[Conventional intubation and laryngeal tube in cervical spine instability : Changes in the width of the dural sac in unfixed human body donors]. / Konventionelle Intubation und Larynxtubus bei Halswirbelsäuleninstabilität : Änderungen der Duralsackweite am unfixierten humanen Körperspender.

BACKGROUND: Airway management in patients with an unstable cervical spine requires a cautious approach if secondary damage is to be prevented but the question regarding the optimum method remains unresolved. The primary aim of the study was to investigate whether there were differences between intubation by conventional Macintosh laryngoscopy and placement of a laryngeal tube (LTS-D) with respect to dural sac compression on an unfixed human cadaver model with unstable injuries of the upper cervical spine. Secondary parameters that could be relevant in patients with unstable spinal injuries were also investigated. MATERIAL AND METHODS: Orotracheal intubation by conventional direct laryngoscopy using a Macintosh blade and placement of a laryngeal tube (LTS-D) were performed in six fresh human cadavers. The dural sac was filled with contrast dye to allow continuous myelography by lateral fluoroscopy. Changes in the width of the dural sac at the cervical segments (C) C0/C1 and the C1/C2 levels as well as secondary parameters (angulation, distraction, intervention time) were assessed in the intact spine as well as in the presence of combined atlanto-occipital dislocation and atlanto-axial instability. The intubation methods were considered independent and examined using the Mann-Whitney U­test. RESULTS: At the C0/C1 level in the intact spine, conventional laryngoscopy caused less reduction of the width of the dural sac than placement of the LTS-D (0.33 mm vs. 0.46 mm, p = 0.035); however, in the presence of combined atlanto-occipital dislocation and atlanto-axial instability, placement of the LTS-D caused less reduction in the width of the dural sac than conventional intubation (1.18 mm vs. 0.68 mm, p = 0.005). At the C1/C2 level no differences were found with respect to changes in the width of the dural sac, neither in the intact spine nor in combined atlanto-occipital dislocation and atlanto-axial instability. Conventional intubation caused more angulation than placement of the LTS-D at both levels measured. Both methods did not cause distraction. The intervention times for placement of the laryngeal tube were shorter. CONCLUSION: In an unfixed human cadaver model with combined atlanto-occipital dislocation and atlanto-axial instability, placement of the LTS-D caused less reduction in the width of the dural sac than conventional intubation at the level of the craniocervical junction. The LTS-D also caused less angulation and could be placed faster. It could therefore also be advantageous over conventional intubation in living patients with an unstable cervical spine.

[Parameters influencing the preclinical application of cervical collars]. / Einflussfaktoren auf die präklinische Anlage einer Zervikalstütze.

BACKGROUND: The application of cervical collars is a standard procedure in emergency care of trauma patients. It is often observed that the application of cervical collars is performed incorrectly, which may lead to reduced immobilization of the cervical spine. OBJECTIVES: The objective of this study was to analyze the practical skills of professional emergency care providers concerning the application of cervical collars. MATERIALS AND METHODS: Emergency care professionals (n = 104) were asked to apply a cervical collar to a training doll. Each performance step was assessed separately. Furthermore, personal and occupational data of all study participants were collected using a questionnaire. RESULTS: The study participants included professional rescue personnel and emergency physicians. The average occupational experience of all study participants in out-of-hospital emergency care was 11.1 ± 8.9 years. Most participants had already received training on trauma care (61 %) and felt "very confident" in handling a cervical collar (84 %). The application of the cervical collar was performed correctly in 11 % of the performances. The most common error was incorrect size adjustment of the cervical collar (66 %). No association was found between the correct application of the cervical collar and possible parameters of influence, such as working experience in emergency care or participation in trauma courses. CONCLUSIONS: Despite pronounced subjective confidence regarding the application of cervical collars, this study shows that there are general deficits in the practical skills of applying cervical collars. Therefore, a critical assessment of the current training contents on the subject of trauma care must be demanded.

On-scene treatment of spinal injuries in motor sports.

