Annals of anatomy = Anatomischer Anzeiger : official organ of the Anatomische Gesellschaft
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The suprascapular region is the most common site of compression and injury to the suprascapular nerve. This often results in suprascapular nerve entrapment, a possible risk factor being the anterior coracoscapular ligament (ACSL), a structure that runs in the suprascapular notch, below the superior transverse scapular ligament. The aim of the present study is to determine morphological variation of the ACSL and to measure the reduction in size of the suprascapular opening of specimens exhibiting it. ⋯ The study presents a classification of the anterior coracoscapular ligament that has not been described in the literature and can be helpful in arthroscopic and open procedures of the suprascapular region. Knowledge of such anatomical variations confirms the safety of operative decompression to relieve entrapment of the suprascapular nerve.
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We evaluated a vertical obturator nerve block (VOB) using a single morphological landmark and no additional distance measurement or obligatory changes of the needle's direction. ⋯ In this anatomical study, the VOB technique exhibits easy orientation without stimulation or ultrasound guidance. The nerve was located at a constant depth. The injection offered a high percentage of colored nerves.
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Human umbilical cord blood (HUCB) is now considered as a valuable source for stem cell-based therapies. Previous studies showed that intravascular injection of the HUCB significantly improves neurological functional recovery in a model of intracerebral hemorrhage (ICH). To extend these findings, we examined the behavioral recovery and injured volume in the presence of increasing doses of human umbilical cord blood derived mononuclear cells (HUC-MCs) after intracerebral hemorrhage in rats. ⋯ Injured volume measurements disclosed an inverse relationship between UC-MCs dose and damage reaching significance at the higher UC-MCs doses. Moreover, human UC-MCs were localized by immunohistochemistry only in the injured area. Intravenously transplanted UC-MCs can accelerate the neurological function recovery of ICH rat and diminish the striatum lesion size by demonstrating a dose relationship between them.