemostatic properties than were predicted. In a focusedattitude, the anterior abdominal vessels were severed and hemostasis was