Because spinal cord injuries can have fatal consequences for injured race car drivers, prehospital treatment of spinal injuries is a major concern in motor sports. A structured procedure for assessing trauma patients and their treatment should follow established ABCDE principles. Only then, a stable patient could be further examined and appropriate measures can be undertaken. For patients in an acute life-threatening condition, rapid transport must be initiated and should not be delayed by measures that are not indicated. If a competitor must first be extricated from the racing vehicle, the correct method of extrication must be chosen. To avoid secondary injury to the spine after a racing accident, in-line extrication from the vehicle and immobilization of the patient are standard procedures in motor sports and have been used for decades. Since immobilization can be associated with disadvantages and complications, the need for immobilization of trauma patients outside of motor sports medicine has become the subject of an increasing number of reports in the scientific literature. Even in motor sports, where specific safety systems that offer spinal protection are present, the indications for spinal immobilization need to be carefully considered rather than being blindly adopted as a matter of course. The aim of this article is to use recent literature to present an overview about the treatment of spinal injuries in motor sports. Further, we present a new protocol for indications for immobilizing the spine in motor sports that is based on the ABCDE principles and takes into account the condition of the patient.

Expertise of German paramedics concerning the prehospital treatment of patients with spinal trauma.

PURPOSE: Spinal immobilization is a standard procedure in emergency medicine. Increasing awareness of complications associated with immobilization of trauma patients leads to controversial discussions in the literature. Current guidelines require to include considerations of accident mechanism, an assessment of the patient's condition and an examination of the spine in the decision-making process if immobilization of the spine should be performed. This requires sound knowledge of assessing these parameters. The aim of the current study is to analyze German paramedics' subjective uncertainty in terms of their prehospital assessment and treatment of patients suffering from spine injuries. METHODS: Over a period of 17 months participants in a trauma course were asked to complete a standardized anonymous questionnaire about subjective uncertainty of prehospital assessment and management of spinal trauma before participation in that course. Questions about the frequency of application of different immobilization tools and skills training on spinal immobilization were also asked. RESULTS: A total of 465 paramedics were surveyed. The participants did not indicate any uncertainty about the prehospital diagnosis and treatment of spinal injuries. The feeling of confidence was significantly greater in participants who had already attended another course on structured trauma care before. The participants agreed with the statements that standardized algorithms facilitate teamwork and that there is a need for a protocol for the prehospital treatment of spinal injuries. CONCLUSIONS: Paramedics do not feel uncertain about the prehospital assessment and treatment of spinal injuries. The feeling of confidence in participants who had already attended a course on the treatment of trauma patients before was significantly higher.

Analysis of prehospital care and emergency room treatment of patients with acute traumatic spinal cord injury: a retrospective cohort study on the implementation of current guidelines.

STUDY DESIGN: Retrospective cohort study. OBJECTIVES: The aims of the current study were (i) to analyze prehospital and emergency room treatment of patients with acute traumatic spinal cord injury (SCI) and (ii) to analyze whether recommendations given by the current guidelines are implemented. SETTING: German level I trauma center. METHODS: All patients suffering from traumatic SCI who were initially surgically treated in our hospital in the period from January 2008 to December 2013 were included in this study. Available data documented as a standard procedure in our trauma center included patient's demographic and medical information, as well as trauma mechanisms, cause of injury, neurological diagnosis and detailed clinical information about prehospital and early hospital management procedures. Retrospectively, statistical analysis was performed to describe spinal immobilization rates, transportation times and methylprednisolone administration. RESULTS: A total of 133 patients (mean age: 50.5±21.2 years) met the inclusion criteria. Immobilization was performed on 69.9% of the patients with traumatic SCI. From 60 patients suffering from cervical traumatic SCI, 47 patients had a cervical collar. Full immobilization was only performed in 34 of these 60 patients. Mean time from accident site to emergency room was 61.3±28.7 min. In 25 out of the 133 patients included in the current study, early surgery was not possible because of insufficient circulation and/or increased intracranial pressure. A total of 108 patients could be prepared for early surgery within 322.8±254.1 min after the accident. CONCLUSION: The current study shows that recommendations of the current literature and guidelines are mostly followed.

