TNF-α-activated eNOS signaling increases leukocyte adhesion through the S-nitrosylation pathway

Nitric oxide (NO) is a key factor in inflammation. Endothelial nitric oxide synthase (eNOS), whose activity increases after stimulation with proinflammatory cytokines, produces NO in endothelium. NO activates two pathways: 1) soluble guanylate cyclase-protein kinase G and 2) S-nitrosylation (NO-induced modification of free-thiol cysteines in proteins). S-nitrosylation affects phosphorylation, localization, and protein interactions. NO is classically described as a negative regulator of leukocyte adhesion to endothelial cells. However, agonists activating NO production induce a fast leukocyte adhesion, which suggests that NO might positively regulate leukocyte adhesion. We tested the hypothesis that eNOS-induced NO promotes leukocyte adhesion through the S-nitrosylation pathway. We stimulated leukocyte adhesion to endothelium in vitro and in vivo using tumor necrosis factor-α (TNF-α) as proinflammatory agonist. ICAM-1 changes were evaluated by immunofluorescence, subcellular fractionation, immunoprecipitation, and fluorescence recovery after photobleaching (FRAP). Protein kinase Cζ (PKCζ) activity and S-nitrosylation were evaluated by Western blot analysis and biotin switch method, respectively. TNF-α, at short times of stimulation, activated the eNOS S-nitrosylation pathway and caused leukocyte adhesion to endothelial cells in vivo and in vitro. TNF-α-induced NO led to changes in ICAM-1 at the cell surface, which are characteristic of clustering. TNF-α-induced NO also produced S-nitrosylation and phosphorylation of PKCζ, association of PKCζ with ICAM-1, and ICAM-1 phosphorylation. The inhibition of PKCζ blocked leukocyte adhesion induced by TNF-α. Mass spectrometry analysis of purified PKCζ identified cysteine 503 as the only S-nitrosylated residue in the kinase domain of the protein. Our results reveal a new eNOS S-nitrosylation-dependent mechanism that induces leukocyte adhesion and suggests that S-nitrosylation of PKCζ may be an important regulatory step in early leukocyte adhesion in inflammation.NEW & NOTEWORTHY Contrary to the well-established inhibitory role of NO in leukocyte adhesion, we demonstrate a positive role of nitric oxide in this process. We demonstrate that NO induced by eNOS after TNF-α treatment induces early leukocyte adhesion activating the S-nitrosylation pathway. Our data suggest that PKCζ S-nitrosylation may be a key step in this process.

Pharmacologic targeting of Cdc42 GTPase by a small molecule Cdc42 activity-specific inhibitor prevents platelet activation and thrombosis

Gene targeting of Cdc42 GTPase has been shown to inhibit platelet activation. In this study, we investigated a hypothesis that inhibition of Cdc42 activity by CASIN, a small molecule Cdc42 Activity-Specific INhibitor, may down regulate platelet activation and thrombus formation. We investigated the effects of CASIN on platelet activation in vitro and thrombosis in vivo. In human platelets, CASIN, but not its inactive analog Pirl7, blocked collagen induced activation of Cdc42 and inhibited phosphorylation of its downstream effector, PAK1/2. Moreover, addition of CASIN to washed human platelets inhibited platelet spreading on immobilized fibrinogen. Treatment of human platelets with CASIN inhibited collagen or thrombin induced: (a) ATP secretion and platelet aggregation; and (b) phosphorylation of Akt, ERK and p38-MAPK. Pre-incubation of platelets with Pirl7, an inactive analog of CASIN, failed to inhibit collagen induced aggregation. Washing of human platelets after incubation with CASIN eliminated its inhibitory effect on collagen induced aggregation. Intraperitoneal administration of CASIN to wild type mice inhibited ex vivo aggregation induced by collagen but did not affect the murine tail bleeding times. CASIN administration, prior to laser-induced injury in murine cremaster muscle arterioles, resulted in formation of smaller and unstable thrombi compared to control mice without CASIN treatment. These data suggest that pharmacologic targeting of Cdc42 by specific and reversible inhibitors may lead to the discovery of novel antithrombotic agents.

MPO (Myeloperoxidase) Reduces Endothelial Glycocalyx Thickness Dependent on Its Cationic Charge

Objective- The leukocyte heme-enzyme MPO (myeloperoxidase) exerts proinflammatory effects on the vascular system primarily linked to its catalytic properties. Recent studies have shown that MPO, depending on its cationic charge, mediates neutrophil recruitment and activation. Here, we further investigated MPO's extracatalytic properties and its effect on endothelial glycocalyx (EG) integrity. Approach and Results- In vivo staining of murine cremaster muscle vessels with Alcian Blue 8GX provided evidence of an MPO-dependent decrease in anionic charge of the EG. MPO binding to the glycocalyx was further characterized using Chinese hamster ovary cells and its glycosaminoglycan mutants-pgsA-745 (mutant Chinese hamster ovary cells lacking heparan sulfate and chondroitin sulfate glycosaminoglycan) and pgsD-677 (mutant Chinese hamster ovary cells lacking heparan sulfate glycosaminoglycan), which revealed heparan sulfate as the main mediator of MPO binding. Further, EG integrity was assessed in terms of thickness using intravital microscopy of murine cremaster muscle. A significant reduction in EG thickness was observed on infusion of catalytically active MPO, as well as mutant inactive MPO and cationic polymer polylysine. Similar effects were also observed in wild-type mice after a local inflammatory stimulus but not in MPO-knockout mice. The reduction in EG thickness was reversed after removal of vessel-bound MPO, suggesting a possible physical collapse of the EG. Last, experiments with in vivo neutrophil depletion revealed that MPO also induced neutrophil-mediated shedding of the EG core protein, Sdc1 (syndecan-1). Conclusions- These findings provide evidence that MPO, via ionic interaction with heparan sulfate side chains, can cause neutrophil-dependent Sdc1 shedding and collapse of the EG structure.

Visualization of the intrarenal distribution of capillary blood flow

This study describes a modified technique to fill the renal vasculature with a silicon rubber (Microfil) compound and obtain morphologic information about the intrarenal distribution of capillary blood flow under a variety of conditions. Kidneys and cremaster muscles of rats were perfused in vivo with Microfil using a perfusion pressure equal to the animal's mean arterial pressure at body temperature. Microfil did not alter arteriolar diameter or the pattern of flow in the microcirculation of the cremaster muscle. The modified protocol reproducibly filled the renal vasculature, including; glomerular, peritubular, and vasa recta capillaries. We compared the filling of the renal circulation in control rats with that seen in animals subjected to maneuvers reported to alter the intrarenal distribution of blood flow. Infusion of angiotensin II, hypotension, volume expansion, and mannitol- or furosemide-induced diuresis redistributed flow between renal cortical and medullary capillaries. The advantage of the current technique is that it provides anatomical information regarding the number, diameter, and branching patterns of capillaries in the postglomerular circulation critical in determining the intrarenal distribution of cortical and medullary blood flow.

Regulation of Vascular Smooth Muscle Cell Stiffness and Adhesion by [Ca2+]i: An Atomic Force Microscopy-Based Study

The intracellular concentration of calcium ion ([Ca2+]i) is a critical regulator of cell signaling and contractility of vascular smooth muscle cells (VSMCs). In this study, we employed an atomic force microscopy (AFM) nanoindentation-based approach to investigate the role of [Ca2+]i in regulating the cortical elasticity of rat cremaster VSMCs and the ability of rat VSMCs to adhere to fibronectin (Fn) matrix. Elevation of [Ca2+]i by ionomycin treatment increased rat VSMC stiffness and cell adhesion to Fn-biofunctionalized AFM probes, whereas attenuation of [Ca2+]i by 1,2-Bis (2-aminophenoxy)ethane-N,N,N',N'-tetraacetic acid tetrakis (acetoxymethyl ester) (BAPTA-AM) treatment decreased the mechanical and matrix adhesive properties of VSMCs. Furthermore, we found that ionomycin/BAPTA-AM treatments altered expression of α 5 integrin subunits and α smooth muscle actin in rat VSMCs. These data suggest that [Ca2+]i regulates VSMC elasticity and adhesion to the extracellular matrix by a potential mechanism involving changing dynamics of the integrin-actin cytoskeleton axis.

