Displaying all 7 publications

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  1. Nur Dina, A., Shalimar, A.
    JUMMEC, 2013;21(2):71-73.
    MyJurnal
    We report a case of a 59-year-old gentleman with complete left brachial plexus injury. He presented with
    chronic pain over the dorsum of his left hand since the injury eight years ago. Medical treatment had been
    optimised but the pain still persist. End-to-side nerve transfer was done involving superficial sensory radial
    nerve and median nerve to alleviate the pain. The surgery was considered successful as the patient claimed
    that the pain score had reduced a few weeks postoperatively. However, there was no sensory recovery and
    functionally no improvement was observed.
    Matched MeSH terms: Nerve Transfer
  2. Taran S, Nawfar S
    Malays Orthop J, 2013 Mar;7(1):79-81.
    PMID: 25722813 MyJurnal DOI: 10.5704/MOJ.1303.004
    Traumatic brachial plexus injuries rarely recover spontaneously and if the window period for neurotisation has elapsed, the only option for restoration of function lies in a salvage procedure. Many such salvage procedures have been described in the literature with variable functional results. We report the case of a 16-year-old boy who presented after unsuccessful treatment for a complete brachial plexus injury; we performed a pectoralis major tendon transfer to attain elbow flexion. Postoperatively, the elbow was splinted with flexion at 100°. After 4 weeks of immobilization the splint was removed and the patient could actively flex his elbow from 30° to 100°.
    Matched MeSH terms: Nerve Transfer
  3. Lim HH, Baskaran
    Med J Malaysia, 2001 Jun;56 Suppl C:61-5.
    PMID: 11814252
    Neurotization of the brachial plexus is an established procedure in the upper limb. However, neurotization of the lower limb remains experimental. Brunelli reported the use of the ulnar nerve to neurotize the lower limb. Zhao et al reported the use of intercostals nerve to neurotize the lower limb in rats. The aim of the study was to determine the feasibility of using intercostals nerve to neurotize the femoral nerve in human cadavers and to ascertain the ideal intercostals nerve that has the anatomical course that suit this role. Six fresh cadaveric dissection were performed through an extensile midline incision in the postmortem room and the lower six (T7-T12) were identified and traced from their origin. Their length and course identified and charted. T9 and T10 intercostal nerve was thought to be the most suitable nerve as the donor nerve, and the T11 and T12 intercostal nerve could not be free from its intra-muscular course sufficiently to be use as donor.
    Matched MeSH terms: Nerve Transfer*
  4. Doi K, Sem SH, Hattori Y, Sakamoto S, Hayashi K, Maruyama A
    JBJS Case Connect, 2019 Dec;9(4):e0073.
    PMID: 31850914 DOI: 10.2106/JBJS.CC.19.00073
    CASE: A 7-year-old boy presented with left femoral and obturator nerves (ONs) palsy after an asthmatic attack with a viral prodrome, and his right lower limb was unaffected. He was diagnosed with acute flaccid myelitis (AFM) after positive spinal magnetic resonance imaging findings. After contralateral ON to femoral nerve transfer (CONFNT), his left quadriceps was reinnervated at 5.5 months, full knee extension was recovered at 14 months, and good functional outcomes were achieved at 31 months.

    CONCLUSIONS: This first clinical report on CONFNT demonstrated a feasible good alternative in treating young patients with AFM with unilateral L2-L4 palsy and short duration of deficit.

    Matched MeSH terms: Nerve Transfer*
  5. Doi K, Sem SH, Ghanghurde B, Hattori Y, Sakamoto S
    J Brachial Plex Peripher Nerve Inj, 2021 Jan;16(1):e1-e9.
    PMID: 33584849 DOI: 10.1055/s-0041-1722979
    Objectives  The purpose of this study was to report the functional outcomes of phrenic nerve transfer (PNT) to suprascapular nerve (SSN) for shoulder reconstruction in brachial plexus injury (BPI) patients with total and C5-8 palsies, and its pulmonary complications. Methods  Forty-four out of 127 BPI patients with total and C5-8 palsies who underwent PNT to SSN for shoulder reconstruction were evaluated for functional outcomes in comparison with other types of nerve transfers. Their pulmonary function was analyzed using vital capacity in the percentage of predicted value and Hugh-Jones (HJ) breathless classification. The predisposing factors to develop pulmonary complications in those patients were examined as well. Results  PNT to SSN provided a better shoulder range of motion significantly as compared with nerve transfer from C5 root and contralateral C7. The results between PNT and spinal accessory nerve transfer to SSN were comparable in all directions of shoulder motions. There were no significant respiratory symptoms in majority of the patients including six patients who were classified into grade 2 HJ breathlessness grading. Two predisposing factors for poorer pulmonary performance were identified, which were age and body mass index, with cut-off values of younger than 32 years old and less than 23, respectively. Conclusions  PNT to SSN can be a reliable reconstructive procedure in restoration of shoulder function in BPI patients with total or C5-8 palsy. The postoperative pulmonary complications can be prevented with vigilant patient selection.
    Matched MeSH terms: Nerve Transfer
  6. Liew SK, Shim BJ, Gong HS
    Korean J Neurotrauma, 2020 Oct;16(2):126-137.
    PMID: 33163420 DOI: 10.13004/kjnt.2020.16.e48
    Cervical spinal cord injury (SCI) often causes debilitating loss of function of the upper limb. Upper extremity reconstruction surgery can restore some of the upper limb function in tetraplegic patients with SCI. The procedures are typically muscle-tendon unit transfer surgeries, which redistribute the remaining functional muscles to restore active elbow extension, key grip, and finger grasping. In addition to the tendon transfer surgeries, nerve transfers have emerged recently and are showing promising results. However, despite more than half of the tetraplegic patients can benefit from upper limb surgery, only a few of them receive the procedures. This missed opportunity may be due to the lack of communication between SCI specialists and hand surgeons, or the lack of awareness of such options among the specialists and patients. In this review, we provide a basic overview of upper limb reconstruction in tetraplegic patients with target audience of SCI specialists for their better understanding of the basic concept of surgery and information for patient consultation before referring to hand surgeons.
    Matched MeSH terms: Nerve Transfer
  7. Foo YH, Tunku Ahmad Yahaya TS, Chung TY, Silvanathan JP
    Photobiomodul Photomed Laser Surg, 2020 Apr;38(4):215-221.
    PMID: 32301668 DOI: 10.1089/photob.2019.4757
    Objective:
    To investigate effect of photobiomodulation (PBM) on nerve regeneration after neurotization with the Oberlin Procedure (ulnar fascicle to motor branch to biceps) to restore elbow flexion in patients with brachial plexus injury.
    Materials and methods:
    This prospective randomized controlled trial was conducted with 14 patients with high brachial plexus injury who underwent neurotization with the Oberlin Procedure to restore elbow flexion. The patients were randomly allocated to two groups of equal numbers: control group and PBM group. In this study, the PBM used has a wavelength of 808 nm, 50 mW power, continuous mode emission, 4 J/cm2 dosimetry, administered daily for 10 consecutive days, with an interval of 2 days (weekends). The outcome of surgery was assessed after 1, 2, 3, and 6 months. The nonparametric Mann-Whitney U-test and chi-square test were utilized to compare the results between both groups.
    Results:
    After 3 months postoperatively, more patients in the PBM group had demonstrated signs of reinnervation and the mean muscle power was significantly higher in the PBM group. No adverse effects resulted from the administration of PBM.
    Conclusions:
    PBM is a treatment modality that can improve nerve regeneration after neurotization with the Oberlin Procedure.
    Matched MeSH terms: Nerve Transfer*
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