Objective To observe the effect of limb negative pressure (LNP) on plasma endothelin (ET) and calcitonin gene-related peptide(CGRP) in dogs with arterial occlusive disease (AOD). Methods Fifteen dogs were divided into the treatment group(10 dogs) and the control group (5 dogs). By ligating the branch of femoral artery and inserting spiral wire into the artery of canine left posterior limb, we established a model of extensive arterial occlusive disease of the extremity. The limbs of treatment group were given LNP therapy. Plasma ET and CGRP were determined by radioimmunoassay (RIA). Results Ten days after LNP treatment plasma ET decreased and plasma CGRP increased significantly compared with controls(P

0.05). The upper extremity function in group C was better than that in group H (P

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BACKGROUND: Negative pressure of limbs is a convenient, safe and unwound way to treat peripheral arterial occlusion and to relieve pain.Prostaglandin E1 can directly rellax vascular smooth muscles and relieve pain on nerve.OBJECTIVE: To observe the effect of negative pressure of limbs immunologic reaction positive nerve fiber of prostaglandin E1 in sensory nerve fiber of central nervous system of dogs with peripheral arterial occlusion.DESIGN: Randomized controlled animalstudy.SETTING: Tumor Center of Zhujiang Hospital affiliated to Southern Medical University, the Third General Surgery of Xijing Hospital affiliated to the Fourth Military Medical University of Chinese PLA.MATERIALS: The experiment was carried out in the Animal Laboratory of Xijing Hospital affiliated to the Fourth Military Medical University of Chinese PLA from April 2003 to May 2004. A total of 17 healthy adult hybrid dogs were randomly divided into three groups: treatment group (n=10),non-treatment group (n=5) and normal control group (n=2), according to randomly digital table.METHODS: Ischemic models of left hindlimb were established in treatment group and non-treatment group. Fourteen days later, dogs in treatment group were given negative pressure (-12kPa) treatment for 15 minutes. The negative pressure was done once a day for 10 successive days.However, negative pressure was not done in non-treatment group. Animals were not interfered in normal control group.MAIN OUTCOME MEASURES: Twenty-four days later, dogs in each group were anesthetized and sacrificed. L1-L5 spinal cord and ganglia of dorsal root were selected and stained with immunohistochemical method to detect average giay value of immunologic reaction positive nerve fiber of prostaglandin E 1.RESULTS: A total of 17 dogs were involved in the final analysis. Average gray values of immunologic reaction positive nerve fiber of prostaglandin E1 in spinal cord were 75.23±4.3 in non-treatment group, 43.22±3.7 in treatment group and 22.00±5.8 in normal control group; average gray values of immunologic reaction positive nerve fiber of prostaglandin E1 in ganglia of dorsal root were 67.12±2.3, 40.08±3.8, 27.64±2.7, respectively.There was no significant difference among the three groups (P＜0.01).CONCLUSION: After onset of peripheral arterial occlusion, amount of immunologic reaction positive nerve fiber of prostaglandin E1 in spinal cord and ganglia of dorsal root of distal limbs is increased remarkably, and this may be a kink of auto-protective mechanism of organism. Negative pressure can relieve pain of limbs and decrease damaged-stimulated transmission of peripheral arterial occlusion.

Objective To investigate the effect of one stage arterialization of posterior tibial vein in treatment of peripheral arterial extensive occlusive disease.Methods Forty-six cases(56 limbs) of patients with peripheral arterial extensive occlusive disease were treated with one stage arterialization of posterior tibial vein.Results The symptom of pain disappeared right after one stage arterialization of posterior tibial vein in all patients.Skin temperature went up.The long-term results were satisfactory during the period of 3 months to 7 years follow-up,except two limbs were amputated and two limbs were reoperated with pedicle omental transplantation.Conclusion The technique of one stage arterialization of posterior tibial vein has advantages of one-stage procedure,various indications,little influence to venous return and rapid relief of ischemic symptoms.

