Increasing evidence indicates that stimulating hippocampal neurogenesis could provide novel avenues for the treatment of depression, and recent studies have shown that in vitro neurogenesis is enhanced by hypoxia. The aim of this study was to investigate the potential regulatory capacity of an intermittent hypobaric hypoxia (IH) regimen on hippocampal neurogenesis and its possible antidepressant-like effect. Here, we show that IH promotes the proliferation of endogenous neuroprogenitors leading to more newborn neurons in hippocampus in adult rats. Importantly, IH produces antidepressant-like effects in multiple animal models screening for antidepressant activity, including the forced swimming test, chronic mild stress paradigm, and novelty-suppressed feeding test. Hippocampal x-ray irradiation blocked both the neurogenic and behavioral effects of IH, indicating that IH likely produces antidepressant-like effects via promoting neurogenesis in adult hippocampus. Furthermore, IH stably enhanced the expression of BDNF in hippocampus; both the antidepressantlike effect and the enhancement of cell proliferation induced by IH were totally blocked by pharmacological and biological inhibition of BDNF-TrkB (tyrosine receptor kinase B) signaling, suggesting that the neurogenic and antidepressant-like effects of IH may involve BDNF signaling. These observations might contribute to both a better understanding of physiological responses to IH and to developing IH as a novel therapeutic approach for depression.
3-D anatomic evidence of intraosseous arterial distribution of the femoral head and the high frequency with which the inferior retinacular arteries remained patent after femoral neck fracture lead us to consider the necessity of drilling and placing internal implants closer to the central region of the femoral head during surgery. Future controlled studies might evaluate this proposition.
We describe a technique for perfusing a barium sulphate suspension into the intraosseous artery. Following the perfusion of abarium sulphate suspension into 14 fresh lower limbs of Chinese cadavers, micro-CT scanning was applied to digitize, quantify and visualize the intraosseous arteries in the human femoral heads. Then, the femoral heads were removed and subjected to micro-CT scanning. The data were imported into the amira and mimics programs to reconstruct and quantify the intraosseous arteries. The femoral head intraosseous artery lengths, areas, volumes, and femoral head bone volumes were quantified. The artery densities and artery ratios were calculated and analysed with independent-samples t-tests. The intraosseous vasculature volume renderings were displayed as screenshots and videos made with amira. Many intraosseous artery study technologies were compared. The barium sulphate suspension was milky white in colour. The perfusion of the barium sulphate suspension followed by micro-CT scanning provided a good representation of the intraosseous artery. The femoral head intraosseous artery lengths, areas and volumes, and the femoral head bone volumes were displayed as the X¯±S . No differences were observed between the left and right femoral head intraosseous arteries in terms of the artery densities or artery ratios. The volume renderings and 3-D orthogonal projections displayed the overall distributions of the intraosseous arteries. The videos clearly demonstrated the entry sites of the nutrition-carrying arteries, their courses and branches, and the intraosseous arterial anastomoses. Our technique is the simplest and least time-consuming method of producing accurate vascular three-dimensional reconstructions. The perfusion of a barium sulphate suspension into intraosseous arteries combined with micro-CT scanning can deliver high-resolution 3-D digitized data and images of intraosseous arteries. This technique does not require bone decalcification or bone dissection and thus significantly shortens the time required to quantify and display intraosseous arteries. This method provides a simple and rapid technique for quantifying and visualizing human intraosseous arteries.
The present study investigates the feasibility of micro perfusion of femoral head specimens from femoral neck fracture patients by the inferior retinacular arteries and performing intraosseous artery quantitative analysis of the femoral head. Twelve femoral neck fracture patients who had undergone conventional hip replacement surgery were included in this study. Femoral head specimen arteries were first dissected and exposed and then perfused by the inferior retinacular arteries and all the femoral heads underwent micro-CT scanning. After micro-CT scanning, a digital 3-D model was reconstructed to quantify the femoral head intraosseous arteries for comparison with a normal femoral head. The artery length density, artery volume density, and artery length/volume ratio were calculated separately and compared with normal femoral head parameters. Micro-CT scanning displayed the epiphyseal arterial network structure and their fine vascular branches in all 12 femoral neck fractures. Blood was supplied from the inferior retinacular artery to the epiphyseal arterial network then to all the fine blood vessels within the femoral head. No statistical differences were observed in femoral heads' intraosseous artery length densities or volume densities between the normal and femoral neck fracture specimens, while the artery length/volume ratio showed a statistical difference, and the ratio increased from 19 to 46. Micro perfusion of the femoral head by the inferior retinacular arteries is possible and can present the epiphyseal network and their fine arterial branches in pathologic conditions to provide a morphological basis for the study of femoral head disease.
The aim of this report is to present our experience on the use of the digital subtraction angiography (DSA) in selection of the vascularized greater trochanter bone grafting for the treatment of the osteonecrosis of femoral head (ONFH) in early stages. Between January 2005 and June 2007, DSA was used to evaluate the blood perfusion of the early stages ONFH in 32 patients (45 hips). There were 18 males and 14 females with an average age of 30 years old. Twenty-one hips were in ARCO stage I, and 24 in ARCO stage II. The arterial blood supply insufficiency was found in 22 hips by DSA, and the venous stasis in 23 hips. The hips with artery blood supply insufficiency received the vascularized greater trochanter bone grafting, and the hips with the venous stasis received the core decompression. All of patients were followed-up with an average of 4.8 years (ranging 2.4-6.6 years). The preoperative Harris Hip score (HHS) in the patients with arterial blood supply insufficiency was 48.18 ± 7.81 and the postoperative HHS was 93.27 ± 3.03. The preoperative HHS in the patients with venous stasis was 44.04 ± 6.40, and the postoperative HHS 92.65 ± .93. The postoperative DSA showed an improved perfusion of the femoral head in 44 hips. Our experience showed that DSA would help to select the appropriate procedure for treatment of ONFH in the early stage.
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