[Three-dimensional correction of the thoraco-lumbar spine after sarcoma resection : An inter-disciplinary approach with free-tissue transfer]. / Dreidimensionale Korrektur der thorakolumbalen Wirbelsäule nach Resektion eines Sarkoms : Interdisziplinärer Ansatz mit freiem Gewebetransfer.

This article presents the case of a high-grade deformity of the thoraco-lumbar spine. The patient suffered from a sarcoma that was radically resected. Due to adjuvant radiation, the patient suffered from a radiation injury with chronic fistula. In a two-stage approach, the deformity was corrected by a closing-wedge osteotomy of L3 with elongation of the present dorsal spondylodesis (Th10-L4) to Th8 and the iliac bone. Soft-tissue reconstruction was achieved by a free latissimus dorsi flap that was anastomosed to an axillary arterio-venous loop. The presented interdisciplinary approach allowed an almost complete correction of the deformity and stable soft-tissue coverage.

In vitro mapping of 1H ultrashort T2* and T2 of porcine menisci.

In this study, mapping of ultrashort T2 and T2* of acutely isolated porcine menisci at B0 = 9.4 T was investigated. Maps of T2 were measured from a slice through the pars intermedia with a spin echo-prepared two-dimensional ultrashort-TE T2 mapping technique published previously. T2* mapping was performed by two-dimensional ultrashort-TE MRI with variable acquisition delay. The measured signal decays were fitted by monoexponential, biexponential and Gaussian-exponential fitting functions. The occurrence of Gaussian-like signal decays is outlined theoretically. The quality of the curve fits was visualized by mapping the value δ = abs(1 - χ(2) red). For T2 mapping, the Gaussian-exponential fit showed the best performance, whereas the monoexponential and biexponential fits showed regionally high values of δ (δ > 20). Interpretation of the Gaussian-exponential parameter maps was found to be difficult, because a Gaussian signal component can be related to mesoscopic (collagen texture) or macroscopic (slice profile, shim, sample geometry) magnetic field inhomogeneities and/or residual (1) H dipole-dipole couplings. It seems likely that an interplay of these effects yielded the observed signal decays. Modulation of the T2* signal decay caused by chemical shift was observed and addressed to fat protons by means of histology. In the T2 measurements, no modulation of the signal decay was observed and the biexponential and Gaussian-exponential fits showed the best performance with comparable values of δ. Our results suggest that T2 mapping provides the more robust method for the characterization of meniscal tissue by means of MRI relaxometry. However, mapping of ultrashort T2, as performed in this study, is time consuming and provides less signal-to-noise ratio per time than the mapping of T2*. If T2* mapping is used, pixel-wise monitoring of the fitting quality based on reduced χ(2) should be employed and great care should be taken when interpreting the parameter maps of the fits.

[Tribological assessment of articular cartilage. A system for the analysis of the friction coefficient of cartilage, regenerates and tissue engineering constructs; initial results]. / Tribologische Messungen am Gelenkknorpel. Ein Prüfstand zur Messung der Reibungszahlen von Knorpel gegen Knorpel, Regeneraten und TE-Konstrukten und erste Ergebnisse.

Values for the friction coefficient of articular cartilage are given in ranges of percentage and lower and are calculated as a quotient of the friction force and the perpendicular loading force acting on it. Thus, a sophisticated system has to be provided for analysing the friction coefficient under different conditions in particular when cartilage should be coupled as friction partner. It is possible to deep-freeze articular cartilage before measuring the friction coefficient as the procedure has no influence on the results. The presented tribological system was able to distinguish between altered and native cartilage. Furthermore, tissue engineered constructs for cartilage repair were differentiated from native cartilage probes by their friction coefficient. In conclusion a tribological equipment is presented to analyze the friction coefficient of articular cartilage, in vivo generated cartilage regenerates and in vitro tissue engineered constructs regarding their biomechanical properties for quality assessment.