Devesh Jalan scite author profile

Devesh Jalan

4Publications

29Citation Statements Received

100Citation Statements Given

How they've been cited

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235

Affiliations

University of Hawaiʻi at Mānoa, Rutgers, The State University of New Jersey, Neurological Surgery

Publications

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Effects of early surgical decompression on functional and histological outcomes after severe experimental thoracic spinal cord injury

Jalan

Saini

Zaidi

et al. 2017

SPI

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OBJECTIVE In acute traumatic brain injury, decompressive craniectomy is a common treatment that involves the removal of bone from the cranium to relieve intracranial pressure. The present study investigated whether neurological function following a severe spinal cord injury improves after utilizing either a durotomy to decompress the intradural space and/or a duraplasty to maintain proper flow of cerebrospinal fluid. METHODS Sixty-four adult female rats (n = 64) were randomly assigned to receive either a 3- or 5-level decompressive laminectomy (Groups A and B), laminectomy + durotomy (Groups C and D), or laminectomy + duraplasty with graft (Group E and F) at 24 hours following a severe thoracic contusion injury (200 kilodynes). Duraplasty involved the use of DuraSeal, a hydrogel dural sealant. Uninjured and injured control groups were included (Groups G, H). Hindlimb locomotor function was assessed by open field locomotor testing (BBB) and CatWalk gait analysis at 35 days postinjury. Bladder function was analyzed and bladder wall thickness was assessed histologically. At 35 days postinjury, mechanical and thermal allodynia were assessed by the Von Frey hair filament and hotplate paw withdrawal tests, respectively. Thereafter, the spinal cords were dissected, examined for gross anomalies at the injury site, and harvested for histological analyses to assess lesion volumes and white matter sparing. ANOVA was used for statistical analyses. RESULTS There was no significant improvement in motor function recovery in any treatment groups compared with injured controls. CatWalk gait analysis indicated a significant decrease in interlimb coordination in Groups B, C, and D (p < 0.05) and swing speed in Groups A, B, and D. Increased mechanical pain sensitivity was observed in Groups A, C, and F (p < 0.05). Rats in Group C also developed thermal pain hypersensitivity. Examination of spinal cords demonstrated increased lesion volumes in Groups C and F and increased white matter sparing in Group E (p < 0.05). The return of bladder automaticity was similar in all groups. Examination of the injury site during tissue harvest revealed that, in some instances, expansion of the hydrogel dural sealant caused compression of the spinal cord. CONCLUSIONS Surgical decompression provided no benefit in terms of neurological improvement in the setting of a severe thoracic spinal cord contusion injury in rats at 24 hours postinjury. Decompressive laminectomy and durotomy did not improve motor function recovery, and rats in both of these treatment modalities developed neuropathic pain. Performing a durotomy also led to increased lesion volumes. Placement of DuraSeal was shown to cause compression in some rats in the duraplasty treatment groups. Decompressive duraplasty of 3 levels does not affect functional outcomes after injury but did increase white matter sparing. Decompressive duraplasty of 5 levels led to neuropathic pain development and increased lesion volumes. Further comparison of dural repair techniques is necessary.

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Utility of Intravenous Ketamine as an Alternative, Effective Depression Treatment for Hospitalized Patients Unable to Receive Electroconvulsive Therapy Due to Medical Risks

Jalan

Martin

Mehra

et al. 2018

The American Journal of Geriatric Psychiatry

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Analysis of Cervical Sagittal Alignment After Screw-Rod Fixation

Heary¹,

Choudhry²,

Jalan³

et al. 2013

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Radiographic analysis showed lateral mass fixation to be safe and effective. Certain operative techniques allowed substantial deformity correction and maintenance of long-term correction of deformity. Screw-rod fixation may be an effective method for maintaining lordotic cervical alignment in previously lordotic patients and for significantly correcting kyphotic deformity in patients with a preoperative kyphosis.

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Single- and Multiple-Level Interbody Fusion Techniques

Heary¹,

Karimi²,

Jalan³

et al. 2017

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Devesh Jalan

Effects of early surgical decompression on functional and histological outcomes after severe experimental thoracic spinal cord injury

Utility of Intravenous Ketamine as an Alternative, Effective Depression Treatment for Hospitalized Patients Unable to Receive Electroconvulsive Therapy Due to Medical Risks

Analysis of Cervical Sagittal Alignment After Screw-Rod Fixation

Single- and Multiple-Level Interbody Fusion Techniques

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