Objective To observe the protective effects of le g negative pressure (NP) treatment on free radical injury from chronic ischemia of lower legs in canines. Methods By cutting off the branches of the femoral artery a nd inserting two pieces of spiral wires into the artery of canine posterior limb , we succeeded in duplicating the animal model of arterial occlusive disease in the lower extremity within two weeks. After treatment with LNP for 8 to 10 days, the blood samples of the ischemic legs were collected and the lipid peroxide (L PO) content as well as superoxide dismutase (SOD) activity were measured and ana lyzed, respectively. Results When the ischemic model was set up, PLO content inc reased while SOD activity decreased apparently, compared with those of normal [(35.594?10.753)vs. (24.800?9.011)?mol?L -1, P

BACKGROUND: Harmful stimuli induce increased production of calcitonin gene-related peptide(CGRP) in the spinal cord and dorsal root ganglion, causing also intense dilation of the microvessels. But it remains unknown whether vessel dilation and pain relief were accompanied by increased CGRP production when negative pressure is applied on the limbs for treatment of peripheral arterial occlusion diseases (PAOD).OBJECTIVE: To examine the changes of calcitonin gene-related peptide (GGRP) -immunoractive nerve fibers in the spinal cord and dorsal root ganglion in dogs with PAOD treated with negative pressure on the limbs.DESIGN: A randomized controlled retrospective study.SETTING: The department of general surgery of a military medical university.MATERIALS: This study was carried out at Xijing Hospital of the Fourth Military Medical University of Chinese PLA between January and August 2003. Seventeen adult male dogs weighing 12 - 18 kg, regardless of the gender, were selected.INTERVENTIONS: Seventeen dogs were randomly divided into three groups, namely the treatment group( n = 10), model group( n = 5), and the normal control group( n = 2). Posterior left leg ischemia was induced in dogs in the treatment and model groups, and those in the treatment group, but not the model group, were treated with negative limb pressure for 10 days 14days after model establishment. The spinal cord and dorsal ganglion at L1-5of these two groups were collected and stained immunohistochemically for observing the changes of GGRP-immunreactive nerve fibers. The dogs in the normal control group were also sampled in similar manner for immunohistochemical staining.MAIN OUTCOME MEASURES: Distribution of CGRP-immunoreactive nerve fibers in the spinal cord and dorsal ganglions of the three groups of dogs.RESULTS: In the dogs of the model group, GGRP-immunoreactive nerve fibers in the spinal cord and dorsal ganglions was significantly more numerous[ (75. 00 ±4. 30)%, (68.20 ± 2.60)% ] than those in the treatment and normal control groups[ (58. 20 ±5. 10)%, (52. 20 ±6.20)%; (37.00±4. 20)%, (34. 00 ± 1.40)%, P ＜ 0.01]. The positive nerve fibers were less strongly stained in the treatment group than those in the model group,but still stronger stained those in the normal control group, with significant difference between the three groups( P ＜ 0.01).CONCLUSION: Negative pressure on the limbs may attenuate the synthesis of CGRP-immunoreactive nerve fibers in the spinal cord and dorsal root ganglion and pain conduction following PAOD in dogs, so that harmful afferent stimuli are inhibited to relieve the pain in the limbs.

BACKGROUND: Peripheral arterial occlusive disease is a kind of commonly seen peripheral arterial disease. Its pathogenesy and process of pathological change are still unclear. Most of its clinical symptoms are very severe and therapeutic effect is not very good.OBJECTIVE: To observe the effect of limb negative pressure on substance P (SP)-positive-immunoreactive nerve fibers in the spinal cord and dorsal root ganglion of dogs with peripheral arterial occlusive disease.DESIGN: A randomized and controlled experimental trial.SETTING: Department of Anesthesiology, Shaanxi Provincial Corps Hospital, Chinese People's Armed Police Forces; Third Department of General Surgery, Xijing Hospital, Fourth Military Medical University of Chinese PLA.MATERIALS: The experiment was carried out in the animal laboratory,Xijing Hospital, Fourth Military Medical University of Chinese PLA between April 2003 and May 2004. Totally 17 healthy hybrid dogs, of clean degree, weighing 12 to 18 kg, were enrolled in the experiment. After being numbered, they were randomly divided into 3 groups: treated group (n=10),non-treated group (n=5) and normal control group (n=2).METHODS: Left hindlimb ischemia models were created on the animals in the treated group. Fourteen days after modeling, the affected limbs were treated by negative pressure, once a day, 15 minutes once. Perfusion was given 10 days after negative pressure treatment. Segment L1-L5 spinal cord and dorsal root ganglion were dissected respectively. Immunohistochemical staining was conducted to detect SP-positive- immunoreactive nerve fibers;In the non-treated group, treatment and detection of affected limbs were performed as those in the treated group, but negative pressure treatment was omitted. Ischemia model preparation and negative pressure treatment were not conducted in the normal control group, and only immunohistochemical staining was given.MAIN OUTCOME MEASURES: Changes in SP of sensory nerve fiber of spinal cord and dorsal root ganglion of dogs among 3 groups RESULTS: The dyeing of SP-positive-immunoactive nerve fibers of spinal cord and dorsal root ganglion at affected sides in non-treated group (mean gray scale value: 70.20 ±3.70,67.00 ±3.30 respectively )was significantly stronger than that in normal control group (20.00 ±2.80,35.50 ±6.40),while that in treated group (48.50±6.60,51.70±4.00) was weaker than that in non-treated group, but was still stronger than that in normal control group (all P ＜ 0.01).CONCLUSION: The number of SP-positive-immunoactive nerve fibers of spinal cord and dorsal root ganglion following peripheral arterial occlusive disease is increased significantly, which might be a kind of self-protective mechanism of organism. Limb negative pressure can reduce the importation of nocuous stimulation and release limb pain following arterial occlusive disease of limbs.

