To evaluate the effect of intercellular adhesiveness molecule-1 (ICAM-1), E-selectin on hepatic microcirculation in acute cholangitis. The Changes of hepatic tissue, content of blood flow and Evan′s blue (EB) in hepatic tissue in acute cholangitis were determinated. Results: The number of PMN in hepatic tissue and sinusin increased, degenaration and necrosis of the hepatic cells and hepatic sinusoidal endothelial cells and content of blood flow in liver were reduced, and content of EB in hepatic tissue increased remarkbly in the rats with acute cholangitis. Pretreatment of anti ICAM-1 and E-selectin mAb reduced the damage of hepatic microcirculation. Conclusion: ICAM-1 and E-selectin may play an important role in damage to hepatic microcirculation in acute cholangitis.
Objective To introduce the mechanisms of graft injuries after small-for-size liver transplantation and protective measures. Methods Recently relevant literatures were reviewed and summarized. Results Portal hypertension after small-for-size liver transplantation induces mechanical injuries as well as hepatic sinusoidal microcirculation disturbance and cytokines release, which worsened the injuries. Decrease portal pressure by surgery or drug could improve grafts function. ConclusionComprehending the mechanisms of graft injuries will contribute a lot for the living donor liver transplantation.
The velocity of blood in vessels is an important indicator that reflects the microcirculatory status. The core of the measurement technology, which is based on spatiotemporal (ST) image, is to map the cell motion trace to the two-dimensional ST image, and transfer the measurement of flow velocity to the detection of trace orientation in ST image. This paper proposes a trace orientation measurement algorithm is based on Randomized Hough Transformation and projection transformation, and it is able to estimate trace orientation and flow velocity in noisy ST images. Experiments showed that the agreement between the results by manual and by the proposed algorithm reached over 90%.
The present study was to investigate the effects of infusing remifentanil-poly-caprolactone (REM-PCL) through the abdominal aorta on spinal cord ischemia reperfusion injury (SCIRI). The model of SCIRI was created by clamping the infrarenal aortic in thirty-six New Zealand white rabbits, which were randomly divided into sham group (group S), control group (group C), and REM-PCL group (group R) with 12 rabbits in each one. The spinal cord microcirculatory blood flow (SCMBF) and blood flow rate (BFR) were monitored before ischemia, 15 min, 30 min, 60 min and 120 min after reperfusion, respectively. Neurologic Function was evaluated before ischemia, 6h, 12h and 24h after reperfusion. The concentration of serum neuron-specific enolase (NSE), interleukin-lβ (IL-lβ) and interleukin-8 (IL-8) were monitored before ischemia, 45 min after ischemia, 30 min, 60 min, 6 h, 12 h and 24 h after reperfusion. The abnormal rate of motor neuron of spinal cord tissues and the level of superoxide dismutase (SOD), reactive oxygen species (ROS), glutathione peroxidase (GSH-PX), malondialdehyde (MDA), total anti-oxidation capacity (T-AOC) and mitochondrial swelling degree (MSD) in neural mitochondria were determined before ischemia, 45 min after clamping, 60 min and 120 min after reperfusion. As a result, the neural mitochondrial SOD, GSH-PX and T-AOC decreased while ROS, MDA, MSD, IL-lβ, IL-8 and NSE distinctly increased after clamping of the abdominal aorta as compared to the value before ischemia in group C (P < 0.01). Neurologic function scores recovered more rapidly in group R than those in group C during reperfusion (P < 0.01). The neural mitochondrial SOD, GSH-PX and T-AOC were distinctly higher while ROS, MDA, MSD, IL-lβ, IL-8 and NSE were distinctly lower in group R than those in group C (P < 0.01). The abnormal rate of motor neuron was significantly higher in group C during reperfusion than that in group R (P < 0.01). It has been shown that the intra-aortic REM-PCL infusion can alleviate SCIRI by inhibiting inflammatory response and improving mitochondrial anti-oxidation capacity.
The vessels in the microcirculation keep adjusting their structure to meet the functional requirements of the different tissues. A previously developed theoretical model can reproduce the process of vascular structural adaptation to help the study of the microcirculatory physiology. However, until now, such model lacks the appropriate methods for its parameter settings with subsequent limitation of further applications. This study proposed an improved quantum-behaved particle swarm optimization (QPSO) algorithm for setting the parameter values in this model. The optimization was performed on a real mesenteric microvascular network of rat. The results showed that the improved QPSO was superior to the standard particle swarm optimization, the standard QPSO and the previously reported Downhill algorithm. We conclude that the improved QPSO leads to a better agreement between mathematical simulation and animal experiment, rendering the model more reliable in future physiological studies.