Antiadrenergic autoimmunity in postural tachycardia syndrome

Aims

Postural tachycardia syndrome (POTS), a common and debilitating cardiovascular disorder, is characterized by an exaggerated heart rate increase during orthostasis and a wide spectrum of adrenergic-related symptoms. To determine the aetiology of POTS, we examined a possible pathophysiological role for autoantibodies against α1-adrenergic (α1AR) and β1/2-adrenergic receptors (β1/2AR).

Methods and results

Immunoglobulin G (IgG) derived from 17 POTS patients, 7 with recurrent vasovagal syncope (VVS), and 11 normal controls was analysed for its ability to modulate activity and ligand responsiveness of α1AR and β1/2AR in transfected cells and to alter contractility of isolated rat cremaster arterioles in vitro. Immunoglobulin G activation of α1AR and β1/2AR was significantly higher in POTS compared with VVS and controls in cell-based assays. Eight, 11, and 12 of the 17 POTS patients possessed autoantibodies that activated α1AR, β1AR and β2AR, respectively. Pharmacological blockade suppressed IgG-induced activation of α1AR and β1/2AR. Eight of 17 POTS IgG decreased the α1AR responsiveness to phenylephrine and 13 of 17 POTS IgG increased the β1AR responsiveness to isoproterenol irrespective of their ability to directly activate their receptors. Postural tachycardia syndrome IgG contracted rat cremaster arterioles, which was reversed by α1AR blockade. The upright heart rate correlated with IgG-mediated β1AR and α1AR activity but not with β2AR activity.

Conclusion

These data confirm a strong relationship between adrenergic autoantibodies and POTS. They support the concept that allosteric-mediated shifts in the α1AR and β1AR responsiveness are important in the pathophysiology of postural tachycardia.

Platelet packing density is an independent regulator of the hemostatic response to injury

Essentials Platelet packing density in a hemostatic plug limits molecular movement to diffusion. A diffusion-dependent steep thrombin gradient forms radiating outwards from the injury site. Clot retraction affects the steepness of the gradient by increasing platelet packing density. Together, these effects promote hemostatic plug core formation and inhibit unnecessary growth.

SUMMARY

Background Hemostasis studies performed in vivo have shown that hemostatic plugs formed after penetrating injuries are characterized by a core of highly activated, densely packed platelets near the injury site, covered by a shell of less activated and loosely packed platelets. Thrombin production occurs near the injury site, further activating platelets and starting the process of platelet mass retraction. Tightening of interplatelet gaps may then prevent the escape and exchange of solutes. Objectives To reconstruct the hemostatic plug macro- and micro-architecture and examine how platelet mass contraction regulates solute transport and solute concentration in the gaps between platelets. Methods Our approach consisted of three parts. First, platelet aggregates formed in vitro under flow were analyzed using scanning electron microscopy to extract data on porosity and gap size distribution. Second, a three-dimensional (3-D) model was constructed with features matching the platelet aggregates formed in vitro. Finally, the 3-D model was integrated with volume and morphology measurements of hemostatic plugs formed in vivo to determine how solutes move within the platelet plug microenvironment. Results The results show that the hemostatic mass is characterized by extremely narrow gaps, porosity values even smaller than previously estimated and stagnant plasma velocity. Importantly, the concentration of a chemical species released within the platelet mass increases as the gaps between platelets shrink. Conclusions Platelet mass retraction provides a physical mechanism to establish steep chemical concentration gradients that determine the extent of platelet activation and account for the core-and-shell architecture observed in vivo.

MST1-dependent vesicle trafficking regulates neutrophil transmigration through the vascular basement membrane

Neutrophils need to penetrate the perivascular basement membrane for successful extravasation into inflamed tissue, but this process is incompletely understood. Recent findings have associated mammalian sterile 20-like kinase 1 (MST1) loss of function with a human primary immunodeficiency disorder, suggesting that MST1 may be involved in immune cell migration. Here, we have shown that MST1 is a critical regulator of neutrophil extravasation during inflammation. Mst1-deficient (Mst1-/-) neutrophils were unable to migrate into inflamed murine cremaster muscle venules, instead persisting between the endothelium and the basement membrane. Mst1-/- neutrophils also failed to extravasate from gastric submucosal vessels in a murine model of Helicobacter pylori infection. Mechanistically, we observed defective translocation of VLA-3, VLA-6, and neutrophil elastase from intracellular vesicles to the surface of Mst1-/- neutrophils, indicating that MST1 is required for this crucial step in neutrophil transmigration. Furthermore, we found that MST1 associates with the Rab27 effector protein synaptotagmin-like protein 1 (JFC1, encoded by Sytl1 in mice), but not Munc13-4, thereby regulating the trafficking of Rab27-positive vesicles to the cellular membrane. Together, these findings highlight a role for MST1 in vesicle trafficking and extravasation in neutrophils, providing an additional mechanistic explanation for the severe immune defect observed in patients with MST1 deficiency.

[Prophylaxis and treatment of postoperative complications of abdominoplasty]

Results of abdominoplasty conduction in 206 patients were analyzed. Early postoperative complications are studied and methods of their prophylaxis are elaborated. Minimization of the local complications rate was achieved due to estimation of the anterior abdominal wall state, its angioarchitectonics, the apparatus control of PO2 in cutaneous-subcutaneous flap, rational combination of dermolipectomy and liposuction, prophylaxis of microcirculation disorders. In detailed analysis of remote, first of all, esthetic results of the anterior abdominal wall plasty we have concluded about necessity of the state estimation of surrounding anatomic structures. While planning and conduction of the anterior abdominal wall plasty it is mandatory to take into account the pubis subcutaneous layer width, as well as lateral regions of abdominal wall, pelvis and costal arcs, the form and localization of costal arcs, especially of XII rib and a vertebral column form. Such approach have secured the operation esthetic level raising, reduction of local complications rate, permitted more trustworthy to prognosticate the outcome.

[The imaging study of internal mammary artery and its branches ]

OBJECTIVE

To investigate the distribution of the internal mammary artery and its branches by the multi-slice spiral CT angiography, and to explore the feasibility of transferring pedicled transverse rectus abdomials myocataneous (TRAM) flap for breast reconstruction through resection of inferior costicartilages.

METHODS

30 female patients received abdominal CT angiography. (1) The distance between internal mammary artery and the sternum midline were recorded; (2) The position and the numbers of branches from bilateral internal mammary arteries at the level of 5th, 6th, 7th rib was observed; (3) The points where the superior epigastric artery gets through the rectus abdominis muscle were located.

RESULTS

( The average distance between left internal mammary artery to the sternum midline is from 1. 66 cm (0. 62-2. 39 cm ) to 2.34 cm (0.69-3.36 cm) at the level from 4th to 6th intercostal space. The average distance between right internal mammary artery to the sternum midline is from 1.55 cm(0. 66-2. 29 cm) to 2.29 cm(0. 73-3. 67 cm) at the level from 4th to 6th intercostal space; ) The number of branches is the most at the level of 6th intercostal space; (3) There are 235 branches in the superior epigastric artery.

CONCLUSIONS

This imaging study of internal mammary artery explores the feasibility of transferring pedicled transverse rectus abdominals myocataneous flap for breast reconstruction. It has important significance in the breast reconstruction using TRAM flap with lengthened pedicle.

[Morphological characteristic of tissues, surrounding prosthesis in patients, suffering cutaneo-prosthetic fistulas and paraprosthetic hernias]

While application of the net prostheses in surgery of anterior abdominal wall hernias (AAWH) the complications are noted, such as the prosthesis cyst development, the net wrinkling, migration and separation with the hernia recurrence. Morphological investigation of tissues were conducted in regions of cutaneo-prosthetic fistulas and hernial gates, formatted by the prosthesis edge, in 22 patients, operated for AAWH, in 6 of them cutaneo-prosthetic fistulas were observed. Morphological changes in region of prosthesis, taking part in the hernial defect development, as well as in the wrinkled part of the prosthesis, were characterized by pronounced inflammation, development of rude cicatrices and infiltration of tissues. While durable existence of cutaneo-prosthetic fistulas the prosthesis degradation and destruction occurs as well as the breaks and cracks; on sites of the tissue, surrounding the prosthesis, the microorganisms and fungi vegetations may evolve, trusting its secondary infectioning.

