FAZAN, S. V. P.; DE VASCONCELOS, C. C. A.; VALENÇA, M. M.; NESSLER, R. & MOORE, K. C. Diabetic peripheral neuropathies: a morphometric overview. Int. J. Morphol., 28(1):51-64, 2010. SUMMARY: Diabetes is now considered one of the main threats to human health in the 21st century and many researchers are dedicated to investigate the physiopathology of the disease, with further insights on the managements of its major complications. Since understanding the pathophysiology of the major complications of diabetes and their underlying processes is mandatory, experimental models of the disease may be useful as they allow the recognition of the early mechanisms involved in the long-term complications of diabetes. Peripheral nerve involvement is highly frequent in diabetes mellitus and it has been documented that one third of diabetic patients have peripheral neuropathy. The true prevalence is not known and reports vary from 10% to 90% in diabetic patients, depending on the criteria and methods used to define neuropathy. In this review, the most common experimental models of diabetes are presented and the pathological findings on major peripheral nerves are discussed. Also, the insights brought by morphometry to the diabetic neuropathy research are highlighted.
Air traffic controllers simultaneously develop complex and multiple tasks in the
course of their activities. In this context, concern is raised over the high
level of attention needed by these professionals which can ultimately be
affected by stress and fatigue.ObjectivesThe objective of this study was to assess attention level in air traffic
controllers (ATCo).Methods45 flight protection professionals were evaluated, comprising 30 ATCo,
subdivided into ATCo with ten or more years in the profession
(ATCo≥10, n=15) and ATCo with less than ten years in the profession
(ATCo <10, n=15) and 15 aeronautical information services operators
(AIS), subdivided into AIS with ten years or more in the profession
(AIS≥10, n=8) and AIS with less than ten years in the profession (AIS
<10, n=7), who were included as the control group. The digit symbol, d2
(the individual marks the letter d on a specific form containing 14 lines
with 47 letters in each, maintaining focus on letter d followed by two
dashes), forward digit span, backward digit span and PASAT (paced auditory
serial addition test) attention tests were used. Kruskal-Wallis was used and
data expressed as Median (Minimum and Maximum) with p<0.05.ResultsThe ATCo≥10 presented greater focus of attention, sustained attention,
mental manipulation and resistance to interference capacity compared to the
AIS≥10. Comparison of ATCo≥10 to the AIS<10 showed they
presented only greater resistance to interference, and when compared to the
ATCo<10 presented lower focus.ConclusionsThe air traffic control activity after ten years may be associated with a
high level of attention.
This study aimed to investigate the effect of a single injection of pilocarpine upon the phenomenon of cortical spreading depression (SD), in adult rats submitted to early malnutrition and/or to REM-sleep deprivation for 72h prior to the SD-recordings. The SD was recorded continuously for 3-4h in 13 well-nourished (W) and 15 early-malnourished (M) adult rats. One to two hours after the beginning of the recording session, a sub-convulsing intraperitoneal (i.p.) injection of pilocarpine (190mg/kg) was applied and its effects on SD were studied during the rest of the recording session. Pilocarpine reduced markedly the ECoG amplitudes in all animals and decreased the SD velocity of propagation in the M-, but not in the W-rats, as compared with the pre-drug values for the same animals. In additional 9W- and 10 M-animals, REM-sleep deprivation was induced during the 72 h preceding the SD-recording session. This condition enhanced the pilocarpine effects on SD in the W-, but not in the M-rats, as compared to the respective non-deprived (ND) groups. The results indicate an important acute cholinergic influence on SD, acting by means of pilocarpine-activated muscarinic receptors. This effect seems to be differentially modulated by sleep deprivation and malnutrition.
Excessive sleepiness (ES) is an increased tendency to initiate involuntary sleep
for naps at inappropriate times.ObjectiveThe objective of this study was to assess ES in air traffic controllers
(ATCo).Methods45 flight protection professionals were evaluated, comprising 30 ATCo,
subdivided into ATCo with ten or more years in the profession
(ATCo≥10, n=15) and ATCo with less than ten years in the profession
(ATCo<10, n=15) and 15 aeronautical information services operators (AIS),
subdivided into AIS with ten years or more in the profession (AIS≥10,
n=8) and AIS with less than ten years in the profession (AIS<10, n=7),
who were included as the control group. The Epworth Sleepiness Scale and
Maintenance of Wakefulness Test were used for evaluating subjective and
objective excessive sleepiness. Kruskal-Wallis was used for ES and
Mann-Whitney for sleep latency (SL), collection time in minutes (mins), and
expressed as Median (Minimum-Maximum), p<0.05.ResultsATCo≥10 12 (6-14) mins and ATCo<10 10 (1-15) mins showed greater
sleepiness compared to CONTROL1 7 (3-8) mins and CONTROL2 6 (4-6) mins,
p=0.001*. A total of 77.27% of the ATCo and 16.67% of the AIS had an SL of
less than 20 minutes. The ATCo presented an SL of 16.59 (3.25-40), lower
than that of the AIS of 31.71 (10.63-40) mins, p<0.05*.ConclusionBrazilian air traffic controllers exhibit excessive sleepiness.
It is widely described in the literature that diabetic patients present hearing impairment. Despite the histological alterations of the internal ear structures in these patients as well as in experimental models of diabetes, to the best of our knowledge, an histological evaluation of the vestibulocochlear nerve have not been performed. In the present study, ultrastructural alterations are described and compared between a spinal nerves and a cranial nerve in rats with chronic induced diabetes. Male Wistar rats (n = 12), fed with standard diet from the animal care facility at 42 days of age were used. Induced diabetic animals (n=6) were fasted for 12 hours prior to being injected intraperitoneally with streptozotocin (STZ-60mg/kg) in a single dose. Control animals (n=6) received (0.01 mol/l citrate buffer, pH 4.5) vehicle alone. Ten weeks after STZ injection the animals were perfused intracardially with Karnovsky solution. Right and left vestibulocochlear nerves were dissected and histologically processed for epoxy resin embedding. Samples were imaged with the transmission electron microscope. Large myelinated fibers with morphological signs of axonal atrophy in the vestibulocochlear nerves were readily observed. These results suggest that chronic STZ-induced diabetes in rats caused alterations in the myelinated fibers and Schwann cells, compatible to the classic diabetes signs and symptoms. Morphological alterations of the vestibulocochlear nerve in diabetes is described for the first time and contributes information for a better understanding of why there are changes in hearing observed in diabetic patients.
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