Wyniki wyszukiwania

1

Adrenergic and cholinergic innervation of the chicken pancreas

100%

Ulas M., Penkowski A., Lakomy M.

Folia Morphologica

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2003

|

tom 62

|

nr 3

243-246

The distribution, as well as the morphological characteristics of adrenergic and cholinergic nerve fibres was studied in the pancreas of the hen and the cock. The presence of numerous adrenergic and moderately numerous cholinergic structures was revealed in the organ. They were seen as nerve fibre bundles or single nerve fibres located in the vicinity of blood vessels and exocrine ducts, as well as the cells of the exocrine and endocrine pancreas. Single TH- and ChAT-positive nerve cell bodies were also found in the organ under study.

2

Innervation of the biceps femoris muscle in human fetuses

100%

Klak A.

Folia Morphologica

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1986

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tom 45

|

nr 2

3

Anatomical study of lumbar spine innervation

86%

Higuchi K., Sato T.

Folia Morphologica

|

2002

|

tom 61

|

nr 2

71-79

To precisely evaluate low back pain, identification of the detailed innervation of the lumbar spine is necessary. On twenty-five sides of adult cadavers we investigated various patterns of rami communicantes (RC) and their relationship to the psoas major muscle (PM). In ten sides, we focused our dissection on the minute nerve supply of the anterior (ALL) and posterior longitudinal ligaments (PLL), vertebral bodies and the intervertebral discs (IVD). According to the mode of piercing PM, two types of RC were observed: superficial oblique rami (SOR) and deep transverse rami (DTR). SOR ran obliquely between superficial heads of PM, connecting sympathetic trunk (ST) and T12-L2 (3) spinal nerves non-segmentally. DTR ran segmentally close to the vertebral bodies and were situated deep to the PM slips. On the lateral side of the lumbar spine, the vertebral bodies and IVD received branches from DTR and ventral rami segmentally, as well as branches from the sympathetic trunk (ST) and, in the upper lumbar region, SOR non-segmentally. On the anterior aspect of the lumbar spine, ALL received branches from ST and splanchnic nerves non-segmentally. Within the vertebral canal, the posterior aspect of IVD and PLL received the sinu-vertebral nerves originating from DTR. These findings suggest the coexistence of two different types of innervation: one originating directly from the spinal nerve segmentally, and one reaching vertebral structures via the sympathetic nerves non-segmentally. Therefore, sympathetic nerves are likely involved in the proprioception of the spinal column.

4

Sources of the autonomic and afferent fibers to the clitoris in pig

86%

Flieger S., Welento J., Boratynski Z., Krzyzanowski J., Slawomirski J.

Folia Morphologica

|

1988

|

tom 47

|

nr 1-4

5

Sources of autonomic and afferent fibers to the uterine cervix in pig

86%

Boratynski Z., Flieger S., Welento J., Krzyzanowski J., Slawomirski J.

Folia Morphologica

|

1988

|

tom 47

|

nr 1-4

6

Vasoactive intestinal polypeptide [VIP] - immunoreactive nerve fibres in the mammary gland of the pig

86%

Franke-Radowiecka A.

Folia Morphologica

|

2003

|

tom 62

|

nr 3

267-270

Immunohistochemical studies have been performed to investigate the coexistence of VIP with dopamine-β-hydroxylase (DβH), vesicular acetylcholine transporter (VAChT), somatostatin (SOM) or neuropeptyd Y (NPY) within nerve fibres supplying the immature mammary gland in the pig. Generally, a moderate number of the VIP-immunoreactive (VIP-IR) nerve fibres were located in the nipple and parenchyma of the gland. VIP-IR fibres surrounded smooth muscle cells (SMC), blood vessels (BV) and lactiferous ducts (LD). Double-labelling immunohistochemistry revealed that some of VIP-IR nerve fibres also contained immunoreactivity to DβH. VIP/DβH-IR nerves were associated with BV and SMC and single fibres were observed around the LD in both nipple and parenchyma of the gland. VIP/VAChT-IR nerve fibres were not observed. The majority of VIP-IR fibres associated with SMC were also SOM-IR. Less numerous VIP/SOM-IR fibres supplied the BV and were located around the LD of the gland. A small number of VIP-IR nerves also displayed immunoreactivity to NPY. VIP/NPY-IR nerve fibres supplied the BV of the gland.

7

Effect of chemical sympathectomy on bone marrow cell proliferation in the rat

86%

Tabarowski Z.

