Thomas M. Krummel

Measuring and developing suturing technique with a virtual reality surgical simulator

BACKGROUNDnWe have developed an interactive virtual reality (VR) surgical simulator for the training and assessment of suturing technique. The surgical simulator is comprised of surgical tools with force feedback, a 3-dimensional graphics visual display of the simulated surgical field, physics-based computer simulations of the tissues and tools, and software to measure and evaluate the trainees performance.nnnSTUDY DESIGNnThis study uses the simulator to measure and compare the skills of 8 experienced vascular surgeons versus 12 medical students when performing a virtual reality suturing task. Eight parameters of the suturing task were measured: total tissue damage, accuracy of needle puncture, peak tissue tearing force, time to complete the task, damage to the surface of the tissue, angular error in needle technique, total distance traveled by the tool tip, and a measure of overall error. Three test conditions (dominant hand, nondominant hand, and 3-dimensional needle guide) were tested. Statistical significance was defined as a univariate two-sided p value < or = 0.05.nnnRESULTSnThe surgeons average performance was significantly better than the students average performance for three of the measured parameters (total tissue damage, time to complete the task, and total distance traveled by the tool tip) for each of the test conditions. For the test condition most similar to surgery (using the dominant hand to suture) one additional parameter was also significantly different (the measure of overall error). The medical students showed improvements for 6 of the 7 parameters for which the users received feedback during the training process. The surgeons also had significant improvement for 4 of the 7 parameters. The students had a larger improvement than the surgeons for 6 of the parameters, but these differences were not statistically significant.nnnCONCLUSIONSnData indicate differences between surgeon and nonsurgeon performance and in improvement in performance with training. One possible explanation for the superior performance of the surgeons is that their suturing skills applied well to the simulated suturing task. Additional research is required to confirm or deny the similarity between actual and simulated surgical tasks and the relevance of virtual reality surgical simulation to surgical skill assessment and training.

Regulation of wound healing from a connective tissue perspective.

Tissue injury resulting in irreversible tissue loss initiates the repair process. The restoration of dermal loss is by scarring, where a new cell population resides in a new connective tissue matrix. The chemical composition of a scar is similar to normal dermis, but the organization of that tissue is altered. The inability of the organism to reassemble collagen into a normal dermal pattern is an attribute of a scar, but in most cases it restores normal function. With impaired scarring, wound dehiscence or chronic wounds arise, whereas the overproduction of scar tissue results in keloid or hypertrophic scarring. In both situations a catastrophic end point occurs. The volume of scar tissue deposited, as well as its organization, is critical for determining the scars integrity, stability, and restoration of function. The maturation of scar depends on the character of its resident cell populations, the quality of deposited connective tissue, and the interactions between those components. In this Perspective article, the focus will be on the repair process in terms of collagen fiber organization. As our knowledge of cell‐cell and cell‐matrix interactions in the repair process increases, we may be able to direct the pattern of scar collagen fibers to resemble that of dermis and thereby provide better wound care to the patient of the future.