BACKGROUND: Limb negative pressure treatment can dilate limb vessels and improve terminal microcirculation. P-substance has strong vasodilative activity and is involved in the sensation of the skin to traumatic stimulation and the modulation of local vascular function.OBJECTIVE: To observe the influence of limb negative pressure on cutaneous P-substance immunoreactive nerve fibers in dogs with peripheral arterial occlusive disease.DESIGN: Randomized controlled experiment.SETTING: The 3rd Department of General Surgery, Xijing Hospital Affiliated to the Fourth Military Medical University of Chinese PLA.MATERIALS: This experiment was conducted at the Animal Laboratory of Xijing Hospital Affiliated to the Fourth Military Medical University of Chinese PLA between April 2003 and May 2004. Totally 17 healthy hybrid dogs were randomized into 3 groups, namely, treatment group of 10 dogs,non-treatment group of 5 dogs, and normal control group of 2 dogs.INTERVENTIONS: Negative pressure treatment on affected limbs: After superficial anesthesia, the left hindlimbs of the animals were put into the home-made negative cabin for negative pressure treatment with pressure designed as -12kPa, for 15 minutes, once a day for consecutive 10 days.[1] Treatment group: The left hindlimb ischemic model was prepared 14days before starting 10-day negative pressure treatment; after that the animals were subjected to infusion, the skin of the 2nd toe of affected limbs, as well as L1-5 spinal cords and dorsal root ganglion were obtained for immunohistochemical (IHC) staining. Meanwhile prostaglandin E1 immunoreactive nerve fibers were detected. [2] Non-treatment group: The animals received the same treatment and examination as treatment group except for negative pressure. [3] Normal control group: No ischemic model was prepared or negative pressure treatment was given except for IHC staining.MAIN OUTCOME MEASURES: Changes of cutaneous P-substance immunoreactive nerve fiber in each group. RESULTS: Totally 17 dogs entered the result analysis. Changes of cutaneous P-substance immunoreactive nerve fibers: The cutaneous P-substance immunoreactive nerve fibers in dermis connective tissues and layer vessels were reduced in treatment group compared to those in non-treatment group[(24.70±4.6), (43.49±6.3) μm/mm2, P ＜ 0.01], but still higher than those in control group [(18.10±5.4) μm/mm2, P ＜ 0.01]; dermis P-substance immunoreactive nerve fibers in non-treatment group were more than those in normal control group (P ＜ 0.01), with P-substance immunoreactive nerve fibers increased and deeply stained in dermis connective tissues and small vessels. In contrast, P-substance immunoreactive nerve fibers were not observed in the horny layer but in the dermis of the toe in normal control group.CONCLUSION: Results of the present study suggest that limb negative pressure can enhance P-substance release from cutaneous sensory nerve fibers.

Objective To discuss the diagnosis, selection of type of operation, and prevention and treatment of perioperative complications of abdominal aortic aneurysm (AAA). Methods The clinical data of 96 (patients) who underwent open surgical treatment of AAA, at Xijing Hospital between January, 1990 and June, 2004 were retrospectively reviewed. Among those, 82 patients with infrarenal AAA underwent aneurysmectomy and graft repair. 12 cases were treated by aneurysmal wrapping with Dacron. In 2 patients with suprarenal false AAA, lateral aneurysmectomy and repair was performed. Results The distance between renal artery and the neck of the aneurysm was determined by arteriography, MRA or EBT. Ninty-three patients were cured, and three cases died, with an operative mortality of 3.1%(3/96). The operative mortality was 50.0%(2/4) in 4 cases who had urgent operation because of ruptured AAA, while the operative mortality rate of the cases undergoing elective surgical repair was 1.1%(1/92, P