CONCLUSION: This biomechanical study demonstrates in vitro that t

CONCLUSION: This biomechanical study demonstrates in vitro that transarticular screws and pedicle screws have statistically similar biomechanical stability in a noncorpectomy model. Posterior transarticular screws may be an alternative for internal fixation in the upper thoracic spine.”
“BACKGROUND: Only recently have data been published attempting

to validate a technology and technique suitable for targeted delivery of biological payloads to the human spinal cord.

OBJECTIVE: To characterize the development and evolution of a spine-stabilized microinjection platform as a vehicle for biologics delivery to the cervical and thoracolumbar spine on the AZD2014 datasheet basis of preclinical experience

in both non-Good Laboratory Practice ARRY-438162 (GLP) experimental series and GLP studies.

METHODS: Our laboratory completed > 100 cervical and lumbar porcine microinjection procedures between July 2004 and June 2010. This included both non-GLP- and GLP-adherent survival series to validate the safety and accuracy achievable with intraspinal microinjection. During this time, 3 different microinjection platforms, injection stages, and cannula designs were tested.

RESULTS: Repetitive technological improvements reduced incision length, decreased procedural complexity, and simplified ventral horn targeting and accuracy. These changes reduced procedural O-methylated flavonoid invasiveness and the likelihood of neurological morbidity while improving targeting accuracy. In part as a result of these technological improvements and procedural modifications, we have safely progressed from single unilateral microinjections to multiple bilateral injections without long-term neurological sequelae.

CONCLUSION: Technological and procedural refinements have significantly enhanced the capabilities of intraspinal microinjection-based biologics delivery. Reductions in procedural invasiveness and the capability to deliver sequential biological payloads effectively have broadened the flexibility of intraspinal

microinjection to a widened array of intrinsic spinal cord pathologies. These advances have laid the groundwork for clinical translation of spinal cord microinjections.”
“Background Coated coils for endovascular treatment of cerebral aneurysm were developed to reduce recurrence and retreatment rates, and have been in clinical use for 8-9 years without robust evidence to determine their efficacy. We assessed the efficacy and safety of hydrogel-coated coils.

Methods This randomised trial was undertaken in 24 centres in seven countries. Patients aged 18-75 years with a previously untreated ruptured or unruptured cerebral aneurysm of 2-25 mm in maximum diameter were randomly allocated (1:1) to aneurysm coiling with either hydrogel-coated coils or standard bare platinum coils (control).

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