The influence of arachidonic acid metabolites on leukocyte activation and skeletal muscle injury after ischemia and reperfusion

Effects of n-3 polyunsaturated fatty acid supplementation on quadriceps weakness immediately after total knee arthroplasty: a pilot, randomized, open-label clinical trial

[Purpose] Severe quadriceps weakness immediately after total knee arthroplasty can be problematic. The n-3 long-chain polyunsaturated fatty acids have antioxidant and anti-inflammatory effects against ischemia-reperfusion injury, whereas n-6 long-chain polyunsaturated fatty acids exert pro-inflammatory effects, thereby promoting ischemia-reperfusion injury. [Participants and Methods] We explored the efficacy of preoperative n-3 long-chain polyunsaturated fatty acid supplementation against early quadriceps weakness among 20 patients scheduled for total knee arthroplasty (intervention group, n=10; control group, n=10). The intervention group received 645 mg of eicosapentaenoic acid) and 215 mg of docosahexaenoic acid daily for 30 days preoperatively. Serum eicosapentaenoic acid, docosahexaenoic acid, and arachidonic acid levels were measured preoperatively. We compared serum derivatives of reactive oxygen metabolites as oxidative stress biomarkers, knee circumference, thigh volume, knee pain during the quadriceps strength test, and quadriceps strength preoperatively and 4 days postoperatively to quantify the change. [Results] Preoperative n-3 long-chain polyunsaturated fatty acid supplementation significantly increased the (eicosapentaenoic acid+docosahexaenoic acid)/arachidonic acid ratio in the intervention group. A significantly lower increase in quadriceps weakness was exhibited in the intervention group than in the control group. However, changes in oxidative stress, knee/thigh swelling, and knee pain during strength testing did not significantly differ between the two groups. [Conclusion] Preoperative n-3 long-chain polyunsaturated fatty acid supplementation exhibited beneficial effects on quadriceps weakness immediately after total knee arthroplasty.

Association between Preoperative Long-Chain Polyunsaturated Fatty Acids and Oxidative Stress Immediately after Total Knee Arthroplasty: A Pilot Study

Quadriceps muscle atrophy following total knee arthroplasty (TKA) can be caused by tourniquet-induced ischemia–reperfusion (IR) injury, which is often accompanied by oxidative stress and inflammatory responses. n-3 long-chain polyunsaturated fatty acids (LCPUFAs), such as eicosapentaenoic acid (EPA) and docosahexaenoic acid (DHA), exert antioxidant and anti-inflammatory effects against IR injury, whereas n-6 LCPUFAs, particularly arachidonic acid (AA), exhibit pro-inflammatory effects and promote IR injury. This study aimed to examine whether preoperative serum EPA + DHA levels and the (EPA + DHA)/AA ratio are associated with oxidative stress immediately after TKA. Fourteen eligible patients with knee osteoarthritis scheduled for unilateral TKA participated in this study. The levels of serum EPA, DHA, and AA were measured immediately before surgery. Derivatives of reactive oxygen metabolites (d-ROMs) were used as biomarkers for oxidative stress. The preoperative serum EPA + DHA levels and the (EPA + DHA)/AA ratio were found to be significantly negatively correlated with the serum d-ROM levels at 96 h after surgery, and the rate of increase in serum d-ROM levels between baseline and 96 h postoperatively. This study suggested the preoperative serum EPA + DHA levels and the (EPA + DHA)/AA ratio can be negatively associated with oxidative stress immediately after TKA.

Research progress in the pathogenic mechanisms and imaging of severe frostbite

PURPOSE

This article reviews the pathological mechanisms and progress of imaging of severe frostbite to assist in the search for targets for clinical diagnosis and treatment of severe frostbite. This review also aims to provide strong evidence for clinical diagnosis and treatment of deep frostbite.

METHODS

The review was based on the summary and analysis of the existing literature, and explored the pathological mechanism of deep frostbite and the advantages and disadvantages of imaging diagnostic methods.

