D. Anders scite author profile

Nerve growth factor (NGF) is the prototype of related neurotrophic proteins, the so-called neurotrophins. NGF is essential for proper development of sympathetic and neural crest-derived sensory neurons of the peripheral nervous system (PNS) as well as of the neurons in the cholinergic basal forebrain (CBF). In the mature peripheral and central nervous system (CNS) NGF is also biologically active; NGF facilitates neuronal plasticity and regulates synaptic transmission and connectivity. Besides this well established neurotrophic function, recent findings suggest a role of NGF in neuroimmune and stress-associated processes, which NGF imparts not only as the classical "target-derived messenger", that is retrogradely transported within NGF-sensitive neurons, but also as para- and autocrine cytokine modulating the function of non-neuronal cells. Since neurotrophins are produced in very small amounts in vivo, NGF-sensitive cells have to compete for the limited NGF even under physiological conditions, so that normally only less than 10% of NGF receptors (NGFR) are saturated with their endogenous ligand. Consequently, it is feasable that minute changes in NGF concentrations can influence neuronal function in an extensive way. Hence, one plausible pathomechanism of disease(s) may be that a deficiency in NGF leads to malfunction of NGF-sensitive neurons. The change in NGF concentrations in the course of several diseases, namely during alcoholic and diabetic neuropathy as well as in Alzheimer's disease (AD) and several lesion-models of the CBF, indicates that fluctuations of endogenous NGF concentrations in PNS and CNS follow a distinctive pattern. An initial deficit of NGF at the onset of pathological processes is typically followed by its temporary elevation, during which some neuronal deficits may be partially ameliorated. However, if the disease progresses a decrease of NGF is typically observed, which appears to be a "normalization" of formerly elevated NGF concentrations. In our hypothesis we postulate that after acute or chronic injuries NGF is up-regulated as an intrinsic attempt to regenerate NGF-sensitive neurons. After long-term exposure to noxious processes, however, this compensatory increase of NGF cannot be maintained and eventually breaks down. The extent of such a compensatory up-regulation may depend on age and condition of NGF-sensitive neurons as well as on the type of lesion (acute or chronic). Furthermore, we also postulate that an exceeding level of NGF or its chronic elevation could even be detrimental to neuronal functioning under certain conditions. Thus, endogenous NGF has the capacity to modulate and even to compensate different kinds of harmful processes and in this way it may reinstate the homeostatic equilibrium. In our view, it seems to be a more appropriate approach to regard NGF changes as independent of classical constructs of neuropsychiatric diseases. Perhaps our understanding of NGF may even model for a new approach to the aetiology of multifactorial neuropsychiatric disorders.

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Orofacial findings in the Klippel–Trénaunay syndrome

Mueller-Lessmann

Behrendt

Wetzel

et al. 2001

Int J Paed Dentistry

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The Klippel-Trénaunay syndrome is a triad of congenital anomalies characterised by haemangiomas, varicosities, and unilateral bony and soft tissue hypertrophy. Hypertrophy usually affects one distal limb, but trunk or face may be affected. Cutaneous haemangiomas (nevus flammeus) of varying extent and irregular contour are often present in the hypertrophic regions. Varicosities may also be part of the vascular lesions of the syndrome. Orofacial manifestations include facial asymmetry, jaw enlargement, and malocclusions as well as premature tooth eruption. Two cases of the Klippel-Trénaunay syndrome are presented here. Both of these show the typical hemifacial hypertrophy and premature eruption of teeth on the affected side. In the first case only the left mandibular region was affected. In contrast, in the second there was hypertrophy of the whole left side of the body including upper and lower jaws. This boy also suffers from congenital ideokinetic retardation, while the first was otherwise normal. Both cases differ from previously reported cases of the Klippel-Trénaunay syndrome in lacking any prominent facial nevus flammeus. In the first case there was also malformation of the crown of the first permanent molar on the affected side that has not been described previously.

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Measurement of Nerve Growth Factor Serum Concentration in a Psychologically Stressful Situation in Men

Lang

Anders

Danker‐Hopfe

et al. 2004

Stress

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Psychologically stressful events have been reported to elevate nerve growth factor (NGF) serum concentrations. NGF and cortisol serum concentrations were measured in 20 healthy male volunteers before (3 p.m.) and after (5 p.m.) an academic oral presentation and on a control day. Cortisol showed a significant overall change (p=0.001), i.e. cortisol serum concentrations were increased on the lecture day at 3 p.m. (p=0.007; 155%) and at 5 p.m. (p=0.001; 175%) as compared with the control day. In contrast to cortisol no significant differences among the four serum NGF measurements was detected (Chi-quadrat 2.94, df=3, p=0.401), i.e. the NGF serum concentrations remained unchanged on the lecture day at 3 p.m. (p=0.279) and at 5 p.m. (p=0.627) as compared with the control day. We conclude that NGF serum levels do not change during acute stress, at least after this type of stressor.

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Metastasizing fetal neuroblastoma with involvement of the placenta simulating fetal erythroblastosis

Anders

Kindermann

Pfeifer

1973

The Journal of Pediatrics

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D. Anders

Serum neurotrophins—A study on the time course and influencing factors in a large old age sample

The time course of nerve growth factor content in different neuropsychiatric diseases - a unifying hypothesis

Orofacial findings in the Klippel–Trénaunay syndrome

Measurement of Nerve Growth Factor Serum Concentration in a Psychologically Stressful Situation in Men

Metastasizing fetal neuroblastoma with involvement of the placenta simulating fetal erythroblastosis

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