Free deep inferior epigastric perforator flap used for management of post-pneumonectomy space empyema

Various solutions exist for management of post-pneumonectomy space empyema. We describe the use of a free deep inferior epigastric perforator (DIEP) flap to fill the space and close a pleural window. Previously, flaps involving abdominal muscle or omentum have been used for this purpose. Abdominal surgery to harvest such flaps can impair ventilatory mechanics. The DIEP flap--harvested from the abdomen, and composed primarily of skin and muscle avoids this problem, thus is a desirable technique in patients with impaired lung function. We believe this is the first report of the DIEP flap to close a postpneumonectomy empyema space.

[Hemomicrocirculation channel and mastocyte population in outer oblique aponeurosis stomach muscles and uterus ligament in women with small pelvic organ prolapses]

The aim of the research was histochemical and morphometric investigation of microcirculation channel and study of mastocytes in outer oblique aponeurosis stomach muscles and sacrouterine ligaments. The study was carried out on 36 patients with small pelvic organs prolapse and on 22 patients without such. Patients with different forms and severity of small pelvic organs prolapse displayed the reduction of aponeurosis microcirculatory channel, sacrouterine and round ligament of the uterus (p<0.05) in contrast to women without small pelvic organs prolapse. It was found that outer oblique aponeurosis stomach muscles in patients contains large amount of labrocytes, which degranulate with statistically significant intensiveness, in contrast to women without prolapses (p<0.05). The state of microcirculation channel and local aponeurosis secretor regulator apparatus of the outer oblique aponeurosis stomach muscles and the sacrouterine ligaments must be considered in choosing the most suitable method of suspension and fixations of small pelvic organs prolapse.

Erosion of the Inferior Epigastric Artery: A Rare Complication of Intrathecal Drug Delivery Systems

Intrathecal baclofen is an invaluable therapeutic modality in the management of severe spasticity, especially in patients with cerebral palsy, multiple sclerosis, and spinal cord and brain injuries. This case report presents a rare complication of long-term intrathecal infusion with the development of a huge anterior abdominal wall hematoma with extension to the retroperitoneal space as a result of a repeated blunt trauma to the site of the intrathecal pump with erosion of the inferior epigastric artery. This inferior epigastric artery erosion could be avoided by implanting the intrathecal pump laterally away from the rectus abdominus muscle sheath.

Enhanced targeting of ultrasound contrast agents using acoustic radiation force

Contrast-enhanced ultrasound has shown significant promise as a molecular imaging modality. However, one potential drawback is the difficulty that ultrasound contrast agents (UCA) may have in achieving adhesion to target molecules on the vascular endothelium. Microbubble UCA exhibit a lateral migration toward the vessel axis in laminar flow, preventing UCA contact with the endothelium. In the current study, we have investigated low-amplitude acoustic radiation as a mechanism to move circulating UCA toward targeted endothelium. Intravital microscopy was used to assess the retention of microbubble UCA targeted to P-selectin in the mouse cremaster microcirculation and femoral vessels. Acoustic treatment enhanced UCA retention to P-selectin four-fold in cremaster venules and in the femoral vein and 20-fold in the femoral artery. These results suggest acoustic treatment as a mechanism for enabling ultrasound-based molecular imaging in blood vessels with hemodynamic and anatomical conditions otherwise adversarial for UCA retention.

Muscle infarction involving muscles of abdominal and thoracic walls in diabetes

AIMS

This paper presents two cases of muscle infarction involving four major muscles of the anterior abdominal wall (case 1) and pectoralis major (case 2) in individuals with diabetes.

METHODS

Erythrocyte sedimentation rate (ESR) and creatine kinase (CK) were measured and Doppler ultrasound, an open muscle biopsy (case 1) and magnetic resonance imaging (MRI) (case 2) were performed.

RESULT

The diagnosis of muscle infarction was made by histological findings and MRI images with hyper-intensive signals on a gadolinium-enhanced T2-weighted sequence, respectively. Both patients were treated with bed rest, immobilization of the involved extremities, analgesia and intensive insulin therapy. In addition, anticoagulant drugs such as low molecular weight heparin sodium and cilostazol, and some traditional Chinese medicines such as ligustrazine and salvia miltiorrhiza were administered. The symptoms of both patients resolved gradually after 3 weeks. However, muscle infarction reoccurred in case 1 on the opposite side of the abdomen and recovered after 40 days.

CONCLUSIONS

This is the first report of muscle infarction involving the muscles of anterior abdominal walls and pectoralis major in diabetes. MRI is the best non-invasive technique and T2-weighted imaging is the most valuable method for the diagnosis. In addition to supportive therapy, administration of anticoagulant agents and some Chinese traditional medicine may be useful in symptom relief.

Stimulation characteristics that determine arteriolar dilation in skeletal muscle

To determine the skeletal muscle stimulation parameters that are most important in establishing vasodilation in the microvasculature, I tested whether arteriolar diameter during 2 min of repetitive, short-duration, tetanic skeletal muscle contractions increased with changes in stimulus frequency, stimulation train duration, and contraction frequency. To test this, the diameter of transverse arterioles approximately perpendicular to small bundles of cremaster muscle fibers in situ of anesthetized Golden Syrian hamsters was used as a bioassay system. Arteriolar diameter was measured before and during different stimulation patterns that consisted of a contraction frequency [6, 12, or 24 contractions per minute (cpm)], a stimulation train duration (250, 500, or 750 ms) and a stimulus frequency (4, 8, 10, 15, 20, 30, 40, 60, and 80 Hz). The magnitude of the dilation significantly increased with stimulus frequency but not in a simple linear manner. The average rate of increase was 0.32 ± 0.02 μm/Hz from 4 to 20 Hz and 0.09 ± 0.02 μm/Hz from 30 to 80 Hz. The magnitude of the dilation increased significantly with the contraction frequency where the dilation at 6 cpm was significantly smaller than the dilation at 24 cpm across all stimulus frequencies. Changing the train duration from 250 to 750 ms did not significantly affect the magnitude of the dilation. These observations suggest that stimulation parameters are important in determining the magnitude of the microvascular dilation and that the magnitude of the dilation was dependent on both the contraction frequency and stimulus frequency but was independent of train duration.

Diazoxide ameliorates microcirculatory disturbances through PKC-dependent Pathway in I/R-injured rat cremaster muscles

Diazoxide is a selective mitochondria ATP-sensitive potassium (K(ATP)) channel opener, which has been reported to preserve the microvascular integrity of ischemia-reperfusion (I/R)-injured tissues. Our study aimed to assess diazoxide's effects on I/R-injured cremaster muscles and to further elucidate its underlying mechanisms. Male Sprague Dawley (SD) rats were randomized (n = 8 per group) into four groups: sham-operated control group, I/R group (4 h of pudic epigastic artery ischemia followed by 2 h of reperfusion), diazoxide + I/R group, and chelerythrine (PKC inhibitor)+diazoxide+I/R group. Microscopically, we observed that I/R markedly increased the number of rolling, adhering, and transmigrating leukocytes. I/R also markedly decreased the number of functional capillaries. Biochemically, we found that I/R significantly increased TNF-alpha, E-selectin,L-selectin and P-selectin expressions. However, I/R did not cause significant changes in ICAM-1 and PECAM-1 expressions. On the other hand, in I/R + diazoxide group, we found that diazoxide reduced the number of rolling, adhering, and transmigrating leukocytes. Furthermore, biochemical study revealed that diazoxide caused only a decrease in L-selectin expression but had no effect on TNF-alpha, E-selectin, P-selectin, ICAM-1, and PECAM-1 expressions. Finally, in chelerythrine + diazoxide + I/R group, we observed that diazoxide's protective effects were blocked by the addition of chelerythrine. Diazoxide's ability to protect against I/R injury was confirmed by the observation that it reduced the number of rolling, adhering, and transmigrating leukocytes, and increased the number of functional capillaries. Our results indicated that diazoxide operated via a PKC-dependent pathway to achieve protection against I/R injury.

