The International HIV Dementia Scale Is a Useful Screening Tool for HIV-Associated Dementia/Cognitive Impairment in HIV-Infected Adults in Yaoundé-Cameroon

Spacelab Life Sciences-1 and -2 provided skeletal muscles from rats dissected in flight for the first time and 2 h to 14 days postflight. The muscles permitted the distinguishing of primary adaptations to microgravity from secondary reloading-induced alterations. In microgravity, rats adopted bipedal forelimb locomotion with the hindlimbs relegated to grasping activities. On landing day, body posture was abnormally low and walking was stilted at a rate one-third of normal. The adductor longus (AL) and soleus muscles exhibited decreased myofiber areas that did not recover 14 days postflight. Doubling of the nonmyofiber area indicated interstitial edema in AL muscles 2.3 h postflight. Solei did not manifest edema postflight, and neither muscle showed edema in flight. Sarcomere eccentric contraction-like lesions were detected in 2.6% of AL myofibers 4.5 h postflight; lesions were absent earlier postflight and in flight. At 9 days postflight, these lesions were repaired but regenerating AL myofibers were present, which suggests that myofiber necrosis occurred 1-2 days postflight. These studies demonstrate that muscle atrophy occurs in microgravity, whereas interstitial edema and sarcomere lesions are postflight phenomena.

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Directed and enhanced neurite growth with pulsed magnetic field stimulation

Macias

Battocletti

Sutton

et al. 2000

Bioelectromagnetics

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Pulsed magnetic field (PMF) stimulation was applied to mammalian neurons in vitro to influence axonal growth and to determine whether induced current would direct and enhance neurite growth in the direction of the current. Two coils were constructed from individual sheets of copper folded into a square coil. Each coil was placed in a separate water‐jacketed incubator. One was energized by a waveform generator driving a power amplifier, the other was not energized. Whole dorsal root ganglia (DRG) explant cultures from 15‐day Sprague–Dawley rat embryos were established in supplemented media plus nerve growth factor (NGF) at concentrations of 0–100 ng/mL on a collagen–laminin substrate. Dishes were placed at the center of the top and bottom of both coils, so that the DRG were adjacent to the current flowing in the coil. After an initial 12 h allowing DRG attachment to the substrate floor, one coil was energized for 18 h, followed by a postexposure period of 18 h. Total incubation time was 48 h for all DRG cultures. At termination, DRG were histochemically stained for visualization and quantitative analysis of neurite outgrowth. Direction and length of neurite outgrowth were recorded with respect to direction of the current. PMF exposed DRG exhibited asymmetrical growth parallel to the current direction with concomitant enhancement of neurite length. DRG cultures not PMF exposed had a characteristic radial pattern of neurite outgrowth. These results suggest that PMF may offer a noninvasive mechanism to direct and promote nerve regeneration. Bioelectromagnetics 21:272–286, 2000. © 2000 Wiley‐Liss, Inc.

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Exposure to Pulsed Magnetic Fields Enhances Motor Recovery in Cats After Spinal Cord Injury

Crowe

Sun²,

Battocletti³

et al. 2003

Spine

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Directed and enhanced neurite growth with pulsed magnetic field stimulation

Macias¹,

Battocletti²,

Sutton³

et al. 2000

Bioelectromagnetics

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Pulsed magnetic field (PMF) stimulation was applied to mammalian neurons in vitro to influence axonal growth and to determine whether induced current would direct and enhance neurite growth in the direction of the current. Two coils were constructed from individual sheets of copper folded into a square coil. Each coil was placed in a separate water-jacketed incubator. One was energized by a waveform generator driving a power amplifier, the other was not energized. Whole dorsal root ganglia (DRG) explant cultures from 15-day Sprague-Dawley rat embryos were established in supplemented media plus nerve growth factor (NGF) at concentrations of 0-100 ng/mL on a collagen-laminin substrate. Dishes were placed at the center of the top and bottom of both coils, so that the DRG were adjacent to the current flowing in the coil. After an initial 12 h allowing DRG attachment to the substrate floor, one coil was energized for 18 h, followed by a postexposure period of 18 h. Total incubation time was 48 h for all DRG cultures. At termination, DRG were histochemically stained for visualization and quantitative analysis of neurite outgrowth. Direction and length of neurite outgrowth were recorded with respect to direction of the current. PMF exposed DRG exhibited asymmetrical growth parallel to the current direction with concomitant enhancement of neurite length. DRG cultures not PMF exposed had a characteristic radial pattern of neurite outgrowth. These results suggest that PMF may offer a noninvasive mechanism to direct and promote nerve regeneration.

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Myelinated sensory and alpha motor axon regeneration in peripheral nerve neuromas

et al. 1998

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Hypertonic Saline in Elevated Intracranial Pressure

Surani

Lockwood

Macias

et al. 2013

J Intensive Care Med

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Hypertonic Saline (HS) has been a proven and effective therapy and a safe alternative to mannitol in patients with increase intracranial pressure (ICP). We hereby present a case of 25-year-old women with intracranial bleed secondary to right parietal arteriovenous malformation. Patient underwent surgery for evacuation of hematoma and resection of arteriovenous malformation. Post- operative course was complicated by recurrent episodes of elevated ICP. She received total of 17 doses of 23.4% HS and 30 doses of mannitol with good outcome. Despite reluctance from some clinicians to use HS, hypertonic saline seems to be a safe and effective therapy.

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A box coil for the stimulation of biological tissue and cells in vitro and in vivo by pulsed magnetic fields

Battocletti

Macias²,

Pintar³

et al. 2000

IEEE Trans. Biomed. Eng.

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An alternative coil system to the Helmoholtz coil-pair is described for the stimulation of biological tissue and cells: a relatively large box coil made of copper or aluminum sheet stock. The design is based on the principal determinant of the induced electric field, namely, the magnetic vector potential (A), in the equation, [formula: see text]. The second term in the equation is needed when boundaries of the conducting medium are in close proximity to the region of interest, such as in a culture dish. An electric surface charge builds up on the boundaries to generate an electric field which cancels [formula: see text] at the surface. The effectiveness of the new coil is demonstrated in a study of the outgrowth enhancement of axons from rat embryonic dorsal root ganglia.

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Melissa Y. Macias

Pain with no gain: Allodynia following neural stem cell transplantation in spinal cord injury

In-flight and postflight changes in skeletal muscles of SLS-1 and SLS-2 spaceflown rats

Directed and enhanced neurite growth with pulsed magnetic field stimulation

Exposure to Pulsed Magnetic Fields Enhances Motor Recovery in Cats After Spinal Cord Injury

Directed and enhanced neurite growth with pulsed magnetic field stimulation

Myelinated sensory and alpha motor axon regeneration in peripheral nerve neuromas

Hypertonic Saline in Elevated Intracranial Pressure

A box coil for the stimulation of biological tissue and cells in vitro and in vivo by pulsed magnetic fields

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