Articles: peripheral-nerve-injuries.

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• Niger J Clin Pract · May 2020

  Prognosis and risk factors of nerve injuries in displaced pediatric supracondylar humerus fractures.

  Supracondylar humerus (SCH) fractures are serious injuries due to the neighborhood of critical neural and vascular structures. One of the most devastating complications of SCH fractures is neurological damage, since it may cause permanent disability. The aim of this study is to categorize neurological complications, to report long-term functional outcomes, and to determine risk factors associated with childhood SCH fractures. ⋯ The prognosis of these nerve injuries is excellent, especially the iatrogenic ones. A long and sharp bone fragment (spike) may be responsible for nerve injuries in some children. Surgical exploration is not necessary after an iatrogenic nerve injury when there is no neurotmesis. Patience and care are utmost needed to handle neurological complications.

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• Ulus Travma Acil Cer · May 2020

  Immediate versus delayed primary repair of the sciatic nerve in a nerve transaction model in rats.

  The debate continues concerning surgical timing in a peripheral nerve injury. This study aims to evaluate the result of immediate versus delayed primary (after seven days) repair of peripheral nerve injury. ⋯ To delay the repair about one week did not affect the histological results and weight of the muscle that was innervated by the sectioned nerve comparing to be in the immediate repair in a sciatic nerve transaction model in rats.

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• Chinese medical journal · Apr 2020

  Platelet-rich fibrin membrane nerve guidance conduit: a potentially promising method for peripheral nerve injuries.

  no abstract available

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• Anaesthesia · Apr 2020

  Review

  Learning from the law. A review of 21 years of litigation for nerve injury following central neuraxial blockade in obstetrics.

  McCombe and Bogod report on their analysis of 55 medicolegal claims relating to obstetric neuraxial anaesthesia and analgesia.

  Why is this important?

  Not only is neurological injury the second most common reason for obstetric anaesthetic claims (behind inadequate regional anaesthesia resulting in pain during Caesarean section), the average claim cost is greater.

  McCombe and Bogod provide a factful exploration of many of the causes of neurological complications.

  Which themes emerged from their analysis?

  1. Consent, particularly around providing inadequate pre-procedure information of the risk of neurological injury¹ and the challenges, medical and legal, to achieving informed consent.
  2. Nerve injury and it's mechanisms: non-anaesthetic causes², direct trauma, chemical, and compression (abscess, haematoma).
  3. Complication recognition & management means timely follow-up and assessment, and maintaining a high index of suspicion for abnormalities. Remember the 4 hour rule: blocks should be regressing 4 hours after the last dose.

  Important reminders

  The level of spinal cord termination varies a lot among individuals, as does the level of Tuffier's line³. Considering the inaccuracy of spinal level identification by anaesthetists, there is a lot of potential to place a needle higher than expected.

  Bottom-line: the intrathecal space should be accessed at the lowest possible level, and "the L2/3 interspace should not be an option."

  And never allow chlorhexidine to contaminate gloves, the sterile workspace or neuraxial equipment.

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  1. Noting from NAP3 the risk of nerve injury ranges from, temporary injury 1:1,000, prolonged (>6 months) 1:13,000, to severe (including paralysis) 1:250,000. ↩

  2. 'Obstetric palsy' (pelvic nerve compression) estimated by Bromage as occurring in 1:3000 deliveries; arterial obstruction & ischaemia 1:15,000; AV malformations 1:20,000. A prospective French study found postpartum neuropathy in 0.3%, 84% were femoral, and 69% resolved at 6 weeks. ↩

  3. Although generally accepted as being at the L4/5 interspace, in up to 50% of people the intercristal line might be at or above L2/3! ↩

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• Int J Mol Sci · Mar 2020

  Suppression of Superficial Microglial Activation by Spinal Cord Stimulation Attenuates Neuropathic Pain Following Sciatic Nerve Injury in Rats.

  We evaluated the mechanisms underlying the spinal cord stimulation (SCS)-induced analgesic effect on neuropathic pain following spared nerve injury (SNI). On day 3 after SNI, SCS was performed for 6 h by using electrodes paraspinally placed on the L4-S1 spinal cord. The effects of SCS and intraperitoneal minocycline administration on plantar mechanical sensitivity, microglial activation, and neuronal excitability in the L4 dorsal horn were assessed on day 3 after SNI. ⋯ In vivo optical imaging also revealed that electrical stimulation of the hind paw-activated areas in the somatosensory cortex was decreased by SCS. The present findings suggest that SCS could suppress plantar SNI-induced neuropathic pain via inhibition of microglial activation in the L4 dorsal horn, which is involved in spinal neuronal hyperexcitability. SCS is likely to be a potential alternative and complementary medicine therapy to alleviate neuropathic pain following nerve injury.

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