Involvement of NO and EDHF in Flow-Induced Vasodilation in Isolated Hamster Cremasteric Arterioles

Flow-induced vasodilation in hamster cremasteric arterioles was investigated with special reference to the roles of nitric oxide (NO) and endothelium-derived hyperpolarizing factor (EDHF). Arterioles (approximately 60 microm resting diameter) were cannulated, and suffused with MOPS solution at 37 degrees C (mean intraluminal pressure: 80 cm H(2)O). Step increases in the perfusate flow elicited a dose-dependent vasodilation, which was almost proportional to the increases in calculated wall shear stress (WSS). N(omega)-nitro L-arginine methyl ester (L-NAME, 100 microM) reduced the flow-induced vasodilation by approximately 50%, whereas indomethacin (10 microM) produced no significant effect. In the presence of L-NAME, the residual vasodilation was eliminated by treatment with the cytochrome P-450 monooxygenase inhibitor 17-octadecynoic acid (17-ODYA, 50 microM), sulfaphenazol (10 microM), tetraethylammonium (TEA, 3 mM; a nonselective Ca(2+)-activated K(+) channel inhibitor), or charybdotoxin (ChTX, 0.1 microM; intermediate or large conductance Ca(2+)-activated K(+) channel inhibitor). In the absence of L-NAME, the dilation was also reduced by approximately 50% by treatment with 17-ODYA, TEA, or ChTX. The residual vasodilation was eliminated by additional treatment with L-NAME. The inhibitor of ATP-sensitive K(+) channels (K(ATP)), glibenclamide, also caused a significant, but partial, reduction of the flow-induced vasodilation. The residual vasodilation was completely reduced by additional treatment with 17-ODYA, but not L-NAME. These findings suggest that in hamster cremaster, higher flow rate produces NO, K(ATP), and EDHF vasodilation of the arterioles under physiological conditions.

Deep circumflex iliac artery (DCIA) free flap without DCIA: report of a unique case

The iliac crest free flap is a reliable source of cancellous bone, muscle, and skin. The vascularization of this flap arises from the deep circumflex iliac artery (DCIA) which allegedly is always present. The authors report a unique case of successful microvascular transplantation of an iliac crest osteomyocutaneous free flap in a patient in whom the DCIA and DCIV were absent.

Improvement in Early Symptoms of Shock by Delayed Intestinal Protease Inhibition

HYPOTHESIS

Recent findings indicate that intraintestinal pancreatic protease inhibition before superior mesentery artery occlusion (SMAO) attenuates inflammation and symptoms of shock. Herein we examine the effectiveness of delayed intestinal protease inhibition during reperfusion after SMAO.

SUBJECTS

Three groups of male Wistar rats were studied: a nonshock sham group and 2 groups exposed to SMAO for 100 minutes and treated by delayed intestinal lavage starting 40 minutes after reperfusion with buffer (delayed-lavage group) or with the digestive protease inhibitor gabexate mesilate (FOY) (delayed FOY-lavage group).

RESULTS

Arterial pressure during reperfusion was significantly lower in the delayed-lavage animals compared with the sham group. Superior mesentery artery occlusion and reperfusion caused the formation of leukocyte activation factors in intestinal homogenates and in plasma, as well as intestinal injury. The delayed-lavage group had a significant increase in activated leukocytes in venules of cremaster muscle. In contrast, in the delayed FOY-lavage group, lavage 40 minutes after reperfusion led to a significant improvement of blood pressure and decreased formation of intestine-derived leukocyte activation factors and intestinal injury compared with the delayed-lavage group. In addition, the delayed FOY-lavage group exhibited fewer rolling leukocytes in venules and reduced apoptosis in the cremaster muscle microcirculation. Intestinal ischemia-induced endotoxemia was attenuated in the delayed FOY-lavage animals.

CONCLUSION

Delayed intestinal protease inhibition may improve experimental SMAO-induced shock by reducing intestinal injury, decreasing the level of cell activation in plasma and in the microcirculation, and restoring the blood pressure.

Microcirculatory Heterogeneity in the Rat Small Intestine During Compromised Flow Conditions

OBJECTIVE

To characterize and compare microcirculatory changes in the rat small intestinal tissue layers when temporal or spatial microvascular perfusion heterogeneity is present.

METHODS

Intravital videomicroscopy with an orthogonal polarization spectral imaging technique was used to visualize the microcirculation of the intestinal mucosa and the longitudinal muscle during systemic (hemorrhagic shock, endotoxemia, and nitric oxide synthesis inhibition) and local (ischemia-reperfusion) circulatory disorders. The average capillary red blood cell velocity (A-RBCV) was calculated from the relative durations of the observed velocity or as a function of the perfused area, respectively.

RESULTS

During hemorrhagic hypotension/resuscitation, timewise (flowmotion) and spatial heterogeneity were found to evolve in the mucosal villi and muscle layer. During resuscitation, the A-RBCV decreased by 40% in the villi and by 60% in the muscle. Reperfusion after a 30-min period of mesenteric ischemia caused a 20% reduction in A-RBCV in both layers, while endotoxin infusion caused a temporary 20% decrease in the mucosa, and a persistent, >25% decrease in the muscle. Nitric oxide synthesis inhibition resulted in spatial heterogeneity within the villi and in a 40% decrease in A-RBCV in both structures.

CONCLUSIONS

Calculations of timewise variability and of heterogeneity within and between layers can be used for the comparison of distinct intramural microcirculatory changes.

Neurovascular Territories of the External and Internal Oblique Muscles

The purpose of this study was to document the extent of the arteries supplying the external and internal oblique muscles and the connections among the vascular territories. Ten adult human cadavers underwent whole-body arterial perfusion (200 ml/kg) with a mixture of lead oxide, gelatin, and water, through the carotid artery. The external and internal oblique muscles were dissected and subjected to radiography. The vasculature of each muscle was analyzed by using the paper template technique. The areas of the vascular territories of the individual intercostal arteries within the external oblique muscle varied from 9 to 22 percent. The area of the vascular territory of the muscular branch of the deep circumflex iliac artery was 5 to 18 percent. The ascending branch of the deep circumflex iliac artery supplied a mean of 35.7 percent of the vascular territory of the internal oblique muscle. The lower six posterior intercostal arteries supplied a mean of 48.5 percent. The lateral branches of the deep inferior epigastric artery supplied a mean of 15.8 percent. This information provides the basis for the design of external and internal oblique muscle flaps for functional muscle transfer.

Overlapping roles of endothelial selectins and vascular cell adhesion molecule-1 in immune complex-induced leukocyte recruitment in the cremasteric microvasculature

Many adhesion molecule pathways have been invoked as mediating leukocyte recruitment during immune complex-induced inflammation. However the individual roles of these molecules have not been identified via direct visualization of an affected microvasculature. Therefore, to identify the specific adhesion molecules responsible for leukocyte rolling and adhesion in immune complex-dependent inflammation we used intravital microscopy to examine postcapillary venules in the mouse cremaster muscle. Wild-type mice underwent an intrascrotal reverse-passive Arthus model of immune complex-dependent inflammation and subsequently, leukocyte-endothelial cell interactions and P- and E-selectin expression were assessed in cremasteric postcapillary venules. At 4 hours, the reverse-passive Arthus response induced a significant reduction in leukocyte rolling velocity and significant increases in adhesion and emigration. P-selectin expression was increased above constitutive levels whereas E-selectin showed a transient induction of expression peaking between 2.5 to 4 hours and declining thereafter. While E-selectin was expressed, rolling could only be eliminated by combined blockade of P- and E-selectin. However, by 8 hours, all rolling was P-selectin-dependent. In contrast, inhibition of vascular cell adhesion molecule-1 had a minimal effect on leukocyte rolling, but significantly reduced both adhesion and emigration. These observations demonstrate that immune complex-mediated leukocyte recruitment in the cremaster muscle involves overlapping roles for the endothelial selectins and vascular cell adhesion molecule-1.

