Calretinin as a Marker for Premotor Neurons Involved in Upgaze in Human Brainstem.

Eye movements are generated by different premotor pathways. Damage to them can cause specific deficits of eye movements, such as saccades. For correlative clinico-anatomical post-mortem studies of cases with eye movement disorders it is essential to identify the functional cell groups of the oculomotor system in the human brain by marker proteins.

Targeted high-throughput sequencing identifies a TARDBP mutation as a cause of early-onset FTD without motor neuron disease.

Targeted high-throughput sequencing of many amyotrophic lateral sclerosis (ALS) and fronto-temporal dementia (FTD) genes in parallel has the potential to reveal novel ALS- and/or FTD-phenotypes and to provide missing links on the ALS-FTD continuum. For example, although the 43-kDa transactive response DNA binding protein is the major pathologic hallmark linking ALS and FTD, mutations in the gene encoding 43-kDa transactive response DNA binding protein (TARDBP) have been appreciated only as a cause of ALS-phenotypes, but not yet of pure FTD. Thus, the genetic link is not yet well substantiated that TARDBP mutations can cause the full spectrum of the ALS-FTD continuum.

Biomechanical comparison of menisci from different species and artificial constructs.

Background: Loss of meniscal tissue is correlated with early osteoarthritis but few data exist regarding detailed biomechanical properties (e.g. viscoelastic behavior) of menisci in different species commonly used as animal models.

Reversible cerebral vasoconstriction syndrome with concurrent bilateral carotid artery dissection.

Background: The pathophysiological basis of reversible cerebral vasoconstriction syndrome is poorly understood but carotid artery dissection has been discussed as a rare possible cause. So far, only single cases of unilateral carotid artery dissection and reversible cerebral vasoconstriction syndrome have been reported.

Case: Here, we describe the case of a 54-year old patient presenting to the emergency department with right hemiparesis, hypaesthesia and dysarthria.

Tissue engineering of the anterior cruciate ligament-sodium dodecyl sulfate-acellularized and revitalized tendons are inferior to native tendons.

The acellularization of tendons using detergents (sodium dodecyl sulfate, Triton-X, tri-nitro-butyl-phosphate) is a new source of scaffolds for tissue engineering in anterior cruciate ligament (ACL) repair. In vitro testing demonstrated that acellular tendon scaffolds are biocompatible and show good biomechanical properties, but in vivo confirmation of these results is not yet available. Therefore, the aim of this study was to see in vivo if an acellular allogenic construct colonized with autologous fibroblasts improves the quality of ACL reconstruction.

Student learning preferences and the impact of a multimedia learning tool in the dissection course at the University of Munich.

How do students use multimedia tools to support their learning during a gross anatomy dissection course? We investigated this question in the anatomic dissection course for first year medical students at the University of Munich (n=850) by giving all participating students access to an anatomical multimedia CD-ROM. The use of this multimedia learning tool was voluntary and it was not essential for the end-of-course examination. After the examination, two questionnaires (return rate first questionnaire n(1)=347, approximately 41%; return rate second questionnaire n(2)=644, approximately 76%) were given to the surveyed students with the following content: evaluation of the multimedia learning tool, details about the usage of different kinds of available learning media, and finally an evaluation of the media used for teaching during the course.

Tissue engineering of the anterior cruciate ligament: a new method using acellularized tendon allografts and autologous fibroblasts.

Introduction: The availability of autogenous tendons (middle part of patellar tendon, semitendinosus/gracilis, or quadriceps tendon) for cruciate ligament reconstructions is restricted and related to withdrawal morbidity. Allografts and synthetic ligament materials often show problems regarding long-term stability and immunological reactions. Therefore, the aim of this study was to develop and characterize a new scaffold based on acellular allografts seeded with autologous cells for tissue engineering of the anterior cruciate ligament (ACL).