The most important spinal disorders in childhood are malformations and mass lesions. High-resolution, real-time ultrasonography of the spine enables the differentation of intraand paraspinal structures in a significant way. This examination does not require sedation, does not use radiation, can be performed in the nursery or an incubator and is less expensive than computed tomography or magnetic resonance imaging. The sonographic appearence of the various kinds of spinal dysraphism is demonstrated and illustrated. Based on our preliminary experience spinal sonography appears to be useful in neonates and infants as the first imaging device for differentiation of cmplex malformation and as a screeing method for occult spinal dysraphism.
Humans ; Incubators ; Infant* ; Infant, Newborn* ; Magnetic Resonance Imaging ; Neural Tube Defects ; Nurseries ; Spinal Dysraphism* ; Spine ; Ultrasonography*

Two major factors, delayed hypoperfusion and membrane failure influence the sequelae of cerebral ischemic injury. Calcium ions play a major role in both pathophysiological mechanisms. Calcium channel blockers are a logical choice for investigation as possible therapeutic agents for the treatment of cerebral ischemia. Nimodipine, a dihydropyridine derivative, is one of the most potent calcium channel blocking agent with a selective action on the intracranial vessels. The present study was designed to test the effects of nimodipine on focal cerebral ischemia in rats. At 1,2 or 6 hours after occlusion of the middle cerebral artery(MCA), rats were treated with either nimodipine or saline. Neurological and pathological evaluation was performed at 24 hours after occlusion. Neurological outcome was better in nimodipine-treated rats and the size of the infarcted area was statistically smaller in rats treated with nimodipine 1,2 or 6 hours after occlusion(P<0.001, P<0.001, P<0.001, respectively) when compared with control rats(MCA occlusion only) or saline-treated rats. The results show that nimodipine improves neurological outcome and decreases the size of infarction after ischemic insult. The mechanism of action of nimodipine is not fully understood but nimodipine could influence cerebral postischemic changes by improving blood flow and/or by a direct action on neurons.
Animals ; Brain Ischemia* ; Calcium ; Calcium Channel Blockers ; Calcium Channels ; Infarction ; Ions ; Logic ; Membranes ; Neurons ; Nimodipine* ; Rats

The human motor cortex can be stimulated by electric shock or by brief intense magnetic fields. Transcranial magnetic stimulations(TCMS) cause only a trivial scalp sensation, compared with electrical stimulations. TCMS caused contralateral hand muscle responses and the resultant compound muscle action potentials or motor evoked potentials can be recorded. Central motor conduction time(CMCT) can be estimated by stimulating over the scalp and over the cervical area. In healthy subjects, the CMCT is 10.3+/-1.8ms(n=70 sides). Facilitation of responses in hand muscle is produced by voluntary contraction and the overall latency from scalp to hand muscle is shorter by 2.4ms(n=24 sides). TCMS is a non-invasive method to evaluate the central motor pathways and inaccessable portion of the peripheral pathways and so it has important implications not only for the diagnosis of disorders in the central motor pathways but also for evaluating treatments.
Action Potentials ; Diagnosis ; Efferent Pathways ; Electric Stimulation ; Evoked Potentials, Motor* ; Hand ; Humans ; Magnetic Fields ; Motor Cortex ; Scalp ; Sensation ; Shock ; Transcranial Magnetic Stimulation*

No abstract available.
Humans ; Uterine Cervical Neoplasms*

No abstract available.

Peripheral neuropathies, including entrapment or injury, are quite common and are encountered frequently. To ensure accurate diagnosis and effective treatment for these conditions, it is essential to have a comprehensive understanding of peripheral nerve anatomy and assessment techniques. This may involve the use of methods like ultrasonography, as well as requiring clinical proficiency. The median nerve, which is one of the main nerves in the upper extremity, primarily controls motor function in the flexor muscles of the forearm and hand. It is responsible for actions such as wrist flexion and the movement of the first three fingers. The purpose of this article is to enhance understanding and improve the diagnosis of peripheral nerve disorders, with a particular focus on neuropathies associated with the median nerve.

Peripheral neuropathies, including entrapment or injury, are quite common and are encountered frequently. To ensure accurate diagnosis and effective treatment for these conditions, it is essential to have a comprehensive understanding of peripheral nerve anatomy and assessment techniques. This may involve the use of methods like ultrasonography, as well as requiring clinical proficiency. The median nerve, which is one of the main nerves in the upper extremity, primarily controls motor function in the flexor muscles of the forearm and hand. It is responsible for actions such as wrist flexion and the movement of the first three fingers. The purpose of this article is to enhance understanding and improve the diagnosis of peripheral nerve disorders, with a particular focus on neuropathies associated with the median nerve.

Peripheral neuropathies, including entrapment or injury, are quite common and are encountered frequently. To ensure accurate diagnosis and effective treatment for these conditions, it is essential to have a comprehensive understanding of peripheral nerve anatomy and assessment techniques. This may involve the use of methods like ultrasonography, as well as requiring clinical proficiency. The median nerve, which is one of the main nerves in the upper extremity, primarily controls motor function in the flexor muscles of the forearm and hand. It is responsible for actions such as wrist flexion and the movement of the first three fingers. The purpose of this article is to enhance understanding and improve the diagnosis of peripheral nerve disorders, with a particular focus on neuropathies associated with the median nerve.

Peripheral neuropathies, including entrapment or injury, are quite common and are encountered frequently. To ensure accurate diagnosis and effective treatment for these conditions, it is essential to have a comprehensive understanding of peripheral nerve anatomy and assessment techniques. This may involve the use of methods like ultrasonography, as well as requiring clinical proficiency. The median nerve, which is one of the main nerves in the upper extremity, primarily controls motor function in the flexor muscles of the forearm and hand. It is responsible for actions such as wrist flexion and the movement of the first three fingers. The purpose of this article is to enhance understanding and improve the diagnosis of peripheral nerve disorders, with a particular focus on neuropathies associated with the median nerve.

Vestibular neurectomy is known as an effective procedure in the management of intractable peripheral vertigo from Meniere's disease and other episodic peripheral vertigo disorders. Various approaches have been developed for selectively sectioning the vestibular nerve, in order to preserve hearing and avoid facial nerve injury. Vestibular neurectomy is performed in two patients with Meniere's disease to control intractable episodic vertigo through retrolabyrinthine approach. Vertigo was improved with preserving their hearing. We report the surgical technique and advantages of retrolabyrinthine vestibular neurectomy in the treatment of vertigo.
Facial Nerve Injuries ; Hearing ; Humans ; Meniere Disease ; Vertigo* ; Vestibular Nerve