Endothelial cell glycocalyx modulates immobilization of leukocytes at the endothelial surface

OBJECTIVE

A thick endothelial glycocalyx provides the endothelial surface with a nonadherent shield. Oxidized LDL (Ox-LDL) degrades the endothelial glycocalyx. We hypothesized that glycocalyx degradation stimulates leukocyte-endothelial cell adhesion, whereas intravascular supplementation with sulfated polysaccharides reconstitutes the endothelial glycocalyx and attenuates Ox-LDL-induced leukocyte-endothelial cell adhesion.

METHODS AND RESULTS

Degradation of the endothelial glycocalyx by local microinjection of heparitinase (10 to 50 U/mL) into mouse cremaster venules dose-dependently increased the number of adherent leukocytes. Systemic administration of Ox-LDL (0.4 mg/100 g body weight) induced 10.1+/-0.9 adherent leukocytes/100 microm at 60 minutes. In the venules perfused with 500-kDa dextran sulfate (1 mg/mL), the number of adherent leukocytes at 60 minutes after Ox-LDL bolus application was not influenced (9.2+/-1.0 leukocytes/100 microm). However, the venules locally perfused with heparan sulfate (10 mg/mL) or heparin (1 mg/mL) displayed a significantly lower number of adherent leukocytes induced by Ox-LDL: 5.1+/-0.7 and 5.4+/-0.9 leukocytes/100 microm, respectively (P<0.05). Fluorescently labeled heparan sulfate and heparin, but not dextran sulfate, attached to the venule luminal surface after Ox-LDL administration.

CONCLUSIONS

Endothelial glycocalyx degradation stimulates leukocyte immobilization at the endothelial surface. Circulating heparan sulfate and heparin attach to the venule wall and attenuate Ox-LDL-induced leukocyte immobilization.

Microsurgical spermatico-epigastric venous anastomosis in the treatment of varicocele in children: assessment of long-term patency

AIM

To demonstrate the long-term patency of microsurgical anastomoses between the internal spermatic vein and the inferior epigastric vein, constructed in the treatment of essential varicocele in paediatric patients to supplement ligation of the spermatic veins.

MATERIALS AND METHODS

We submitted 66 patients to inguinopelvic colour-flow Doppler ultrasonography. The patients had been treated 18 - 36 months earlier for essential varicocele by microsurgical inguinal ligation of the testicular venous pedicle and anastomosis between the internal spermatic vein and the inferior epigastric vein.

RESULTS

Preoperatively, the 66 patients operated on at ages ranging from 10 to 16 years (13 +/- 1.4) presented with Dubin and Amelar grade II (14 patients) or grade III (52 patients) left varicocele with ipsilateral testicular hypotrophy. The postoperative follow-up showed 2 cases of persistence of disease and 3 cases of persistence of "medium" spermatic vein reflux without clinical evidence of varicocele. Seven patients developed left hydrocele which resolved spontaneously in 5 cases, whereas in 2 cases it proved necessary to perform an eversion of the tunica vaginalis of the testis. The results obtained in patients treated for Coolsaet type I varicocele (64 patients) were as follows: long-term patency of the anastomosis was observed in 58/64 patients (90.6 %); in 4 patients (6.2 %) the left inferior epigastric vein presented a position in relation to the homologous artery that prevented adequate sampling and thus made it impossible to assess the patency of the anastomosis; in 2 patients (3.1 %) the anastomosis was closed. In the two patients who had submitted to anastomosis for Coolsaet type III varicocele, colour-flow Doppler failed to identify the shunt.

CONCLUSIONS

The results of this study demonstrate that microsurgical anastomosis between the internal spermatic vein, and the inferior epigastric vein remains competent in the long term, thus confirming the validity of this technique for the treatment of essential varicocele in children.

Dissociation between skeletal muscle microvascular PO2 and hypoxia-induced microvascular inflammation

Systemic hypoxia (SHx) produces microvascular inflammation in mesenteric, cremasteric, and pial microcirculations. In anesthetized rats, SHx lowers arterial blood pressure (MABP), which may alter microvascular blood flow and microvascular Po(2) (Pm(O(2))) and influence SHx-induced leukocyte-endothelial adherence (LEA). These experiments attempted to determine the individual contributions of the decreases in Pm(O(2)), venular blood flow and shear rate, and MABP to the hypoxia-induced increase in LEA. Cremaster microcirculation of anesthetized rats was visualized by intravital microscopy. Pm(O(2)) was measured by a phosphorescence-quenching method. SHx [inspired Po(2) of 70 Torr for 10 min, MABP of 65 +/- 3 mmHg, arterial Po(2) (Pa(O(2))) of 33 +/- 1 Torr] and cremaster ischemia (MABP of 111 +/- 7 mmHg, Pa(O(2)) of 86 +/- 3 Torr) produced similar Pm(O(2)): 7 +/- 2 and 6 +/- 2 Torr, respectively. However, LEA increased only in SHx (1.9 +/- 0.9 vs. 11.2 +/- 1.1 leukocytes/100 microm, control vs. SHx, P < 0.05). Phentolamine-induced hypotension (MABP of 55 +/- 4 mmHg) in normoxia lowered Pm(O(2)) to 26 +/- 6 Torr but did not increase LEA. Cremaster equilibration with 95% N(2)-5% CO(2) during air breathing (Pa(O(2)) of 80 +/- 1 Torr) lowered Pm(O(2)) to 6 +/- 1 Torr but did not increase LEA. On the other hand, when cremaster Pm(O(2)) was maintained at 60-70 Torr during SHx (Pa(O(2)) of 35 +/- 1 Torr), LEA increased from 2.1 +/- 1.1 to 11.1 +/- 1.5 leukocytes/100 microm (P < 0.05). The results show a dissociation between Pm(O(2)) and LEA and support the idea that SHx results in the release of a mediator responsible for the inflammatory response.

Central role of connexin40 in the propagation of electrically activated vasodilation in mouse cremasteric arterioles in vivo

When a short segment of arteriole is stimulated, vasomotor responses spread bidirectionally along the vessel axis purportedly via gap junctions. We used connexin40 knockout (Cx40-/-) mice to study vasomotor responses induced by 10-second trains of electrical stimulation (30 Hz, 1 ms, 30 to 50 V) in 2nd or 3rd order arterioles of the cremaster muscle. Measurements were made at the stimulation site (local) and at conducted sites (500, 1000, and 2000 microm upstream). In wild-type (Cx40+/+) animals, electrical stimulation evoked a local vasoconstriction and a conducted vasodilation that spread very rapidly along the vessel length without detectable decay. In Cx40-/- mice, the conducted dilation was converted into either vasoconstriction or a slowly developing vasodilation that decayed along the vessel length. Tetrodotoxin (TTX, 1 micromol/L) had no effect on the local vasoconstriction in either Cx40+/+ or Cx40-/- mice, but enhanced the conducted vasodilation in Cx40+/+ animals. In Cx40-/- mice, TTX abolished the conducted vasoconstriction when present and revealed a small vasodilation that decayed with distance. In the group of Cx40-/- mice in which electrical stimulation elicited a conducted vasodilation, TTX had no effect. Immunocytochemistry revealed Cx40 only in the endothelial layer of arterioles from Cx40+/+ mice and complete elimination of this connexin in the Cx40-/- animals. These results indicate that focal current stimulation causes vasoconstriction by a combination of perivascular nerve stimulation and smooth muscle activation. Moreover, electrical stimulation activates a nonneuronal, Cx40-dependent vasodilator response that spreads along the vessel length without decay.

Oxygen delivery in irradiated normal tissue

Ionizing radiation exposure significantly alters the structure and function of microvascular networks, which regulate delivery of oxygen to tissue. In this study we use a hamster cremaster muscle model to study changes in microvascular network parameters and use a mathematical model to study the effects of these observed structural and microhemodynamic changes in microvascular networks on oxygen delivery to the tissue. Our experimental observations indicate that in microvascular networks while some parameters are significantly affected by irradiation (e.g. RBC transit time), others remain at the control level (e.g. RBC path length) up to 180 days post-irradiation. The results from our mathematical model indicate that tissue oxygenation patterns are significantly different in irradiated normal tissue as compared to age-matched controls and the differences are apparent as early as 3 days post irradiation. However, oxygen delivery to irradiated tissue was not found to be significantly different from age matched controls at any time between 7 days to 6 months post-irradiation. These findings indicate that microvascular late effects in irradiated normal tissue may be due to factors other than compromised tissue oxygenation.

