OBJECTIVETo explore the venous angio-architecture of deep inferior epigastric artery perforator ( DIEP) flap with computed tomography angiography( CTA) and the application of venous angio-architecture in flap thinning of DIEP flap.

METHODSFrom February 2012 to August 2014, preoperative CTA examination of venous system of DIEP flap was performed in 11 patients to study the course, the branch and the anastomosis of the deep inferior epigastric veins, the superficial inferior epigastric veins and the perforator veins. The flap thinning of DIEP flap was based on the finding of the abdominal venous system.

RESULTSThe CTA images were obtained including 22 deep inferior epigastric veins, 22 superficial inferior epigastric veins and 22 perforator veins. The distance between the superficial inferior epigastric vein and abdominal midline was 3.30 cm to 5.77 cm in the zone 3 cm above umbilicus and in the zone 15 cm below umbilicus. The superficial inferior epigastric vein was 0.29 to 0.39 in depth ratio. The superficial inferior epigastric veins were the main drainage vessels of superficial abdominal wall according to the CTA images. They were anastomosed with the deep inferior epigastric veins through perforator veins. The 11 DIEP flaps were thinned based on the structure of the superficial inferior epigastric veins and all flaps had no drainage disturbance.

CONCLUSIONSPreoperative CTA images can display the venous angio-architecture of deep inferior epigastric artery perforator flap. The superficial inferior epigastric vein can be utilized as reference architecture to guide flap thinning of DIEP flap.

Abdomen ; blood supply ; Abdominal Wall ; blood supply ; Angiography ; methods ; Epigastric Arteries ; anatomy & histology ; diagnostic imaging ; Humans ; Perforator Flap ; blood supply ; Phlebography ; methods ; Tomography, X-Ray Computed ; Veins ; anatomy & histology

Tamarindus indica Linn. tamarinds,belonging to the family Caesalpiniaceae,is a kind of large subtropical ever?green tree. Every part of tamarind has rich nutritional value and broad usage in traditional medicine since ancient times. Recent studies suggest extraction of leaves,flesh,seeds,and velamina of T. indica Linn. have numerous biological activities such as anti-microbial, anti-inflammatory,detoxification,analgesic,antidiabetic and anti-hyperlipidemiactions. A great interest has been seen in various sec?ondary metabolites isolated and identified from chemical components of T. indica Linn. In this review article,we summarize recent achievement in chemical components and biological activities of T. indica Linn.,aiming to provide a useful reference for further study and exploitation of T. indica Linn..

Objective: To explore flap thinning based on the study of the arterial structure and blood perfusion of the deep inferior epigastric artery perforator (DIEP) flap using computed tomography (CT) angiography. Methods: Clinical imaging study: Preoperative CT angiography was performed in 15 patients with DIEP flap reconstruction to investigate the vascular structure of arterial perforator. Cadaveric imaging study: 10 abdominal specimens harvested from fresh cadavers were cannulated with trocar and injected with contrast medium in the deep inferior epigastric artery perforator. During the perfusion of the contrast medium in the flap, the flap was scanned by three-dimensional CT. The CT data was then sent to CT workstation and the images were processed and reformatted to study the vascular structure of arterial perforators and the blood perfusion. Results: 75 artery perforators in clinical study and 40 artery perforators in cadaveric study were chosen and analyzed. The major deep inferior epigastric artery perforators run directly across the deep layer of adipose tissue without bifurcating beneath the Scarpa′s fascia. Above the Scarpa′s fascia, the artery perforators bifurcate and ultimately terminate in the subdermal vascular plexus. Blood perfusion mode: The subdermal vascular plexus served as the only pathway for blood perfusion between perforasomes. There are two different pathways for blood perfusion in the perforasome: the subdermal plexus and the existing vascular structure of perforator. Conclusions Based on the vascular structure of arterial perforator and blood perfusion of the DIEP flap, thinning of the DIEP flap under the Scarpa′s fascia is safe while thinning above the Scarpa′s fascia should performed according to the blood supply zone of the DIEP flap.

