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Mark A. Liker, MD
Clinical Assistant Professor of Neurological Surgery (Part Time)
Neurological Surgery
GNH 3300 Off Campus Los Angeles
+1 323 226 7421


Introduction: Deep brain stimulation: current assessment, new applications, and future innovations. Neurosurg Focus. 2015 Jun; 38(6):E1. View in: PubMed

Deep brain stimulation evoked potentials may relate to clinical benefit in childhood dystonia. Brain Stimul. 2014 Sep-Oct; 7(5):718-26. View in: PubMed

Introduction: Evolving trends in movement disorder surgery. Neurosurg Focus. 2013 Nov; 35(5):introduction. View in: PubMed

Deep brain stimulation in children and young adults with secondary dystonia: the Children's Hospital Los Angeles experience. Neurosurg Focus. 2013 Nov; 35(5):E7. View in: PubMed

Deep brain stimulation: a mechanistic and clinical update. Neurosurg Focus. 2013 Nov; 35(5):E1. View in: PubMed

The impact of neurotechnology on rehabilitation. IEEE Rev Biomed Eng. 2008; 1:157-97. View in: PubMed

Human neural stem cell transplantation in the MPTP-lesioned mouse. Brain Res. 2003 May 09; 971(2):168-77. View in: PubMed

Honored guest presentation: neurorestoration and the emergence of molecular and cellular neurosurgery. Clin Neurosurg. 2002; 49:274-315. View in: PubMed

Computed tomographic characteristics of chronic subdural hematomas. Neurosurg Clin N Am. 2000 Jul; 11(3):479-89. View in: PubMed

Optimization of the operative corridor for the resection of craniopharyngiomas in children: the combined frontoorbitozygomatic temporopolar approach. Technical note. Neurosurg Focus. 1997 Dec 15; 3(6):e5. View in: PubMed

Continuous postoperative lCBF monitoring in aneurysmal SAH patients using a combined ICP-laser Doppler fiberoptic probe. J Neurosurg Anesthesiol. 1996 Jul; 8(3):199-207. View in: PubMed

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