ObjectiveTo summarize the research progress of tibial transverse transport in the treatment of diabetic foot.MethodsThe domestic and foreign literature on the tibial transverse transport for diabetic foot in recent years was summarized, and the advantages and disadvantages of the technique were analyzed.ResultsThe tibial transverse transport was an innovation based on Ilizarov technique. At present, the treatment of diabetic foot by the tibial transverse transport is in the initial stage and has achieved good results, but there are also problems such as ulcer recurrence and re-fracture. And its biological mechanism to promote tissue regeneration, clinical technical points (such as the selection of incision and bone window size), the technical parameters of postoperative removal program, and the postoperative effectiveness are still in dispute and exploration. More clinical studies and practices are needed in the future to develop a standard protocol for this technique.ConclusionTibial transverse transport is a hot spot for microcirculation reconstruction of lower extremity. Significant progress has been made in the treatment of diabetic foot, which provides a new direction for limb salvage treatment. However, the technique is not mature, there are still many disputes and difficulties to be further studied clearly.
ObjectiveTo evaluate the treatment results of Ilizarov microcirculation reconstruction technique for chronic wounds in the post-traumatic ischemia limbs.MethodsBetween January 2016 and July 2019, 7 cases of chronic wounds in the post-traumatic ischemia limbs were treated. There were 5 males and 2 females, with an average age of 42.4 years (range, 29-66 years). The duration of the wound ranged from 1 month to 2 years (mean, 7.7 months). The wounds located in the leg (3 cases) or in the foot and ankle (4 cases). The wound sizes ranged from 4.0 cm×2.2 cm to 12.0 cm×7.1 cm. There were 1 case of tibial varus, 3 cases of equinovarus, 1 case of scleroderma, and 2 cases of Volkmann’s ischemic contracture. After debridement, external fixators were used for tibial transverse transport, or correction of tibial varus and correction of equinovarus.ResultsAll patients were followed up 8-20 months, with an average of 13 months. The infection of wound surface was all controlled in 7 cases and the granulation tissue grew well; the wound surface healed directly in 5 cases and healed after skin grafting in 2 cases, and the wound healing time was 1-3 months (mean, 1.7 months). During the follow-up, there was no recurrence of the wound. Six cases of limb deformity were corrected.ConclusionFor the chronic wounds in the post-traumatic ischemia limbs, Ilizarov microcirculation reconstruction technique can effectively improve local circulation and facilitate the fresh granule growth and wound healing.
ObjectiveTo explore the biological mechanisms of tibial transverse transport (TTT) for promoting microcirculation and tissue repair.MethodsThe clinical application and animal model study of TTT were reviewed.ResultsThe possible biological mechanisms of TTT for promoting microvascular network formation and tissue repair: ① Tibial corticotomy reduces intramedullary pressure and improves microcirculation; ② Tension stress stimulation promotes microvascular regeneration and accelerates the formation of new “transcortical vessels” network; ③ Systemic mobilization of stem cells, mediating local inflammation, etc.ConclusionTTT has been clinically proven to be effective for the management of lower limb ischemia and diabetic foot ulcers. The surgical procedure is relatively easy with little adverse effects on bone structures. The TTT has good application prospects despite the biological mechanisms of which still need further exploration.
Coronary microcirculation dysfunction (CMVD) is an important risk factor for the prognosis of re-perfused ischemic heart. Recent studies showed that the evaluation of CMVD has significant impact on both the early diagnosis of heart diseases relevant to blood supply and prognosis after myocardial reperfusion. In this review, the definition of CMVD from the perspective of pathophysiology was clarified, the principles and features of the state-of-the-art imaging technologies for CMVD assessment were reviewed from the perspective of engineering and the further research direction was promoted.
ObjectiveTo evaluate the influence of sidestream dark field (SDF) imaging technology in laparoscopic anterior resection (LAR) of rectal cancer on postoperative anastomotic leakage. MethodsAccording to the inclusion and exclusion criteria, the patients diagnosed with rectal cancer and underwent LAR of rectal cancer in the Sichuan Provincial People’s Hospital from October 2017 to October 2021 were retrospectively analyzed and then were divided into the study group and the control group according to whether SDF imaging technology was used during the operation. The intraoperative and postoperative data, especially the postoperative anastomotic leakage, were analyzed. ResultsA total of 90 patients were involved in this study, including 40 patients in the study group and 50 patients in the control group. There were no statistical differences in the baseline data such as gender, age, boby mass index and so on between the two groups (P>0.05). Except that the incidence of anastomotic leakage in the study group was lower than that in the control group (P<0.05), there were no statistical differences in other indexes during and after operation between the two groups (P>0.05). The operation plans were changed in 8 patients of the study group. Except for the total vessel density (P=0.962), the microvascular flow index, perfusion vessel proportion, and perfusion vessel density in the last measurement of these 8 patients were higher than those in the first measurement (P<0.05). ConclusionFrom preliminary results of this study, real-time evaluation of intestinal microcirculation by SDF imaging technology can help surgeons evaluate microcirculation perfusion at the intestinal anastomosis and provide an important reference for surgical decision-making.