"Components separation technique" for the repair of large abdominal wall hernias

BACKGROUND

The "components separation technique" is a method for abdominal wall reconstruction in patients with large midline hernias that cannot be closed primarily. The early and late results of this technique were evaluated in 43 patients.

METHODS

Records of 43 patients, 11 women and 32 men, with a mean age of 49.7 (range 22 to 78), were reviewed for body length and weight, size and cause of the hernia, intra- and postoperative mortality and morbidity, with special attention given to wound and pulmonary complications. Patients were invited to attend the outpatient clinic afterward for at least 12 months for physical examination of the abdominal wall.

RESULTS

The defect resulted after elective surgery in 19 patients and after acute surgery in 24 patients. In 11 patients, the defect was a result of open treatment of generalized peritonitis, and 13 patients had a recurrent incisional hernia. One patient died on the sixth postoperative day from mesenteric thrombosis. The postoperative course was complicated in 17 patients: fascial dehiscence in one, hematoma in five, seroma in two, wound infection in six, skin necrosis in one, and respiratory insufficiency in two. Thirty-eight patients were seen for followup. After a mean followup of 15.6 months (range 12 to 30 months), a recurrent hernia was found in 12 of the 38 patients (32%). The remaining four patients had no recurrent hernia after 1, 1, 3, and 4 months, respectively.

CONCLUSIONS

The "components separation technique" is useful for the reconstruction of large abdominal wall hernias, especially under contaminated conditions in which the use of prosthetic material is contraindicated. Further research is needed to reduce the relatively high reherniation rate.

New Composite Tissue Allograft Transplantation Model in Mouse with Intravital Microscopic Evaluation of Microcirculation

A new mouse composite tissue allograft (CTA) transplantation model was developed to study the microcirculatory changes during acute allograft rejection and ischemia/reperfusion (I/R) injury. The donor cremaster muscle allografts were prepared as a tube flap, harvested on the common iliac vessels, transplanted to the neck region of the recipient, and anastomosed to the recipient's ipsilateral carotid artery and external jugular vein using standard end-to-end microsurgical technique. In Group 1 (n=6), the hemodynamics of cremasteric muscle microcirculation was measured in C57BL/6N mice without transplantation for baseline data. In Group 2 (n=6), isograft transplantations were performed between C57BL/6N mice. In Group 3 (n=5), allograft transplantations were performed across a high histocompatibility barrier between C3H and C57BL/6N mice. Following transplantation, cremaster muscle tube flaps were prepared for standard microcirculatory measurements of functional capillary perfusion, diameters, and red blood cell (RBC) velocities of 1 (st), 2 (nd), and 3 (rd) order arterioles and venules, and numbers of rolling, adhering, and transmigrating leukocytes and lymphocytes. Hemodynamic parameters of microcirculation did not differ significantly between the three groups. However, the number of rolling, adhering, and transmigrating polymorphonuclear leukocytes and lymphocytes was significantly increased in the allograft group ( p<0.001) as early as 2 hr following transplantation. Cremaster muscle transplantation in mice is a reliable and reproducible model with a 95 percent immediate success rate. The model offers the unique possibility of studying leukocyte-endothelial interaction during acute allograft rejection and I/R injury in mouse.

Vascular protection by estrogen in ischemia-reperfusion injury requires endothelial nitric oxide synthase

Estrogen increases nitric oxide (NO) production by inducing the activity of endothelial NO synthase (eNOS) (Simoncini et al. Nature 407: 538, 2000). Ischemia (30 min) and reperfusion (I/R) increased the number of adherent leukocytes and decreased their rolling velocities in mouse cremaster muscle venules with a strong dependence on wall shear rate. Minimum rolling velocity at approximately 5 min after the onset of reperfusion was accompanied by increased P-selectin expression. This preceded the peak in leukocyte adhesion (at 10-15 min). In untreated wild-type mice, I/R caused a decrease of leukocyte rolling velocity from 37 to 26 microm/s and a 2.0-fold increase in leukocyte adhesion. Both were completely abolished by 0.25 mg ip estrogen 1 h before surgery. In eNOS(-/-) mice, the decrease of leukocyte rolling velocity and increase in adhesion were similar but were only marginally improved by estrogen. We conclude that the protective effect of estrogen, as measured by leukocyte rolling and adhesion, is significantly reduced in eNOS(-/-) mice, suggesting that induction of eNOS activity is the major mechanism of vasoprotection by estrogen in this model.

Venous interruption is unnecessary to achieve an adequate delay in the rat TRAM flap model

Staged division of any or all inferior dominant pedicles to the human lower transverse rectus abdominis musculocutaneous (TRAM) flap has previously been attempted to invoke the delay phenomenon to enhance the rate of success with the superior-pedicled version, especially for patients at high risk for complications. Regardless of the specific vessels ligated, this has usually been accomplished by division of the source artery and its accompanying vein. Whether division of both vessels is essential remains unclear, however. This issue was investigated by using the authors' standard rat TRAM flap model in 43 female Sprague-Dawley rats, which were randomly assigned to four groups. In group A, both the predominant ipsilateral cranial epigastric artery and the cranial epigastric vein were divided 2 weeks before elevation of the TRAM flap. In group B, only the artery was divided; in group C, only the vein was divided. In an undelayed control group, the TRAM flap was elevated immediately, with no prior pedicle division. The percentages of flap survival in group A (89.3 +/- 7.0 percent) and group B (88.8 +/- 6.5 percent) (both with division of the predominant artery) were significantly greater than that in the control group (64.6 +/- 20.5 percent) (p < 0.001) or that in the group in which the vein alone was divided (73.9 +/- 11.3 percent) (p < 0.01). There was no significant difference between the group that underwent vein division only and the control group (p = 0.102). The clinical implication is that arterial division is critical for TRAM flap delay and that arbitrary venous interruption is unnecessary.

Intravascular inhomogeneous distribution of oxygen in arterioles of rat cremaster muscle

Previously, cross-sectional oxygen distribution in microvessels was assumed to be homogeneous. The oxygen profile in the arterioles of rat cremaster muscle was measured using microspectrophotometry and a PO(2) microelectrode, showing a drop in SO(2) as well as PO(2) close to the vascular wall with a flat PO(2) profile in the perivascular tissue.

Neurovascular musculus obliquus internus abdominis flap free transfer for facial reanimation in a single stage

A study of the anatomy and transplantation of the musculus obliquus internus abdominis with a neurovascular pedicle transfer for facial reanimation in one stage is presented. Eleven adult cadavers (22 face sides) were dissected to observe the shape, thickness, innervation, and blood supply of the musculus obliquus internus abdominis. The blood supply of this muscle primarily comes from the musculus obliquus internus abdominis branch of the deep circumflex iliac artery (diameter, 1.3 +/- 0.2 mm), but it can also come from the eleventh intercostal artery (diameter, 1.14 +/- 0.3 mm) and the infracostal artery (diameter, 1.5 +/- 0.2 mm). The branch of the deep circumflex iliac artery and its vena comitans, or the infracostal artery and its vena comitans, could be anastomosed for muscle transplantation. The innervation of the musculus obliquus internus abdominis comes from the tenth and eleventh intercostal nerves (length, 12.7 +/- 1.5 cm) and the infracostal nerve (length, 12.9 +/- 1.3 cm). The eleventh intercostal nerve and the infracostal nerve were selected for anastomosis of muscle transplantation. From November of 1995 to November of 1999, 14 patients with long established facial paralysis were treated with transplantation of a musculus obliquus internus abdominis flap in one stage and were followed for 10 months to 6 years. In 13 patients, the dynamic functions of the transplanted muscles were restored, the obliqueness of the mouth and philtrum while static was corrected, and the facial muscle activities while smiling were harmonized. The eyelids of the paralyzed side could be closed postoperatively, indicating that the function of the orbicularis oculi of the paralyzed side was restored. The single-stage transplantation of a free musculus obliquus internus abdominis flap with one vascular, multi-nerve pedicle is a new method for facial reanimation in the treatment of long established facial paralysis. Because of the simplicity of the procedure and the completeness of the functional reanimation of the paralyzed facial muscles, compared with the results of other free muscle flap transfers, it is an ideal procedure for facial reanimation.