RESULTS

According to the depth of tissue involvement, frostbite is divided into 4 levels. Severe frostbite includes Grade 3 and Grade 4 frostbite. Clinical performance evaluation and imaging diagnostic research have always been the mainstream of severe frostbite diagnosis. Imaging methods focus on vascular patency and tissue vitality. This article introduces angiography, SETCT/CT and MRA, and we summarize the advantages and disadvantages of these imaging methods. We recommend corresponding imaging modalities according to the state of frostbite patients.

CONCLUSIONS

Imaging examination, especially angiography and bone scans, provide useful information for determining the diagnosis and prognosis of severe frostbite. In order to obtain a good clinical prognosis, clinicians should first perform SPECT/CT. MRA does not burden the patient's body, but the balance between cost and benefit must be considered. Angiography provides a good feedback on the changes in blood vessel status before and after treatment, which is helpful for discovering the response of limbs to treatment.

Biopolymeric Modification of Superoxide Dismutase (mPEG-SOD) to Prevent Muscular Ischemia-Reperfusion Damage

The efficacy of preventing ischemia-reperfusion damage by employing native or modified (mPEG-SOD) superoxide dismutase in an experimental animal model of acute ischemia of the left hindlimb was tested. Four hours and thirty minutes complete warm ischemia was induced in the left hindlimb of 43 Wistar rats, by clamping the femoral artery and monitoring its efficacy with Laser Doppler flowmetry. After ten days, a significative difference (p=0.004) of the survival leg rate was found in the group treated with mPEG-SOD (86.6%) compared with the control group (30%). Histomorphological and ultrastructural analysis were performed at different time intervals confirming what the clinical course had already pointed out. These results show that SOD in its modified form, despite the lower dosage, can provide good protection against ischemia/reperfusion injury of muscles.

Lower Limb Neutrophil Oxygen Radical Production is Increased in Venous Hypertension

Objective:

To investigate neutrophil free radical production in patients with venous hypertension.

Patients:

Thirteen legs in patients with venous ulceration were compared with seven legs in patients suffering from lipodermatosclerosis (LDS) only and nine normal controls.

Design:

Leg and arm venous blood samples were obtained from each patient after a period of 30 min of leg dependency followed by elevation to the horizontal for a further 5 min. Neutrophils were isolated and free radical production assessed by luminol-dependen t chemiluminescence following stimulation with the chemotactic peptide FMLP.

Results:

The ratio of leg to arm luminescence was significantly higher in patients with venous ulceration (median 1.61; 95% confidence interval (CI) 1.20–3.05; p=0.0002) and those with LDS (median 1.36; 95% CI 1.05–2.01; p=0.0036) when compared with the controls (median 0.97; 95% CI 0.70–1.12).

Conclusions:

Neutrophil free radical production is increased in the legs of patients with venous hypertension and may be implicated in the underlying pathogenesis of this disease.

PGF(2alpha), a prostanoid released by endothelial cells activated by hypoxia, is a chemoattractant candidate for neutrophil recruitment

Despite increasing evidence supporting the involvement of neutrophils in ischemic and postischemic damages, the mechanisms underlying the early recruitment of these cells are not completely understood. In this report, the effects of conditioned media from hypoxic endothelial cells on neutrophil chemotaxis were investigated by biochemical and morphological studies. We showed that conditioned media collected from several endothelial cell origins submitted to hypoxia as well as ischemic rat liver perfusion liquids have a chemotactic activity for neutrophils. The role of various chemoattractant molecules like HETEs, platelet-activating factor, and cytokines such as interleukin-8 and interleukin-1 was examined in the same model. Chemotactic peptide contribution was ruled out as boiled conditioned media still trigger chemotaxis. However, cell treatment with cyclooxygenase inhibitors, neutralization of PGF(2alpha) biological activity with polyclonal antibodies, and the neutrophil preincubation with a specific PGF(2alpha) antagonist, all dramatically inhibited neutrophil chemotaxis. A strong chemoattractant effect of pure exogenous PGF(2alpha) or of a synthetic analog was also observed. The major effect of PGF(2alpha) on neutrophil chemotaxis was confirmed ex vivo in a rat liver perfusion ischemic model. These results suggest that PGF(2alpha), a prostanoid abundantly released by the endothelium of hypoxic or ischemic tissues, is a chemoattractant molecule that might be involved in the early recruitment of neutrophils in ischemic organs.

