Morphology and immunohistochemical characteristics of the otic ganglion in the chinchilla (Chinchilla laniger Molina).

INTRODUCTION: The available literature provides relatively little information on the morphology of the autonomic head ganglia in rodents including their neurochemical codding. MATERIAL AND METHODS: Morphological investigations of the otic ganglion of the chinchilla were performed using the modified acetylcholinesterase method. The cellular structure was investigated with histological techniques and neurochemical properties were studied with the double-labelling immunofluorescence method. RESULTS: Macromorphological investigations allowed the otic ganglion to be identified as a compact, oval agglomeration of neurons and nerve fibers. Multidimensional cross-sections revealed densely arranged neuronal perikarya and two populations of nerve cells differing in size were distinguished. The large cells (40-50 µm) accounted for about 80% of the neurons in the cross-sections. Moreover, a small number of intraganglionic nerve fibers was observed. Immunohistochemical staining revealed that over 85% of the neuronal cell bodies in the otic ganglion contained immunoreactivity to VAChT or ChAT. VIP-immunoreactive perikarya comprised approximately 10% of the ganglionic cells. Double staining revealed the presence of VAChT+ and NOS+ neurons which amounted to about 45% of the nerve cells in the otic ganglion. NOS+ only perikarya comprised approx. 15% of all the neurons. Immunoreactivity to enkephalins, substance P, somatostatin, and galanin was expressed in single nerve cell bodies and nerve fibers except numerous substance P+ intraganglionic nerve fibers. Some of them were stained also for CGRP. Single neurons stained for tyroxine hydroxylase. CONCLUSIONS: Our results, compared with findings in other rodent species suggest the existence of interspecies differences in the morphology, cellular structure, and immunohistochemical properties of the head autonomic ganglia in mammals.

Open-Label, Multi-Dose, Pilot Safety Study of Injection of OnabotulinumtoxinA Toward the Otic Ganglion for the Treatment of Intractable Chronic Cluster Headache.

BACKGROUND: The otic ganglion (OG) provides parasympathetic innervation to the cerebral circulation and cranial structures and may be involved in the pathophysiology of trigeminal autonomic headaches. This structure has never been targeted in any headache disorder. OBJECTIVE: To investigate the safety of injecting onabotulinumtoxin A (BTA) toward the OG in 10 patients with intractable chronic cluster headache and to collect efficacy data. METHODS: A total of 10 patients with chronic cluster headache were enrolled in this open-label, multi-dose pilot safety study. All patients were recruited and treated on an out-patient basis at St Olav's University Hospital (Norway). In 5 patients each, the OG was the injection target with 12.5 IU of BTA or 25 IU, respectively. The primary outcome measure was adverse events (AEs) and the main secondary outcome was the number of attacks per week measured at baseline and in the second month following injection. RESULTS: For the primary endpoint, we analyzed data for all 10 patients. There were a total of 17 AEs in 6 of the 10 patients. All AEs were considered mild and disappeared by the end of follow-up. The median number of attacks per week at baseline was 17.0 [7.8 to 25.8] vs 14.0 [7.3 to 20.0] in the second month following injection; difference: 3 (95%CI: -0.3 to 7.9), P = .063. CONCLUSIONS: Injection with BTA toward the OG appears to be safe. We did not find a statistically significant reduction in the number of attacks per week at month 2 after injection compared to the baseline. This study suggests that the OG is not an important target for the treatment of chronic cluster headache. A future study employing more precise targeting of the OG may be indicated.

Pre- and postnatal development of the otic ganglion in humans.

Only a few papers exist dealing with the development and aging of the autonomic nervous system - and even rarer are studies that investigated the otic ganglion. Using a special trepan, we removed and investigated 172 samples from 86 corpses, ranging from 20 weeks of gestational age (GA) to 95 years of age. The aim of the study was to measure different morphometric parameters of the ganglionic neurons in order to study age-related changes from early development until old age. Fetuses show the highest numerical density of neurons. Then, in the first years of life, a rapid growth of the cytoplasm takes place, which is the main reason for the neuronal growth and the increase of the general size of the otic ganglion at this age. Also, the number of satellite cells increases till puberty. In adults, the parameters are relatively stable over decades and decrease slowly, in contrast to the steep increase in the first years of life. Moreover, neuronal degeneration, storage of pigments, neuro-axonal dystrophy, and lymphocytic infiltrates increase with age.

Topography, syntopy and morphology of the human otic ganglion: a cadaver study.

The human otic ganglion (OG) is not readily accessible during ordinary anatomical teaching courses because of insufficient time and severe difficulties encountered in dissection. Accordingly, most anatomical descriptions of its location, relation to neighbouring structures, size and shape are supported only by drawings, but not by photographs. The aim of this study has been to present the OG with associated roots and branches in dissected anatomic specimens. Following cumbersome dissection and precise photo-documentation, a detailed analysis of location, syntopy and morphology was performed. We carried out this study in 21 infratemporal fossae of 18 cadavers and were able to identify the OG, the mandibular-, the inferior alveolar- and the lingual nerve in all of them. We found no significant variation regarding the location of the GO in the infratemporal fossa and its syntopy to the adjacent structures. An OG resembling the classic description was found only in 90.50% of the cases. All 3 roots (parasympathetic, sympathetic and sensory) could be identified only in 82.3% of the specimens. The established presence of ganglionic branches varied from 0% (communicating rami to the meningeal branch of the mandibular nerve, to the greater petrosal nerve and to the lingual nerve) to 90% (r. communicans to n. canalis pterygoideus). We conclude that precise knowledge of this enormous variety might be very helpful not only to students of medicine and dentistry during anatomical dissection courses, but also to head and neck surgeons, ear-nose-throat specialists and neurosurgeons when treating pathology of pre- and postganglionic fibres.