17 beta-estradiol attenuates intimal hyperplasia and macrophage accumulation with a reduction in monocyte chemoattractant protein 1 expression in a vein graft model

OBJECTIVE

Autogenous vein grafts are commonly used for arterial reconstructive procedures. Their success is limited by the development of intimal hyperplasia, a fibroproliferative disease that predisposes the grafts to occlusive stenosis. Our goal was to assess whether 17 beta-estradiol (E(2)) inhibits vein graft intimal hyperplasia coincident with a reduction in monocyte chemoattractant protein 1 (MCP-1) expression and macrophage accumulation.

METHOD

Male Lewis rats were implanted with time-release pellets that contained 0.5 mg E(2) (E5 group) or placebo (PL group). Epigastric vein to common femoral artery interposition grafts were harvested at 2, 4, 8, and 12 weeks after surgery. We assessed macrophage/monocytes numbers, proliferating cell nuclear antigen, MCP-1, and transforming growth factor-beta1 with use of immunohistochemistry. MCP-1 message expression was quantified by real-time polymerase chain reaction.

RESULTS

The time-release pellets raised the serum E(2) level to greater than 250 pg/mL on the day of surgery. Serum E(2) level declined to 43 +/- 13 pg/mL by 4 weeks and to baseline by 6 weeks. We found that the neointimal area ratio was reduced significantly in the E5 group at 2 and 4 weeks (45%, P <.05, and 68%, P < 0.05, respectively) relative to that in the PL group. The number of proliferating cells was reduced in the E5 group. There was a significant attenuation of MCP-1 expression and of the number of macrophages accumulating in the graft with E(2) treatment. Furthermore, MCP-1 messenger ribonucleic acid expression was also significantly attenuated in the E5 group at 4 weeks when compared to the PL group. There was no significant difference between the two groups in the expression of transforming growth factor-beta1.

CONCLUSIONS

E(2) treatment reduces vein-graft intimal hyperplasia coincident with a reduction in MCP-1 expression, macrophage accumulation, and cell proliferation.

Superficial collateral veins on abdominal CT: findings in cirrhosis and systemic venous obstruction

Inspection of the superficial veins of the abdominal wall has long been a routine part of the physical examination. To date, radiologists have given such veins rather scant attention, even though they are elegantly demonstrated by CT. We have performed a study of 21 patients with cirrhosis, 7 patients with caval obstruction and 28 normal control counterparts in order to determine whether superficial veins were more numerous in these two clinical conditions. The 7 patients with caval obstruction included 4 with superior and 3 with inferior vena cava obstructions. Electronic data from the CT examinations of these 28 cases and 28 controls were analysed on a viewing console. Superficial veins were significantly more numerous in patients with cirrhosis (mean maximum=5, p<0.01) and caval obstruction (mean maximum=9.1, p<0.01) than in the normal controls (mean maximum=2.1). The combination of too many superficial veins and a large superior mesenteric vein is a pointer towards cirrhosis. The presence of excessive superficial veins is yet another clue to the presence of underlying disease when analysing abdominal CT.

Lumbar artery pseudoaneurysm and arteriovenous fistula as a complication of laparoscopic splenectomy: treatment by transcatheter embolization

Iatrogenic injury of a lumbar artery is very rare and mostly causes retroperitoneal hemorrhage. We report a case of a lumbar artery pseudoaneurysm and a concomitant arteriovenous fistula complicating laparoscopic splenectomy and provoking renal colic-like flank pain due to mass effect on the left ureter. Definitive treatment of both vascular lesions was obtained after percutaneous transcatheter embolization of several lumbar arteries. Control computed tomography scan 3 months after embolization showed almost complete resorption of the retroperitoneal hematoma.

Periumbilical rectus abdominis perforator preservation significantly reduces superficial wound complications in "separation of parts" hernia repairs

Midline ventral hernia repair with bilateral sliding myofascial rectus abdominis flaps, or the "separation of parts" technique, has low hernia recurrence rates. However, this technique, as originally described, creates massively undermined skin and subcutaneous tissue flaps. These undermined skin flaps can suffer marginal skin loss, fat necrosis, and delayed wound healing. The authors propose that preserving the periumbilical rectus abdominis perforators to the abdominal skin flaps will decrease the prevalence of postoperative superficial wound complications. A retrospective review of 66 consecutive, large, midline hernia repairs using a separation of parts technique was undertaken to identify any correlation between the preservation of periumbilical rectus abdominis perforators to the skin flaps and the prevalence of postoperative wound complications. In 25 cases, the standard separation of parts technique was performed with wide undermining of the skin and subcutaneous tissues. In 41 cases, the modified separation of parts technique was performed with maintenance of the periumbilical rectus abdominis perforators to the abdominal skin flaps. Comparison of these two groups revealed no difference in age; sex; body mass index; initial hernia size on physical examination; prevalence of smoking, diabetes, or steroid use; or prevalence of a simultaneous intraabdominal procedure. A statistically significant difference was noted in postoperative wound complications between the two groups (p < 0.05). Of patients who underwent the standard separation of parts technique, five of 25 patients (20 percent) had wound complications as compared with one of 41 patients (2 percent) who underwent the modified separation of parts technique with perforator preservation. The postoperative hernia recurrence (7 percent and 8 percent, respectively) and hematoma (4 percent and 2 percent, respectively) rates were similar in both groups. A trend of increased wound complications was noted when separation of parts was combined with an intraabdominal procedure (18 percent versus 3 percent, p = 0.08). Interestingly, within this group, the modified separation of parts technique with preservation of the periumbilical rectus abdominis perforators demonstrated a trend of fewer wound complications as compared with the standard separation of parts technique (7 percent versus 31 percent, p = 0.15). The authors conclude that preservation of the periumbilical rectus abdominis perforators significantly reduces the prevalence of major postoperative superficial wound complications in separation of parts hernia repairs. Simultaneous intraabdominal procedures with separation of parts hernia repairs seem to increase the prevalence of wound complications. This increased prevalence of wound complications seems to be minimized when the modified separation of parts technique is performed.

[External oblique muscle-cutaneous flap use of the in the reconstruction of large chest wall defects after mastectomy]

The use of an external oblique muscle-cutaneous flap in the reconstruction of large chest wall defects after mastectomy is described. The flap is drown as a V-Y advancement-rotation flap, laterally based, on the ipsilateral abdominal wall. The flap extends from the posterior axillary line to the linea alba, vascular supply is provided by the musculo-cutaneous perforating arteries of the intercostal vessels. Mobilization starts medially including the anterior rectus sheath, décollement continues between the external and the internal oblique muscles as far as the posterior axillary line. The abdominal wall, after flap mobilization, is reinforced by the plication of the internal oblique sheath. The flap was used in 13 patients with major anterior chest-wall defects after mastectomy. In one patient a marginal skin necrosis of about 2 cm was observed. The flap described differs from other external oblique flaps already described in several technical innovations that allow to obtain better functional and esthetic results.

Study of the patency of small arterial branches after stent placement with an experimental in vivo model

BACKGROUND AND PURPOSE

The patency of intracranial perforating arteries after stent placement is unknown despite the general clinical use of intracranial arterial stenting.

METHODS

We deployed stainless steel stents in the abdominal aorta across the lumbar artery in eight normal rabbits in which the diameters of the abdominal arterial vessels were similar to those of human intracranial arteries. We evaluated the patency via angiographic and scanning electron microscopic methods 3 months after stent placement. Histopathologic evaluation was also performed for one rabbit.