The effect of revascularisation of an ischaemic lower limb on leukotriene E4 production

It has previously been shown that leukotriene E4 production is increased both in acute and chronic lower limb ischaemia. The aim of this study was to measure the effect of revascularisation on leuktriene E4 excretion in chronic lower limb ischaemia. Revascularisation did not affect significantly on leukotriene E4 excretion (preop. 34.9+/-7.1 pg/mg creatinine, postop. 24.5+/-4.7 pg/mg creatinine, n=10, P<0.238). We suggest that the enhanced leukotriene E4 production continues after revascularisation which may have a therapeutical implication.

Indicators of oxidative injury and alterations of the cell membrane in the skeletal muscle of rats submitted to ischemia and reperfusion

BACKGROUND

Oxygen free radicals are considered to be important components involved in the physiopathological tissue alterations observed during ischemia and reperfusion. The objective of the present study was to investigate oxidative stress based on indicators of oxygen free radical activity and on the changes in behavior of the lipoprotein membrane (O-phosphoserine) in the skeletal muscle of rats.

MATERIAL AND METHODS

Twenty Wistar rats were divided into two groups of 10. One group was submitted to 3 h of total ischemia by applying a tourniquet to the hind limb and the contralateral hind limb was used as control. The second group was submitted to the same procedure and was reperfused for 45 min after 3 h of ischemia by removing the tourniquet, where the contralateral hind limb of the same animal was used as control. Muscle biopsies were taken after ischemia and reperfusion and the parameters indicating oxidative stress (reduced and oxidized glutathione, malondialdehyde, glutamine synthetase, protein carbonyl) and O-phosphoserine (OPS) alterations were analyzed.

RESULTS

The following results display control versus experimental hindlimbs groups obtained from the same animal. The skeletal muscle of rats submitted to total ischemia of 3 h duration showed increased OPS release (2.69 +/- 4.52 vs 8.03 +/- 7.20; n = 10; P = 0.024) and no change in reduced and oxidized glutathione, glutamine synthetase, protein carbonyl, or malondialdehyde. After 45 min of reperfusion there was an increase in oxidized glutathione levels (0.30 +/- 0.06 vs 0.39 +/- 0.09; n = 8; P = 0.02) and malondialdehyde levels (154. 78 +/- 26.13 vs 206.30 +/- 47.30; n = 9; P = 0.008), a fall in glutamine synthetase (21.80 +/- 3.61 vs 13.52 +/- 6.78; n = 9; P = 0. 004), and a return of OPS to levels close to the initial ones. No changes in reduced glutathione or protein carbonyl were observed in the two groups studied.

CONCLUSIONS

After a total ischemia duration of 3 h there were signs of damage to the phospholipid membrane of the rat skeletal muscle, as demonstrated by the elevation of OPS and the few or no oxidative changes in the cell. After 45 min of reperfusion, oxidative damage to the lipoprotein components of the cell membrane was observed, characterized by elevations of oxidized glutathione and malondialdehyde levels and a fall in glutamine synthetase levels.

Ridogrel, a dual thromboxane synthase inhibitor and receptor antagonist: anti-inflammatory profile in inflammatory bowel disease

BACKGROUND

Thromboxanes, prostaglandins, reactive oxygen metabolites and pro-inflammatory cytokines are produced in excess in inflammatory bowel disease. Preliminary reports suggest that ridogrel, a thromboxane synthesis inhibitor and receptor blocker, may have therapeutic benefits in ulcerative colitis.

AIMS

To investigate the anti-inflammatory profile of ridogrel.

METHODS

The effects of ridogrel on the production of eicosanoids, reactive oxygen metabolites and cytokines by cultured inflamed colorectal mucosal biopsies were made using ELISA and chemiluminescence, reactive oxygen metabolite generation in a cell-free system, and platelet activation using flow cytometry. The effects of oral ridogrel on mucosal release of eicosanoids in two patients with active ulcerative colitis were assessed using rectal dialysis.