Hyaluronan induces scarless repair in mouse limb organ culture

BACKGROUND/PURPOSEnWounded fetal mouse limbs harvested from two distinct time points in gestation heal differently in organ culture. The healing of a gestational day 14 limb is by scarless repair, whereas gestational day 18 (gd 18) limbs heal by scarring. The persistence of elevated levels of hyaluronic acid (HA) is a major difference in the extracellular matrix of scarless repair. The purpose of this study was to demonstrate that chronic additions of HA to incisional wounds of gd 18 limbs induces scarless repair.nnnMETHODSnTime-dated pregnant CD-1 mice (term, 20 days) were killed on gestational day 18 and fetuses were harvested via laparotomy. A through and through stab wound was made in each forelimb with a 1-mm microscapel, and the wound was closed with a single 10-0 nylon suture. The forelimbs were amputated at the level of the shoulder and placed in organ culture. Daily medium changes with 1 mL of BGJb (devoid of serum) were made. Half the cultures received 10 microL of HA (4 mg/mL) directly to the wound site with each medium change. The other half of the cultures received 10 microL of phosphate-buffered saline (PBS-control). At day 7, the limbs were harvested, fixed in methyl Carnoys solution, paraffin embedded, and 5-microm serial sections cut. The sections were stained with H&E or Sirius red/fast green. The sections were viewed in a blinded fashion by two observers. Suture defined the wound site, and the sections were graded for healing by scarring.nnnRESULTSnMinimal limb growth occurred in both control and HA-treated limbs. Grossly, both control and treated limbs healed incisional wounds by 7 days in culture. Limbs from both treatment and control groups showed viability by microscopic analysis. The limbs treated with HA had no appreciable scar morphologically in sections in which epithelial dimpling and suture were evident. The orientation of the collagen fiber bundles in the control wounds were in parallel arrays perpendicular to the incision. The orientation of the collagen fiber bundles in the HA-treated limbs had a basket weave pattern that was indistinguishable from unwounded dermis. The direct repeated additions of HA to healing organ cultured limb explants of gestational day 18 fetal mice promoted scarless repair.nnnCONCLUSIONSnThis result demonstrates that chronic elevation of HA in the microenvironment of a wound affects healing by promoting the deposition of a more dermal-like connective tissue matrix in the wound site. The maintenance of elevated levels of HA could have utility in the clinical setting to improve the organization of connective tissue, leading to the reduction of scar complications.

Postnatal pulmonary hypertension after repair of congenital diaphragmatic hernia: Predicting risk and outcome

BACKGROUNDnPulmonary hypertension (PH) after congenital diaphragmatic hernia (CDH) repair remains a significant cause of morbidity and mortality. Although treatment advances have improved overall survival, a new cohort of patients is surviving with PH beyond the postnatal period. Because the clinical entity of postnatal persistent pulmonary hypertension (PPHTN) in CDH patients has not been published, the authors undertook a retrospective study of our neonatal CDH experience to characterize this group of infants.nnnMETHODSnCharts of all infants with CDH treated at this institution from January 1991 to June 1997 were reviewed (n = 51). Persistent pulmonary hypertension by echocardiographic (Echo) measurements at the time of discharge identified PPHTN patients. Control survivors had normal pulmonary artery pressures at discharge. Physiological parameters and the results of therapeutic interventions were analyzed to predict PPHTN.nnnRESULTSnSeven infants (four boys, three girls) had PPHTN at discharge. Significant differences with the control group were noted in length of stay, duration of intubation, and duration of nitric oxide therapy. Extracorporeal membrane oxygenation (ECMO) duration was not significantly different between the groups. By 12 months of age, PPHTN resolved in six patients (87%), and one died at 13 months. Regardless of therapy, two parameters showed 100% positive predictive value for identifying patients with PPHTN (P < .001): an Echo demonstrating PH at 2 months of age or continued oxygen requirement at 3 months. Oxygen requirement at 2 months had a 67% predictive value of PPHTN.nnnCONCLUSIONSnWith current treatment strategies for CDH, infants can survive with persistent pulmonary hypertension beyond the newborn period. The long-term survival rate is excellent, and normalization of pulmonary artery pressures can be expected. PPHTN can be predicted in those infants with Echo-defined pulmonary hypertension at 2 months.

Repeated additions of hyaluronan alters granulation tissue deposition in sponge implants in mice

