Studying the relationship between brain-derived neurotrophic factor (BDNF) and post-stroke depression (PSD) may help determine the potential for depression in stroke patients at the earliest stage possible. Current research has identified changes in BDNF levels in PSD patients. Thus, this article was intended as a review of evidence with respect to changes in the expression of BDNF in patients with PSD by integrating extant findings. We conducted a search in the electronic databases PubMed, EMBASE, and PsycINFO (all records from January 1, 2000, through October 20, 2020) using keywords: “brain-derived neurotrophic factor OR BDNF,” “post-stroke depression OR PSD,” “expression level,” “association,” and “relationship.” Returned articles were considered for inclusion in this review if they were empirical studies investigating the association between BDNF expression and PSD. Seven original papers were selected for review and revealed inconsistent findings. Five out of seven studies reported a significant decrease in BDNF levels in PSD patients at a certain stage (most likely the early stage) of stroke after admission, whereas the other two showed contrasting findings. Overall, this review reveals associations between changes in serum BDNF levels and depression following stroke. Whether serum BDNF levels, especially in the early phase of stroke, can be a potentially effective biomarker for predicting the risk of subsequent PSD development is still open to debate.
Background Lymphedema is a frequent complication after surgical treatments of cancer involving lymph node resection. However, research of lymphedema treatments, such as vascularized lymph node transfer, is limited by the absence of an adequate lymphedema animal model. The purpose of this study was to determine if we could create sustainable lower limb lymphedema in the rat with a combination of inguinal lymphadenectomy, circumferential skin and subcutaneous tissue excision, and radiotherapy. Methods Inguinal lymphadenectomies were completed in 15 Sprague-Dawley rats. In cohort A, 5 rats received a 0.5- to 1.0-cm wide excision of proximal thigh skin and subcutaneous tissue. This step was omitted for the 10 rats in cohort B. Cohort A then received a single radiation dose of 22.7 Gy, whereas cohort B received a cumulative dose of 40.5 Gy. Bioimpedance measurements were obtained monthly to assess lymphedema progression, and lymphatic drainage at 6 months postradiation was visualized via indocyanine green (ICG) lymphangiography. Results Two rats in cohort A developed visually appreciable lymphedema in the lower limb, with bioimpedance ratios of 0.684 and 0.542 and ankle circumference ratios of 1.294 and 1.061, respectively, consistent with lymphedema. Furthermore, ICG lymphangiography in these cohort A rats revealed impaired lower limb lymphatic drainage. In cohort B, however, bioimpedance and circumference ratios, and ICG lymphangiography, did not reveal abnormal lymphatic drainage. Conclusions The combination of inguinal lymphadenectomy, circumferential skin and subcutaneous tissue excision, and radiotherapy can successfully create lower limb lymphedema in the rat. When soft tissue excision is omitted, lymphedema does not develop.
Background Successful microvascular anastomosis depends on sutures that adequately oppose both cut vessel edges. Trainees tend to take oversized or uneven bite. To improve early microsurgical skill acquisition using the rat, this study tests the belief that such bites compromise early patency by applying exaggerated bites to end-to-end arterial anastomoses. Methods Twelve Sprague–Dawley rats were randomly assigned to one of the four bite techniques to be applied to both femoral arteries (mean diameter, 0.8 mm). Large (L) and standard (S) bites measured 1.0 and 0.2 mm from the edge, respectively. Eight simple interrupted anastomoses were performed per bite technique, each labeled according to every proximal end bite size, followed by every distal end bite size: LL, LS, SL, and SS. Anastomosis time and blood flow rates were recorded and analyzed statistically. After sacrifice 5 days postoperation, anastomosis sections of each technique were examined histologically. Results All 24 anastomoses (100%) maintained patency for 5 days. There was no statistical difference between all postoperative blood flow measurements at any given time. Anastomosis times using LL, LS, SL, and SS bite techniques were 41.6, 33.2, 34.8, and 25.5 minutes, respectively. Anastomosis time for the traditional bite technique (SS) was significantly shorter than all other bite techniques (p< 0.05). Histological examination of the harvested segments from each group revealed similar pathophysiological features. Conclusion Oversized bites (1 mm), placed symmetrically and asymmetrically across the anastomosis, do not affect early patency in the rat femoral artery. A reduced reliance on conventional guidelines for suture bites appears acceptable during microarterial anastomoses if the goal is vessel patency. However, we believe clinical competence involves the ability to place small, even bites consistently and uniformly. During microsurgical training, the occasional large bite need not be replaced; however, the trainee should be encouraged to take standard bites.