RESULTS

Ridogrel significantly reduced the release of thromboxane B2, but not prostaglandin E2 or tumour necrosis factor-alpha, from biopsies (P < 0.01 for 10 microM ridogrel). Ridogrel showed no direct antioxidant activity but significantly reduced reactive oxygen metabolite production from cultured biopsies (P < 0.01 for 10 microM ridogrel). Platelet activation in vitro was inhibited by ridogrel (P </= 0.05 for >/= 10 microM ridogrel). Mean rectal mucosal thromboxane B2 release was reduced to 86% of pre-treatment levels in two patients treated with oral ridogrel.

CONCLUSIONS

Its inhibition of mucosal production of thromboxane B2, reactive oxygen metabolites, and of platelet activation, suggests that ridogrel could have a therapeutic role in inflammatory bowel disease.

Role of the thromboxane A2 receptor in the vasoactive response to ischemia-reperfusion injury

Neutrophil-endothelial adhesion in venules and progressive vasoconstriction in arterioles seem to be important microcirculatory events contributing to the low flow state associated with ischemia-reperfusion injury of skeletal muscle. Although the neutrophil CD-18 adherence function has been shown to be a prerequisite to the vasoconstrictive response, the vasoactive substances involved remain unknown. The purpose of this study was to evaluate the role of thromboxane A2 receptor in the arteriole vasoactive response to ischemia-reperfusion injury. An in vivo microscopy preparation of transilluminated gracilis muscle in male Wistar rats (175 +/- 9 g) (n = 12) was used for this experiment. Three experimental groups were evaluated in this study: (1) sham, flap raised, no ischemia (20 venules, 20 arterioles), (2) 4 hours of global ischemia only (19 venules, 22 arterioles), and (3) 4 hours of global ischemia + thromboxane A2 receptor antagonist (ONO-3708) (17 venules, 20 arterioles). ONO-3708 (5 mg/kg), a specific competitive antagonist of thromboxane A2 receptor, was infused at a rate of 0.04 ml/minute into the contralateral femoral vein 30 minutes before reperfusion. Mean arterial blood pressure was not changed at this dose of ONO-3708 (88 +/- 6 mmHg before infusion, 81 +/- 4 mmHg after infusion, n = 3). The number of leukocytes rolling and adherent to endothelium (15-sec observation) were counted in 100-microm venular segments, and arteriole diameters were measured at 5, 15, 30, 60, and 120 minutes of reperfusion. Leukocyte counts and arteriole diameters were analyzed with two-way factorial analysis of variance for repeated measures and Duncan's post hoc mean comparison. Statistical significance was indicated by a p < or = 0.05. The ischemia-reperfusion-induced vasoconstriction was significantly reduced by the thromboxane A2 receptor antagonist (ONO-3708). The mean arteriole diameters at 30, 60, and 120 minutes reperfusion were significantly greater in the treated animals than in the ischemia-reperfusion controls. Despite a significant increase in treated mean arteriole diameters, 30 percent of arterioles still demonstrated vasoconstriction. Neutrophil-endothelial adherence was not reduced by ONO-3708. Thromboxane A2 receptor blockade significantly reduces but does not eliminate ischemia-reperfusion-induced vasoconstriction in this model. This finding suggests that additional and perhaps more important vasoactive mediators contribute to vasoconstriction. Furthermore, thromboxane A2 receptor blockade has no effect on polymorphonuclear endothelial adherence.

The value and limitations of L-arginine infusion on glomerular and tubular function in the ischemic/reperfused kidney

PURPOSE

The nitric oxide precursor, L-arginine, has been shown to have a salutary effect on ischemia and reperfusion injury in skeletal muscle, skin, and intestines. Because L-arginine also increases renal blood flow, glomerular filtration, and urine flow in experimental animals with normal renal function, we postulated that L-arginine may also improve renal function after renal ischemic injury.