The role for the metabolism of hyaluronic acid in the repair process is uncertain. Fetal dermal wounds do not heal by scarring and have sustained high levels of hyaluronic acid. In contrast, adult dermis is repaired by scarring and has less hyaluronic acid. Initially after injury, hyaluronic acid is elevated in both adult and fetal wounds, and although it remains elevated in fetal repair, it is rapidly degraded in adult wounds. The chronic addition of hyaluronic acid or hyaluronidase to polyvinyl alcohol sponge implants in adult mice was investigated in this study. Polyvinyl alcohol sponge implants containing a central reservoir were placed subcutaneously in the dorsum of adult male CD‐1 mice. Mice were divided into three groups: a phosphate‐buffered saline control, a 20 µg hyaluronic acid treatment group, and a 10 U hyaluronidase treatment group. The central reservoir of each sponge implant received appropriate compound every 3 days for 2 weeks via transdermal injection and were then evaluated histologically. At 2 weeks, the cellular density and the quantity of granulation tissue deposition were the greatest in the hyaluronidase group and were lowest in the hyaluronic acid group. In addition, the organization of collagen fiber bundles was the most dense in the hyaluronidase group and least in the hyaluronic acid group. In a second experiment, polyvinyl alcohol sponge implants in mice received either phosphate‐buffered saline solution or 20 µg hyaluronic acid every 3 days for 1 week. On day 5, an aliquot of fluorescently tagged native collagen was injected into the sponges. Sponges were harvested at day 7, cryosections made, and the presence of autofluorescent collagen fibers assessed. The autofluorescent collagen fiber bundles in the phosphate‐buffered saline solution group were organized in thick parallel bundles, whereas the collagen bundles from hyaluronic acid‐treated implants were organized in fine lacelike structures. Chronic addition of hyaluronic acid appears to mimic the fetal dermal connective tissue matrix in which repair proceeds with diminished collagen deposition, organized in finer collagen fiber bundles in granulation tissue. On the other hand, the removal of hyaluronic acid by the chronic administration of hyaluronidase increases the amount of granulation tissue. Elevated levels of hyaluronic acid in granulation tissue appear to modulate the ability of resident fibroblasts to organize collagen fiber bundles.

Bronchial ligation enhances murine fetal lung development in whole-organ culture.

Evidence exists from both congenital anomalies and animal models that normal fetal lung development is dependent on maintenance of fluid pressure within the developing airways. Fetal tracheostomy, allowing free egress of airway fluids, results in lung hypoplasia, indicating that some airway distending pressure is required for normal lung development to occur. In contrast, fetal tracheal ligation, which increases fetal airway pressure, reverses lung hypoplasia in animal models. The authors experiments test the hypothesis that large airway obstruction accelerates the development of murine lungs in vitro in whole-organ culture. Fetuses from time-dated pregnant CD-1 mice at day 14 of gestation were removed (term, 20 days), and the lungs were excised. The left bronchus of each lung was ligated (n = 26), after which the left lung was isolated and cultured at 37 degrees C (95% air, 5% CO2) in BGJb media supplemented with vitamin C and antibiotics. Some fetal lungs were cultured under similar conditions without bronchial ligation (n = 11). After 7 days in culture, the lungs were taken for various analyses. The lungs were fixed in either formaldehyde and processed for paraffin embedding for light microscopic evaluation and morphometric data collection, or were freshly minced and aliquots taken for total protein and DNA content. Several more ligated and unligated lungs were processed for ultrastructural analysis. Morphometric analysis on transverse sections of lungs showed significant differences in the lung tissue size, thickness, epithelial cell height, luminal areas, perimeters, and total number of airspaces (airway + primordial alveolar airspaces). It was evident that bronchial ligation promoted lung development. The ligated lungs displayed thinning of the primordial alveolar walls with cuboidal epithelial cells. The total number of airspaces per field was lower for better developed ligated lungs because of the increased area of airspaces compared with that of the unligated lungs. The dorsoventral tissue thickness (in micrometers) of the ligated lungs was significantly greater than that of the unligated lungs (124.1 +/- 7.0 v 89.6 +/- 8.0); the average outer perimeter of the primordial alveolar airspaces was greater for ligated lungs (404.56 +/- 19.0 microns v 256.85 +/- 17.0 microns). Similarly, the luminal diameter of the spaces of ligated lungs was almost double that of the unligated lungs (38.0 +/- 2.0 microns v 20.3 +/- 2.0 microns), as was the luminal surface area. The morphometric data, which suggest enhanced maturation of the ligated lungs, are supported by results of ultrastructural studies. Ligated lungs had significantly more lamellar bodies. Although total protein and DNA content were greater among the ligated lungs, the protein/DNA ratios did not differ among the groups. The intraluminal pressure (airway pressure) of ligated lungs was 2.9 mm Hg and 3.1 mm Hg at 2 and 4 days in organ culture; the respective pressures for unligated lungs were 1.0 mm Hg and 0.8 mm Hg. These data support the hypothesis that mechanical distending pressure resulting from airway obstruction not only improves pulmonary architecture but also accelerates lung development in vitro. Although these effects have been seen in in vivo models, this is the first proposed in vitro organ culture model. This model may prove to be a powerful tool for the study of molecular mechanisms of mammalian lung development with respect to mechanical and chemical (cytokines, hormones) stimuli.