Acta Biologica Cracoviensia. Series Zoologia

|

2008

|

tom 50

11-16

8

Effect of botulinum toxin [BTX] on the chemical coding of nerve fibres supplying the canine urinary bladder

86%

Lew S., Bossowska A., Radziszewski P., Majewski M., Kwiatkowska M., Kuleta Z.

Bulletin of the Veterinary Institute in Puławy

|

2010

|

tom 54

|

nr 1

69-74

The objective of this study was to investigate the distribution and chemical coding patterns of nerve fibres supplying the canine urinary bladder before and after botulinum toxin (BTX) injection. The experimental material comprised six bitches. The injection of the BTX into the urinary bladder wall in dogs clearly altered the bladder's innervation pattern, indicating that BTX affects the components of both the sensory and parasympathetic nervous systems, and that degenerative changes are accompanied by restorative processes.

9

The adrenergic and cholinergic innervation of the thyroid chicken gland

86%

Baryla J., Greniuk G., Lakomy M.

Folia Morphologica

|

2003

|

tom 62

|

nr 3

247-249

The morphology and distribution of the cholinergic and adrenergic nerve fibres were described in the thyroid gland of the domestic hen. The adrenergic structures were visualised with glyoxylic acid and with immunohistochemical staining for tyrosine hydroxylase (TH), the marker for adrenergic nerve structures. Cholinergic structures were visualised using the Karnovsky and Roots method. It was found that the thyroid gland is supplied with numerous adrenergic and cholinergic nerve fibres, which occur as small or large bundles or single nerve fibres. These were located around blood vessels, under the fibrous capsule and in the vicinity of secretory vesicles.

10

Study of the carotid body in the cat with special reference to its innervation. I. Light microscopy

86%

Bengoechea M. E., Vega-Alvarez J. A., Lopez Muniz A., Anibarro M. D., Perez-Casas A.

Folia Morphologica

|

1988

|

tom 47

|

nr 1-4

11

An implication to the role of testicular serotonergic innervation. An in vitro study on serotonin effects in the control of Leydig cell secretory function

86%

Piescikowska I., Lukaszyk A., Balcerek M., Filipiak K., Ludwiczak H., Butowska W., Warchol J. B.

Folia Morphologica

|

1996

|

tom 55

|

nr 4

12

Prosomatostatin and somatostatin in pig pineal gland. An immunohistochemical study

86%

Przybylska-Gornowicz B., Lewczuk B., Moller M.

Folia Histochemica et Cytobiologica

|

1999

|

tom 37

|

nr 2

13

The distribution and age-related localisation of immunoreactive substance P in corneal nerve plexus of the dog

86%

Lasys V., Sienkiewicz W., Stropus R., Lakomy M., Daugnora L.

Polish Journal of Veterinary Sciences

|

2000

|

tom 03

|

nr 2

The aim of this study was to determine histotopography and age-related changes of immunoreactive substance P (SP-IR) nerve plexus in dog cornea. In this research corneas of three groups of dogs of different age were used: young (2-3 months), adult (1-3 years) and old (8 and more years). Immunohistochemical demonstration of SP was performed on 40 um serial free-floating corneal sections cut parallel to the corneal surface. Results showed that SP-IR nerve plexus of dog cornea was formed by thick (21.9-73 μm diameter), medium (7.3-21.8 μm diameter) and thin (2.19-7.2 um diameter) nerve bundles and varicose or smooth nerve fibers branching into terminals. From limbus SP-IR thick nerve bundles ran radially through superficial and intermediate layers of stroma to the central part of cornea. Thick nerve bundles split into medium ones in central and pericentral parts of cornea. They branched repeatedly forming nerve plexus of stroma. Thin nerve bundles located in subepithelium, superficial and intermediate layers of stroma split from thick and medium bundles. Nerve fibres branched from thin bundles, curved and joined with each other, forming a network of various forms. The highest amount of nerve fibres was observed in corneal epithelium and subepithelium layer. The nerve bundles of young dogs were smaller in diameter than those of adults and old ones. With age the density of nerve fibres and thin bundles decreased in corneal epithelium and subepithelium layer. The density of medium and thick bundles in superficial and intermediate stroma was similar in dogs of all ages. No nerve plexus elements were noticed in stromal deep layer and endothelium in dogs of all ages.

14

Innervation of the testis in human fetuses from 16th to 22nd week

86%

Otulakowski B.

Folia Morphologica

|

1992

|

tom 51

|

nr 1

15

Distribution of spinal sensory neurons supplying the adrenal gland in the pig

86%

Gonkowski S.