Objective: To explore the establishment and application of three-dimensional model of deep inferior epigastric artery perforator flap based on computed tomography angiography (CTA). Methods: Six patients with breast absence after modified radical mastectomy because of breast cancer, 5 patients with congenital absence of vagina, and 6 patients with Paget′s disease of penis and scrotum were hospitalized in our unit from January 2012 to April 2017. The size of wounds after excision of the lesion or that of flaps needed for reconstruction ranged from 17 cm×5 cm to 25 cm×9 cm. Abdominal CTA was performed before the surgery, and data of CTA were sent to CT workstation to make three-dimensional model of deep inferior epigastric artery perforator flap according to shape and size of wound. The number, course, and location of deep inferior epigastric artery, vein, and their perforators, and the superficial inferior epigastric vein were observed in the above-mentioned three-dimensional model. The rectangular plane coordinate system with the umbilicus as the origin was established to locate and observe course and type of the largest deep inferior epigastric artery perforator in left and right side. Deep inferior epigastric artery perforator flaps were designed and deep inferior epigastric artery perforators etc. were marked according to three-dimensional models of the flaps before the surgery. The condition observed in three-dimensional model of the flap was compared with the clinical condition in the surgery of free transverse bilateral deep inferior epigastric artery perforator flap transplantation for breast reconstruction and longitudinal pedicled thinned unilateral deep inferior epigastric artery perforator flap transplantation for vagina reconstruction and wound repair of Paget′s disease of penis or scrotum. The size of flap ranged from 17 cm×6 cm to 25 cm×10 cm. Results: Seventeen three-dimensional models of deep inferior epigastric artery perforator flaps were established, including 6 bilateral models and 11 unilateral models. Seventy-two reliable deep inferior epigastric artery perforators were observed in the three-dimensional model with 3.2±0.7 in the right and 3.1±0.8 in the left. The locations of the largest deep inferior epigastric artery perforators in the right and left were [(-3.2±1.4) cm, (-1.0±0.7) cm] and [(4.0±1.2) cm, (-1.2±1.1) cm] respectively. Fourteen largest deep inferior epigastric artery perforators coursed directly and nine coursed tortuously in the rectus muscle. Twenty-three superficial inferior epigastric veins were detected in the three-dimensional models of the flaps. The number, location, and course of deep inferior epigastric artery and vein and superficial inferior epigastric vein observed in the three-dimensional model of deep inferior epigastric artery perforator flap were in accordance with the condition observed in the surgery. Seventy reliable deep inferior epigastric artery perforators were detected in the surgery, and the other 2 perforators were unclear due to bleeding. Course of these perforators were in accordance with the condition observed in the three-dimensional model. Deep inferior epigastric artery perforator flaps of all patients survived well with no complication except that 1 patient suffered from delayed healing of wound in perineum. During follow-up of 1 to 12 months, all flaps survived with good shape and texture. Conclusions The three-dimensional model of deep inferior epigastric artery perforator flap based on CTA can be established easily and can provide information of number, location, and course of deep inferior epigastric artery, vein, and their perforators, and superficial inferior epigastric vein to guide preoperative design and intraoperative dissection of the flap effectively.

Objective To prepare rat models of liver stagnation syndrome constipation-type irritable bowel syndrome(IBS-C)using single and multi-factor modeling method with different indicators,to provide ideal experimental animal models of IBS-C.Methods Forty-two SD rats were divided randomly into blank(Normal),cold-water gavage(Cold),restraint(Restrain),tail-clamping(Tail),cold-water gavage + restraint(C + R),and cold-water gavage + tail-clamping groups(C + T).Body weight,food intake,water intake,and survival status,as well as open-field behavior,fecal Bristol score,visceral sensitivity,and small intestine propulsion were observed in each group during the modeling period.Pathological changes in the rat colon were observed by hematoxylin and eosin staining,and the serum and colon contents of 5-hydroxytryptamine(5-HT)and vasoactive intestinal peptide(VIP)were determined by enzyme-linked immunosorbent assay.Results The body weight in each group decreased after modeling(P<0.05,P<0.01),the food and water intakes decreased,and serum 5-HT levels increased.The number of fecal particles and Bristol score decreased while the colon 5-HT content increased in the Cold group(P<0.05,P<0.01);the total distance and average speed of the restraint group in the open field decreased(P<0.01);the preference for sugar water in the Tail group decreased(P<0.01);the preference for sugar water,total open-field distance,small intestine propulsion rate,defecation particles,and Bristol score all decreased,while the colon 5-HT content increased and the VIP content decreased in the C + T group(P<0.05,P<0.01);and the total distance,average speed,and VIP content in the colon decreased in the C + R group(P<0.05).Except for the Tail group,all the model groups showed visceral hypersensitivity(P<0.05,P<0.01)compared to the blank group at various pressure values on days 7 and 14 of modeling.Pathological observations showed no significant inflammatory cell infiltration or pathological changes in any of the model groups.Conclusions The combination of ice-water gastric lavage and tail clamping can be used to establish a rat model of liver depression syndrome in IBS-C.This may be the best of the five tested method,and the resulting model may lay the foundation for further systematic and in-depth research into the mechanism of traditional Chinese medicine in preventing and treating IBS-C.

Alzheimer's disease (AD) is an irreversible neurodegenerative disorder that damages patients' memory and cognitive abilities. Therefore, the diagnosis of AD holds significant importance. The interactions between regions of interest (ROIs) in the brain often involve multiple areas collaborating in a nonlinear manner. Leveraging these nonlinear higher-order interaction features to their fullest potential contributes to enhancing the accuracy of AD diagnosis. To address this, a framework combining nonlinear higher-order feature extraction and three-dimensional (3D) hypergraph neural networks is proposed for computer-assisted diagnosis of AD. First, a support vector machine regression model based on the radial basis function kernel was trained on ROI data to obtain a base estimator. Then, a recursive feature elimination algorithm based on the base estimator was applied to extract nonlinear higher-order features from functional magnetic resonance imaging (fMRI) data. These features were subsequently constructed into a hypergraph, leveraging the complex interactions captured in the data. Finally, a four-dimensional (4D) spatiotemporal hypergraph convolutional neural network model was constructed based on the fMRI data for classification. Experimental results on the Alzheimer's Disease Neuroimaging Initiative (ADNI) database demonstrated that the proposed framework outperformed the Hyper Graph Convolutional Network (HyperGCN) framework by 8% and traditional two-dimensional (2D) linear feature extraction methods by 12% in the AD/normal control (NC) classification task. In conclusion, this framework demonstrates an improvement in AD classification compared to mainstream deep learning methods, providing valuable evidence for computer-assisted diagnosis of AD.
Humans ; Alzheimer Disease/diagnostic imaging* ; Neural Networks, Computer ; Magnetic Resonance Imaging/methods* ; Neuroimaging/methods* ; Diagnosis, Computer-Assisted ; Brain ; Cognitive Dysfunction