METHODS

Eighteen adult New Zealand white rabbits weighing 3 to 3.5 kg were subjected to bilateral normothermic renal ischemia by clamping both renal pedicles for 1 hour followed by 2 hours of reperfusion. The animals were randomized into three groups: group I (control, n = 6) received no additional treatment; group II (pretreatment, n = 6) received systemic intravenous L-arginine at 150 mg/kg over 20 minutes before induction of ischemia; group III (posttreatment, n = 6) received systemic intravenous L-arginine at 150 mg/kg over 20 minutes from the onset of reperfusion. Urine flow, creatinine clearance (CCR), fractional excretion of sodium (FENa), and renal failure index (RFI) were calculated before ischemia and 2 hours after reperfusion, by use of standard formulas. The changes of the various renal parameters were compared among the three groups.

RESULTS

Bilateral normothermic renal ischemia for 1 hour produced a significant deterioration of glomerular filtration as evidenced by a CCR decrease from 11.1 +/- 1.8 to 2.49 +/- 0.9 ml/min (p < 0.01), FENa increase from 2.9% +/- 1.0% to 20.8% +/- 1.5% (p < 0.01) and RFI increase from 4.0 +/- 1.3 to 28.8 +/- 2.6 (p < 0.01). Pretreatment with L-arginine (group II) minimized the deleterious effects caused by ischemia on glomerular filtration (CCR of 2.49 +/- 0.9 ml/min in group I vs 4.95 +/- 2.5 ml/min in group II, p < 0.05) and tubular function (FENa of 20.8% +/- 1.5% in group I vs 13.0% +/- 5.6% in group II and RFI of 28.8 +/- 2.6 in group I vs 18.6 +/- 8.0 in group II, p < 0.05). Infusion of L-arginine at the onset of reperfusion (group III) produced a significant diuretic effect (urine flow from 32.6 +/- 13.4 ml/hr in group I to 63.3 +/- 18.8 ml/hr in group III, p < 0.05) and also minimized glomerular damage (CCR from 2.49 +/- 0.9 ml/min in group I to 4.80 +/- 1.2 ml/min in group III, p < 0.05); however, no beneficial effect was observed on tubular function.

CONCLUSION

Induction of nitric oxide production by systemic L-arginine infusion can best preserve glomerular and tubular function in the ischemic/reperfused kidney when given before the ischemic insult.

Microvascular function in the peripheral vascular bed during ischaemia and oxygen-free perfusion

OBJECTIVES

To determine the influence of acute ischaemia and absence of leukocytes on the microvascular function and capillary permeability in skeletal muscle.

DESIGN

Prospective, open study.

SETTING

University Department of Vascular Surgery and Institute of Medical Physiology.

MATERIALS AND METHODS

Ten isolated cat gastrocnemius muscles were perfused with oxygen-free Ringer-albumin solution through the femoral artery. At 5 microliters bolus with 14.8 MBq 51Cr-EDTA was injected through a side branch into the femoral artery, and the response function was detected over the muscle by a scintillation detector connected to a spectrometer and a computer. The perfusion coefficient was measured directly at the venous outlet. The response function was analysed in accordance with non-compartmental black box kinetic principles to give perfusion rate, capillary extraction fraction and capillary diffusional permeability-surface area product (PdS). In separate experiments the molecular size and the free diffusion coefficient of 51Cr-EDTA in water at 37 degrees C were determined by a modified true transient diffusion method.

MAIN RESULTS

During perfusion the PdS-product increased as a function of flow rate, f, in accordance with the linear regression line PdS = 1.78 + 0.15 f between 5 to 60 ml/100 g/min. This permeative conductance was identical to that found previously in a similar experimental set up with oxygenated whole blood perfusion. During oxygen free perfusion the perfusion rate was a linear function of arterial perfusion pressure, and autoregulation of blood flow did not occur in response to variations of arterial perfusion pressures. The free diffusion coefficient in water at 37 degrees C for 51Cr-EDTA was 7.4 x 10(-6) cm2/s (n = 36), which corresponds to a Stokes-Einstein molecular radius, rSE, of 0.439 nm.