Folia Histochemica et Cytobiologica

|

2002

|

tom 40

|

nr 4

16

The adrenergic and cholinergic innervation of the chicken vas deferens

86%

Sadanowicz P., Marczak M., Lakomy M.

Folia Morphologica

|

2004

|

tom 63

|

nr 4

The morphological characteristics of adrenergic and cholinergic innervation are described in the vas deferens of the domestic fowl. Adrenergic innervation was much better developed than the cholinergic. Both types of nerve fibre were found in the muscular membrane, submucosal membrane and in the mucosa. The largest number of adrenergic nerve fibres was observed in the muscular membrane. These were less numerous in the submucosa, mucosa and in the wall of small blood vessels. The largest number of cholinergic nerve fibres was noted under the mucosa. Single cholinergic nerve fibres were seen to penetrate between the epithelial cells.

17

Adrenergic, nitrergic and peptidergic innervation of the urethral muscle in the boar

86%

Sienkiewicz W., Kaleczyc J., Czaja K., Lakomy M.

Folia Histochemica et Cytobiologica

|

2004

|

tom 42

|

nr 2

18

Influence of active immunization against GnRH on VIP-and NPY-positive innervation of the porcine testis

86%

Wasowicz K., Kaleczyc J., Sienkiewicz W., Czaja K., Ziecik A., Lakomy M.

Folia Histochemica et Cytobiologica

|

2001

|

tom 39

|

nr 3

19

Distribution of growth associated protein [GAP-43] immunoreactivity in nerve fibers supplying the pig pineal gland

86%

Przybylska-Gornowicz B., Lewczuk B., Bossowska A., Gonkowski S., Majewski M.

Folia Histochemica et Cytobiologica

|

2001

|

tom 39

|

nr 2

20

Anatomic variability of groin innervation

72%

Bachul P., Tomaszewski K. A., Kmiotek E. K., Kratochwil M., Solecki R., Walocha J. A.

Folia Morphologica

|

2013

|

tom 72

|

nr 3

Inguinal hernia repairs are very common yet fairly complex surgical procedures. Variations in the anatomical course of the inguinal nerves require that diligence is taken in their proper recognition. Inadvertent surgical injury to these nerves is associated with long term postoperative pain and complications. The aim of the present study was to highlight the complexity and variation in the innervation of the inguinal region in order to increase proper nerve identification during surgical interventions. Bilateral dissection of the inguinal and posterior abdominal regions in one human male cadaver revealed an atypical anatomic topography of the groin innervation. This unusual case was observed at the Jagiellonian University Anatomy Department during routine cadaveric preparations. The left ilioinguinal nerve was absent. The left genital branch of the genitofemoral nerve arose higher than expected from the lumbar plexus and supplied the groin region, which is typically innervated by the ilioinguinal nerve. Furthermore, the left lateral cutaneous femoral nerve and the right genital branch of the genitofemoral nerve also followed uncharacteristic courses. Awareness of topographical nerve variations during inguinal hernia repair will help surgeons identify and preserve important nerves, thus decreasing the incidence of chronic postoperative pain. (Folia Morphol 2013; 72, 3: 267–270)

Ograniczanie wyników

Adrenergic and cholinergic innervation of the chicken pancreas

Innervation of the biceps femoris muscle in human fetuses

Anatomical study of lumbar spine innervation

Sources of the autonomic and afferent fibers to the clitoris in pig

Sources of autonomic and afferent fibers to the uterine cervix in pig

Vasoactive intestinal polypeptide [VIP] - immunoreactive nerve fibres in the mammary gland of the pig

Effect of chemical sympathectomy on bone marrow cell proliferation in the rat

Effect of botulinum toxin [BTX] on the chemical coding of nerve fibres supplying the canine urinary bladder

The adrenergic and cholinergic innervation of the thyroid chicken gland

Study of the carotid body in the cat with special reference to its innervation. I. Light microscopy

An implication to the role of testicular serotonergic innervation. An in vitro study on serotonin effects in the control of Leydig cell secretory function

Prosomatostatin and somatostatin in pig pineal gland. An immunohistochemical study

The distribution and age-related localisation of immunoreactive substance P in corneal nerve plexus of the dog

Innervation of the testis in human fetuses from 16th to 22nd week

Distribution of spinal sensory neurons supplying the adrenal gland in the pig

The adrenergic and cholinergic innervation of the chicken vas deferens

Adrenergic, nitrergic and peptidergic innervation of the urethral muscle in the boar