Jean Y. Jew scite author profile

Schistosomiasis mansoni is a parasitic disease in which granulomas form around schistosome eggs in the liver and intestines. The purpose of this study was to determine the alterations in the intrinsic innervation of the distal ileum and proximal colon resulting from schistosomiasis. Using murine schistosomiasis mansoni, we examined light microscopic preparations stained with osmium-zinc iodide or the dihydronicotinamide adenine dinucleotide: nitro BT oxidoreductase (NADH) method. We also examined specific populations of peptidergic nerves (vasoactive intestinal polypeptide and substance P) using an avidin-biotin complex (ABC) immunohistochemical technique. We found that granulomas focally destroyed the enteric nerves. Occasionally nerves were found within granulomas, particularly at the periphery of the lesions. Nerve cell bodies close to granulomas had altered staining, which included increased staining for vasoactive intestinal polypeptide. The distribution of nerve injury varied between the 2 enteric segments studied. In the distal ileum, the principal injury was to the myenteric plexus; whereas, the submucous and mucosal plexuses were predominantly damaged in the proximal colon. The physiologic significance of this injury to the enteric nerves requires elucidation.

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Nerve endings of the wrist joint: A preliminary report of the dorsal radiocarpal ligament

Lin

Berger

et al. 2006

Journal Orthopaedic Research

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As part of an investigation of the articular nerve ending populations in the wrist joint capsule associated with the anterior and posterior interosseous nerves, this study addresses the nerve ending population in the dorsal radiocarpal ligament. The ligaments were harvested from four wrists of two fresh cadavers within 12 h of death. Tissues were fixed, cryostat sectioned, and processed for fluorescence immunohistochemistry using antibody to protein gene product 9.5 (PGP 9.5), a general or pan neuronal marker, and a secondary antibody conjugated to a fluorescent tag (Alexa Fluor 488). The sections were evaluated with a confocal laser microscope and an image analyzer. Labeled nerve endings were mapped, measured, and categorized. Type I (Ruffini-like ending), Type III (Golgi-like tendon organ) and Type IV (noncorpuscular) nerve endings could be identified in all four DRC ligaments, with Types I and IV dominating. These receptors were distributed primarily over the superficial two thirds of the ligament (>80%), and near the bony attachments (>70%). The dorsal radiocarpal ligament has a rich sensory innervation from the posterior interosseous nerve terminating in nerve endings located in the superficial two-thirds of the ligaments, primarily near bony attachment sites. ß

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Tyrosine hydroxylase- and nitric oxide synthase-immunoreactive nerve fibers in mitral valve of young adult and aged Fischer 344 rats

Jew¹,

Fink²,

Williams³

1996

Journal of the Autonomic Nervous System

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CNS Changes in Hyperbilirubinemia

Jew¹

1979

Arch Neurol

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Variations in atrioventricular valve innervation in four species of mammals

et al. 1990

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In this series of studies, the innervation patterns of whole-mount preparations of bicuspid and tricuspid valves were studied by light microscopy in the mouse, rat, guinea pig, and opossum. The acetylcholinesterase-positive networks of nerve fibers showed many similarities in the basic patterns of valve innervation in all of the species studied, but several interspecies variations were observed. The basal zone of the valve adjacent to the fibromuscular atrioventricular ring displayed the most dense plexus of nerves, with acetylcholinesterase-positive fibers being seen across the width of the valve. In the intermediate zone of the valve, less dense plexuses of nerve fibers were found; and these were more numerous in the cuspal areas and less numerous in the intervening commissural areas. In the distal portions of the valve, nerve networks arborized extensively, with some of their nerve fibers extending toward the chordae tendineae and the free edges of the valve cusps. Only in the guinea pig and opossum did these fibers reach the free margin of the valve cusp, where they either ended directly as free nerve endings or lay parallel to the free edge of the cusp, often running between adjacent chordae tendineae. Although the patterns of innervation were similar in both bicuspid and tricuspid valves, the innervation density of the bicuspid valve was greater than that of the tricuspid valve for each species examined. A distinguishing feature of guinea pig and opossum tricuspid valves was that their chordae tendineae were relatively more prominent and more densely innervated than the bicuspid chordae tendineae. Free nerve endings with no light microscopic evidence of specialization were present throughout the bicuspid and tricuspid valves of all species studied. Some nerve endings in the opossum showed evidence of specialization, with brush-like arborizations leading to presumed free terminals seen chiefly in the distal zone of the valve cusps. Although some general tendencies were apparent, we have demonstrated that interspecies heterogeneity exists in the terminal networks of the atrioventricular valves of mouse, rat, guinea pig, and opossum.

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An improved method for perfusion fixation of neural tissues for electron microscopy

Williams

Jew

1975

Tissue and Cell

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Fluorescence immunohistochemistry and confocal scanning laser microscopyA protocol for studies of joint innervation

Jew

Berger

et al. 2003

Acta Orthopaedica Scandinavica

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Jean Y. Jew

Is the mitral valve passive flap theory overstated? An active valve is hypothesized

Alterations of the Intestinal Innervation in Mice Infected with Schistosoma mansoni

Nerve endings of the wrist joint: A preliminary report of the dorsal radiocarpal ligament

Tyrosine hydroxylase- and nitric oxide synthase-immunoreactive nerve fibers in mitral valve of young adult and aged Fischer 344 rats

CNS Changes in Hyperbilirubinemia

Variations in atrioventricular valve innervation in four species of mammals

An improved method for perfusion fixation of neural tissues for electron microscopy

Fluorescence immunohistochemistry and confocal scanning laser microscopyA protocol for studies of joint innervation

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