Histochemical Features of the Extracellular Matrix in Rattus rattus norvegicus Otic Ganglion / Características Histoquímicas de la Matriz Extracelular en el Ganglio Ótico de Rattus rattus norvegicus

The otic ganglion is a cranial component of the parasympathetic division of the autonomic nervous system (ANS). Similar to other parasympathetic ganglia, otic ganglion presents multipolar neurons that are completely surrounded by satellite cells and intercellular substance as well, which allow us to use this ganglion as a good experimental model for studying the relationship neuron / extracellular matrix. We have studied rat otic ganglion in 10 animals through light microscopy. After routine histological methods, 5 µm sections were obtained and coloured by Gomori`s trichrome, periodic acid-Schiff (PAS), Alcian Blue pH 2.5 and pH1.0, acetylation + PAS, acetylation + deacetylation + PAS, acid hydrolysis + PAS, phenylhydrazine + PAS and thiosemicarbazide + PAS. The presence of neutral glycoproteins was demonstrated by PAS reactivity. PAS inhibition following Alcian Blue staining in pH 2.5 and 1.0 showed the presence of a small quantity of acid glycoprotein. The extracellular matrix analysis showed the presence of neutral and acid glycoconjugates. These findings suggests a mutual interaction and a complex role in ganglionic physiology.

El ganglio ótico es un componente craneal de la división parasimpática del sistema nervioso autónomo (SNA). Similar al otro ganglio parasimpático, el ganglio ótico presenta neuronas multipolares que están rodeadas totalmente por las células satélites y la sustancia intercelular, lo cual permite la utilización de este ganglio como un buen modelo experimental para estudiar las relaciones matriz extracelular/neurona. Examinamos, con microscopio de luz, el ganglio ótico 10 ratones. Con los métodos histológicos rutinarios fueron obtenidas 5 secciones y coloreadas con tricrómico de Gomori, PAS, Azul de Alcián pH 2.5 y pH1.0, acetilación + PAS, acetilación + desacetilación + PAS, hidrólisis de ácido + PAS, fenilhidrazina + PAS y tiosemicarbacida + PAS. La presencia de glicoproteínas neutras fue demostrada por la reactividad de PAS. La inhibición de PAS y la posterior tinción con Azul de Alcian en pH 2.5 y 1.0, demostró la presencia de una cantidad pequeña de glicoproteínas ácidas. El análisis extracelular de la matriz demostró la presencia de glicoconjugados neutros y ácidos. Estos resultados sugieren una interacción mutua y un papel complejo en la fisiología ganglionar.

DISTRIBUTION AND ORIGINS OF THE NITRERGIC PERIVASCULAR NERVES IN RAT CEREBRAL ARTERIES / 解剖学报

Objective To observe the distribution and origins of the nitrergic perivascular nerves in rat cerebral arteries with a histochemical method for reduced nictinamide adenine dinucleotid phosphate(NADPH) diphorase activity, after resecting the membraneous structure at the ethmoidal formen. Methods Health adult SD rats were randomly distributed to three groups:sham operation group(group A), unilateral (right) operation group(group B), and bilateral operation group (group C). Both group B and C were further divided into two groups: group of resection of membraneous structure and nasociliary nerve (group BⅠ,CⅠ), and group of only removing membraneous structure (group BⅡ, CⅡ). On the seventh day after operation, the pterygopalatine ganglia and otic ganglia of group A were taken, and striped the cerebral arteries of three groups. With the method of NADPH d we investigated the positive cells in pterygopalatine ganglia, otic ganglia, and the changes of positive perivascular nerve fibers. Results A great deal of NADPH d positive cells were found in both pterygopalatine ganglia and otic ganglia. After unilateral operation, the NADPH d positive nerves in the ipsilateral middle cerebral artery(MCA) completely disappeared, but it did not change on the contralateral MCA. The positive nerves on basal artery(BA) and bilateral posterior cerebral artery(PCA), internal carotid artery(ICA), and anterior cerebral artery (ACA), obviously decreased. After bilateral operation, the positive nerve fibers in all arteries except ACA disappeared. There were no significant difference between group BⅠ and BⅡ; CⅠ and CⅡ.Conclusion There were nitrergic nerve fibers in all major cerebral arteries, and the density of positive nerve fibers in the anterior circulation of the cerebral artery was higher than that of posterior one. Different cerebral arteries have different origins of nitrergic nerve. The nitrergic nerve in BA, PCA and ICA completely originated from ipsilateral pterygopalatine ganglia; the nitrergic nerves of MCA were completely originated from ipsilateral pterygopalatine ganglion; ACA have more sources of nitrergic nerves other than bilateral pterygopalatine ganglia. Nasociliary nerve from trigeminal ganglion did not involve in the origins of nitrergic perivascular nerves in rat cerebral arteries. [