CONCLUSIONS

In spite of complete anoxia and absence of normal microcirculatory flow regulating mechanisms there is no sign of changes in capillary diffusional permeability for smaller hydrophilic molecules and functional membrane damage is not elicited in the absence of oxygen under these conditions.

Involvement of calpain in myonephropathic metabolic syndrome (MNMS)

Myonephropathic metabolic syndrome (MNMS) is a serious muscle reperfusion injury associated with acute renal failure. The exact pathogenesis of MNMS has not been fully elucidated, nor effective treatment, through the renal failure is thought to be a consequence of rhabdomyolysis. In the present study, the possible involvement of calpain in the lysis was investigated in a MNMS animal model employing a cell permeable calpain antagonist calpeptin. Male rabbits were subjected to bilateral hind leg ischaemia for 5 hours by clamping the distal aorta, followed by reperfusion for 3 hours. Blood pressure, plasma N-acethyl-beta-D-glucosaminidase (NAG) and the presence of myoglobinuria were serially determined. Blood pressure remained constant during the ischemic period but dropped by about 25% immediately after reperfusion. This was significantly attenuated by intraaortic administration of calpeptin. NAG gradually increased during ischemia and during reperfusion and this was also significantly reduced by calpeptin. Myoglobinuria appeared immediately after reperfusion, and was also attenuated by calpeptin. Calpeptin prevented lytic and degenerative changes of the hind leg muscles, determined by light and electron microscopy. Thus it is concluded that activation of calpain in skeletal muscle is an important etiologic factor of MNMS and that the occurrence of MNMS may be prevented by administration of a calpain antagonist.

Role of the leucocyte in the pathogenesis of vascular disease

The leucocyte plays a key role in the local and systemic tissue injury that results from peripheral arterial disease and chronic venous insufficiency. Despite the apparent dissimilarities between limb ischaemia and chronic venous ulceration, in both diseases macrovascular abnormalities lead to microvascular leucocyte trapping and activation. Activated leucocytes adhere to and damage adjacent endothelium by expressing adhesion molecules and releasing harmful moieties such as proteases and free radicals. Subsequent loss of endothelial integrity and the migration of activated leucocytes outwith the circulation leads to destruction of surrounding tissue. Leucocytes and their products are also involved in the systemic manifestations of ischaemia such as multiple organ failure and coagulopathy. An overview of leucocyte biology as it pertains to peripheral arterial and venous disease is presented. The opportunities for novel therapeutic interventions based on a better understanding of this biology are also discussed.

Allastair B. Karmody Award. Improved recovery of limb function with ATP/MgCl2 in an ischemic canine hind limb

The ability of a solution of low-vanadium-content (less than 1 ppm) adenosine triphosphate and magnesium chloride (ATP/MgCl2) versus normal saline to improve recovery of function and reduce necrosis of skeletal muscle after severe ischemia was investigated in an in situ autoperfused canine hind limb model. The study consisted of 12 dogs divided into 3 study groups: nonischemic control (NIL) (n = 7 limbs), ischemic (IL) (n = 7 limbs), and ischemic ATP/MgCl2-treated (IATP) (n = 7 limbs). In groups IL and IATP, the limb was reperfused for 3 hours following 4 hours of complete ischemia. In IATP limbs, 200 mumol/kg of ATP/MgCl2 was infused upon reperfusion of the limbs, whereas IL limbs received a similar volume of normal saline at the time of reperfusion. Function was determined by stimulating the deep peroneal nerve and anterior tibial muscle and measuring the resultant isometric twitch contractile force of paw dorsiflexion. Muscle necrosis was evaluated by photographic analysis of sectioned anterior tibial muscle stained with nitroblue tetrazolium dye. ATP/MgCl2 significantly increased functional recovery (p < 0.01) and significantly reduced skeletal muscle necrosis (p < 0.01). This study suggests that ATP/MgCl2 may be useful in reducing the clinical sequelae of severe limb ischemia and reperfusion.