Influence of epidermal growth factor and transforming growth factor beta-1 on patterns of fetal mouse lung branching morphogenesis in organ culture

Transforming growth factor‐β (TGF‐β), a potent inhibitor of epithelial cell proliferation, and epidermal growth factor (EGF), a mitogenic polypeptide that binds to cell surface receptors, are important regulators of cell differentiation; however, their distinct role(s) in lung development and their mechanisms of action are not well understood. We evaluated the effects of these factors on lung morphogenesis in murine fetal lungs at gestational day 14 (time:zero) and again after 7 days in culture. Baseline controls were cultured after tracheal transection in supplemented BGJb medium, and other tracheally transected lungs were cultured following addition of EGF (10 ng/ml BGJb), TGF‐β1 (2 ng/ml BFJb), or with both in combination added to the medium.

Endoscopic sphincterotomy in the management of posttraumatic biliary fistula

Complications after nonoperative management of hepatic trauma are rare but include persistent biliary fistula in 4% of cases. Therapy usually involves surgical drainage or hepatic resection to control the fistula. The authors present a case of hepatic biliary fistula treated nonoperatively with percutaneous drainage and endoscopic sphincterotomy. A 16-year-old girl suffered a grade III parenchymal liver fracture to the right lobe in an automobile accident. She was hemodynamically stable with no coexistent injuries and was treated nonoperatively. Over 2 weeks her total bilirubin rose to 3.2 mg/dL, and alkaline phosphatase was 463 U/L. Ultrasound showed free intraperitoneal fluid, and 2 L of bilious fluid were retrieved by paracentesis. A radionuclide scan confirmed massive extravasation of isotope from the right lobe. Two drains percutaneously placed over the parenchymal fracture produced 500 to 600 mL of bile daily. Endoscopic retrograde cholangiopancreatography (ERCP) 1 week later showed a normal extrahepatic biliary system. A 1-cm sphincterotomy was performed without difficulty. Within 72 hours, percutaneous drains produced only 35 mL per day. The follow-up radionuclide scan showed no evidence of extrahepatic biliary extravasation, and 3 weeks later the drains were removed. Six months after the accident, results of the computerized tomography scan and liver function tests were normal. It was believed that endoscopic sphincterotomy reduced fistula output by decreasing the intrabiliary pressure caused by the ampulla, thus favoring internal drainage. This case demonstrates the effectiveness of endoscopic sphincterotomy as an alternative to direct surgical intervention for the management of posttraumatic biliary fistula.

Nitric oxide reversal of recurrent pulmonary hypertension and respiratory failure in an infant with CDH after successful ECMO therapy

Nitric oxide (NO) represents a new therapeutic modality for treating neonatal pulmonary hypertension and may obviate the need for extracorporeal membrane oxygenation (ECMO) in a number of cases of neonatal respiratory failure. Recently, the authors treated an infant with a congenital diaphragmatic hernia and pulmonary hypertension with NO on two separate occassions. During the initial period of stabilization, NO failed to reverse the pulmonary hypertension and prevent the development of progressive respiratory failure. After a successful course of ECMO, recurrent pulmonary hypertension developed that was successfully treated with continuous low-dose NO therapy for over 1 month. Prolonged administration of NO in varying doses titrated to clinical and echocardiographic parameters was well tolerated by the infant and prevented the need for a second run of ECMO.

Fetal Rhabdomyoma and Nevoid Basal Cell Carcinoma Syndrome

A 6-year-old white female presented with a fetal rhabdomyoma of the posterior mediastinum and retroperitoneum. Radiologic evaluation and family history revealed features of the nevoid basal cell carcinoma syndrome (NBS). Literature review disclosed two other children with NBS and fetal rhabdomyoma, which should be regarded as one of the soft tissue tumors associated with NBS.