RESULTS

The lumbar arteries were patent, even when stent struts crossed the ostium, except in one rabbit in which intimal dissection occurred intraoperatively. The scanning electron microscopy showed that the regenerative endothelium had grown onto the strut at the ostium of the lumbar artery.

CONCLUSION

We confirmed the patency of the lumbar arteries in this study by using normal rabbits. Thus, intracranial stenting may not pose a risk of occluding perforating arteries of the same diameter of the lumbar artery, even if stent struts cover the ostium.

Morphologic study of small intestinal submucosa as a body wall repair device

BACKGROUND

The extracellular matrix (ECM) derived from porcine small intestinal submucosa (SIS) has been used as a constructive scaffold for tissue repair in both preclinical animal studies and human clinical trials. Quantitative characterization of the host tissue response to this xenogeneic scaffold material has been lacking.

MATERIALS AND METHODS

The morphologic response to a multilaminate form of the SIS-ECM was evaluated in a chronic, 2-year study of body wall repair in two separate species: the dog and the rat. Morphologic response to the SIS-ECM was compared to that for three other commonly used bioscaffold materials including Marlex mesh, Dexon, and Perigard. Quantitative measurements were made of tissue consistency, polymorphonuclear cell response, mononuclear cell response, tissue organization, and vascularity at five time points after surgical implantation: 1 week, 1, 3, and 6 months, and 2 years.

RESULTS

All bioscaffold materials functioned well as a repair device for large ventral abdominal wall defects created in these two animal models. The SIS-ECM bioscaffold showed a greater number of polymorphonuclear leukocytes at the 1-week time point and a greater degree of graft site tissue organization after 3 months compared to the other three scaffold materials. There was no evidence for local infection or other detrimental local pathology to any of the graft materials at any time point.

CONCLUSIONS

Like Marlex, Dexon, and Perigard, the SIS-ECM is an effective bioscaffold for long-term repair of body wall defects. Unlike the other scaffold materials, the resorbable SIS-ECM scaffold was replaced by well-organized host tissues including differentiated skeletal muscle.

Role of nitric oxide in vasodilation in upstream muscle during intermittent pneumatic compression

This study investigated the dosage effects of nitric oxide synthase (NOS) inhibitor N(G)-monomethyl-L-arginine (L-NMMA) on intermittent pneumatic compression (IPC)-induced vasodilation in uncompressed upstream muscle and the effects of IPC on endothelial NOS (eNOS) expression in upstream muscle. After L-NMMA infusion, mean arterial pressure increased by 5% from baseline (99.5 +/- 18.7 mmHg; P < 0.05). Heart rate and respiratory rate were not significantly affected. One-hour IPC application on legs induced a 10% dilation from baseline in 10- to 20-microm arterioles and a 10-20% dilation in 21- to 40 microm arterioles and 41- to 70-microm arteries in uncompressed cremaster muscle. IPC-induced vasodilation was dose dependently reduced, abolished, or even reversed by concurrently infused L-NMMA. Moreover, expression of eNOS mRNA in uncompressed cremaster muscle was upregulated to 2 and 2.5 times normal at the end of 1- and 5-h IPC on legs, respectively, and the expression of eNOS protein was upregulated to 1.8 times normal. These increases returned to baseline level after cessation of IPC. The results suggest that eNOS plays an important role in regulating the microcirculation in upstream muscle during IPC.

The vascular anatomy of the lower anterior abdominal wall: a microdissection study on the deep inferior epigastric vessels and the perforator branches

The deep inferior epigastric artery provides the main blood supply to the lower abdominal wall. Microdissection of the artery, its main branches, and the perforator vessels was undertaken in 20 cadavers. The artery was found to be associated with two veins in most of the cases (90 percent). The lateral division of the deep inferior epigastric artery and the perforator vessels it gives are more dominant (80 percent of cases) than the medial perforators (20 percent of cases). The lateral perforators were greater in number (80) and more consistent than those that arose from the medial division (28). The musculocutaneous perforators are the most important perforators supplying the anterior abdominal wall. An average of 5.4 large perforators (>0.5 mm in diameter) were dissected in each case. These perforators are mostly contained in the area lying laterally and below the umbilicus, with an average distance of 4 cm from the umbilicus. The musculocutaneous perforators may have a direct or indirect course. Larger perforators (>0.5 mm in diameter) were found to have a direct course through the subcutaneous fat to the skin. Smaller perforators do not reach the skin but terminate at the level of the deep fat layer by branching after piercing the rectus sheath. The direct perforator vessels with their associated veins (microdissection) keep a consistent diameter before dividing at the subdermal level and end by contributing to the subdermal plexus.

Formation of independently revascularized bowel segments using the rectus abdominis muscle flap: a rat model for jejunal prefabrication

Reconstruction of the pharyngoesophagus with free jejunal transfer is a major challenge when recipient neck vessels are absent because of previous surgery or irradiation. In such instances, jejunal transfer using a muscle flap as a "vascular carrier" may be a problem-solving alternative. Pretransfer vascularization of the jejunum is achieved by wrapping the muscle flap around the small bowel segment. After a short staging period, the mesenteric pedicle is divided and the bowel segment is transferred up to the neck based on its new blood supply. The objectives of this study were to develop an animal model for prefabricating independently revascularized jejunal segments using the rectus abdominis muscle flap and to determine the minimal time required for independent bowel survival. Twenty-four mature (500-g to 700-g) rats were divided into six experimental groups of four animals each. In each animal, a 1.5-cm segment of proximal jejunum was isolated on two jejunal arteries and wrapped with a superior pedicled rectus abdominis muscle flap. To determine the time of neovascular takeover, the mesenteric pedicles were ligated on postoperative day 2 (group I), day 3 (group II), day 4 (group III), day 5 (group IV), day 6 (group V), and day 7 (group VI). At the time of pedicle ligation, the composite flap was transposed to a new subcutaneous position. Viability of bowel was assessed according to gross appearance and histologic examination 48 hours after transfer. Complete survival of revascularized jejunum in 11 of 12 animals was obtained after pedicle ligation on postoperative day 5 and beyond (p < 0.0001, Fisher's exact test). These bowel segments demonstrated luminal patency, intact pink mucosa, mucus production, and visible peristalsis. Histologic examination showed healthy intestinal epithelium and tissue integration along the serosa-muscle interphase. In contrast, pedicle ligation on day 4 and earlier resulted in varying degrees of bowel necrosis characterized by flattening or ulceration of mucosa (day 4), mucosal sloughing and necrosis of mural musculature (day 3), and complete loss of bowel architecture with lumen obliteration (day 2). These findings suggest that jejunal segments may be independently revascularized with the rectus abdominis muscle flap in the rat model. Complete survival and gross normal bowel function may be obtained without mesenteric perfusion after a minimal time of 5 days.

Control of leukocyte rolling velocity in TNF-alpha-induced inflammation by LFA-1 and Mac-1

Previously it was shown that beta(2)-integrins are necessary for slow leukocyte rolling in inflamed venules. In this study, mice that are deficient for either one of the beta(2)-integrins, alpha(L)beta(2) (LFA-1) or alpha(M)beta(2) (Mac-1), were used to determine which of the beta(2)-integrins are responsible for slowing rolling leukocytes. The cremaster muscles of these mice were treated with tumor necrosis factor-alpha and prepared for intravital microscopy. The average rolling velocities in venules were elevated in LFA-1(-/-) mice (11.0 +/- 0.7 microm/s) and Mac-1(-/-) mice (10.1 +/- 1.1 microm/s) compared to wild-type mice (4.8 +/- 0.3 microm/s; P <.05), but were lower than in CD18(-/-) mice (28.5 +/- 2.1 microm/s). When both LFA-1 and Mac-1 were absent or blocked, rolling velocity became dependent on shear rate and approached that of CD18(-/-) mice. In addition, leukocyte adhesion efficiency was decreased in LFA-1(-/-) mice to near CD18(-/-) levels, but decreased only slightly in Mac-1(-/-) mice. Thus, both LFA-1 and Mac-1 contribute to slowing down rolling leukocytes, although LFA-1 is more important than Mac-1 in efficiently inducing firm adhesion.