Background: It was reported that high-intensity focused ultrasound (HIFU) of cesarean scar pregnancy (CSP) can locally inactivate pregnancy tissue. Uterine artery embolization (UAE) can achieve good results for CSP too. To investigate the clinical efficacy and safety of HIFU and UAE in the treatment of cesarean scar pregnancy (CSP), we conducted this research.Methods: Multiple databases were used to search for relevant studies and articles related to HIFU, UAE, and CSP. The selected literature were retrospectively evaluated using Review Manager 5.2. In addition, forest plots, sensitivity analysis, and bias analysis were conducted for the included literature.Results: Finally, 8 related studies met the inclusion criteria. There were no significant differences in postoperative adverse reactions and hospitalization time between the HIFU group and the UAE group. However, the normalization time of serum beta human chorionic gonadotropin (B-HCG) in the HIFU group was higher than that in the UAE group [MD =1.16, 95% confidence interval (CI), 0.09, 2.22, P=0.03, I 2 =93%], and the hospitalization cost in the HIFU group was significantly lower than that in the UAE group (MD =−8.81, 95% CI, −12.64, −4.97, P<0.00001, I 2 =99%).Discussion: Our results show that HIFU and UAE have the same curative effect in the treatment of CSP, but HIFU has lower cost and fewer complications. These results supported that compared with UAE, HIFU is a better choice for CSP patients with long gestational age, large gestational sac diameter and high HCG level.
Research shows barriers to PA exist due to varieties of intrinsic and extrinsic factors. The COVID-19 pandemic has further confounded public engagement in PA. Homebased body weight exercise training may be a potential intervention to remedy these barriers. Fitness professionals can educate their clients in a remote setting using the information related to home-based exercise programming and body weight exercise options presented in this article, supplemental information, and freely accessible resources also provided. Home-based video personal training can be implemented to increase the interaction between fitness professionals and clients.
Background Laboratory microsurgery training using invivo rat models is essential for clinical operation. However, challenges existin a structured training course when students transition from a non-livingmodel exercise to a living one. In the present article, we first demonstratethis steep learning curve in early-stage microsurgery training. We then proposethe potential solution of using various sizes of sutures for different trainingpurposes. Methods Twoseparate preliminary studies were included. First, we reviewed the records of25 students enrolled in our basic microsurgery training course. Each studentcompleted exercises in a non-living model before graduating to a live animalmodel where their performance on end-to-end arterial and venous anastomoses wasevaluated. Second, we examined the feasibility of different suture sizes in amillimeter microvascular anastomosis. Four groups of identical procedures inrat femoral artery were completed using sutures from 8-0 to 11-0. Patency rateand mean blood flow at 60 min post-op were measured and compared. Results Thirty-minute patency rates for firstarterial and venous anastomoses were 18/25 and 14/25. Those students who hadnon-patent anastomoses spent significantly longer time than those who hadpatent ones ( p <.05). For varioussuture sizes, all groups achieved a 100% patency rate. No significantdifferences were found between the mean blood flow volume at 60 min post-op ( p >.05). Conclusions Steep learning curve existed in the early-stagemicrosurgery training when transitioning from non-living to living exercisemodels. The feasibility of using various suture sizes in millimeter anastomosismay be a potential solution for instructors to ease this steep learning curve. Level of Evidence: Not gradable
PURPOSE:The rat has long been regarded as the standard microsurgery research and training model. Anastomotic patency and thrombosis has since been a central focus in related studies. However, extensive literature indicates that rat microvessels are resilient and can remain patent despite clinically unacceptable technical errors. A design flaw in these studies is that they were oftentimes created by one or two experienced surgeons in a precise and standardized manner with only one technical error committed, which is not a typical representation of the clinical world. Therefore, this study aimed to investigate the effects of multiple errors committed by numerous surgeons on rat microvascular patency in an observational manner.
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