János Vág

Differentiation of Primary Human Submandibular Gland Cells Cultured on Basement Membrane Extract

There is no effective treatment for the loss of functional salivary tissue after irradiation for head and neck cancer or the autoimmune disease Sjögrens syndrome. One possible approach is the regeneration of salivary glands from stem cells. The present study aimed to investigate whether small pieces of human submandiblar gland tissue contain elements necessary for the reconstruction of salivary rudiments in vitro via acinar and ductal cell differentiation. Primary submandibular gland (primary total human salivary gland; PTHSG) cells were isolated from human tissue and cultured in vitro using a new method in which single cells form an expanding epithelial monolayer on plastic substrates. Differentiation, morphology, number, and organization of these cells were then followed on basement membrane extract (BME) using RNA quantitation (amylase, claudin-1 (CLN1), CLN3, kallikrein, vimentin), immunohistochemistry (amylase and occludin), viability assay, and videomicroscopy. On the surface of BME, PTHSG cells formed acinotubular structures within 24 h, did not proliferate, and stained for amylase. In cultures derived from half of the donors, the acinar markers amylase and CLN3 were upregulated. The PTHSG culture model suggests that human salivary gland may be capable of regeneration via reorganization and differentiation and that basement membrane components play a crucial role in the morphological and functional differentiation of salivary cells.

Assessment of heat provocation tests on the human gingiva: the effect of periodontal disease and smoking

UNLABELLED Periodontal inflammation is associated with morphological changes in the blood vessels which may influence the regulation of gingival blood flow (GBF). Our aim was to adapt the heat provocation test to the human gingiva to assess vascular reactivity in periodontal inflammation. METHOD GBF was recorded by Laser Doppler Flowmetry before and after heat provocation in healthy volunteers (n = 50). Heat was generated either by warm saline or a halogen lamp. The latter method was also utilized for a heat test in non-smoking and smoking patients with periodontal inflammation. The circulatory parameters were correlated to the inflammatory marker, i.e. gingival crevicular fluid (GCF) production measured by Periotron. RESULTS Local application of heat caused a rapid, significant and transient increase in GBF regardless of the method used. The increase in the speed and not in the concentration of moving blood cells was responsible for increased GBF. Higher GCF values were correlated with increased peak flow, flux pulse amplitude and faster restoration of GBF after the test in non-smokers, but not in smokers. CONCLUSIONS The heat test could be a valuable tool to check the vascular reactivity of gingival vessels. Moderate periodontal inflammation may facilitate gingival vascular responsiveness which can be suppressed by smoking.

Chronic inflammation in the pancreas and salivary glands--lessons from similarities and differences in pathophysiology and treatment modalities.

The pancreas and salivary glands have similar anatomical structures and physiological functions producing bicarbonate-rich fluid containing digestive enzymes and other components to be delivered into the gut. Despite these similarities, the two organs are also different in numerous respects, especially regarding the inflammatory diseases affecting them. This article will summarize the pathophysiology and current and potential pharmacological treatments of chronic inflammatory diseases such as chronic pancreatitis, autoimmune pancreatitis, Sjögrens syndrome and irradiation-induced salivary gland atrophy. Despite the differences, in both organs the inflammatory process is accompanied by epithelial tissue destruction and fibrosis. Both in pancreatic and in salivary research, an important task is to stop or even reverse this process. The utilization of stem/progenitor cell populations previously identified in these organs and the application of mesenchymal stem cells are very promising for such regenerative purposes. In addition, gene therapy and tissue engineering research progressively advance and have already yielded clinically beneficial preliminary results for salivary gland diseases. For the hard-to-access, hard-to-regenerate pancreas these developments may also offer new solutions, especially since salivary and pancreatic progenitors are very similar in characteristics and may be mutually useful to regenerate the respective other organ as well. These novel developments could be of great significance and may bring new hope for patients since currently used therapeutic protocols in salivary and in pancreatic chronic inflammatory diseases offer primarily symptomatic treatments and limited beneficial outcome.

Intrarenal Distribution of Blood Flow in Sodium Depleted and Sodium Loaded Rats: Role of Nitric Oxide

The renal hemodynamic effects of nitric oxide synthase (NOS) inhibition and dietary salt were studied in rats. L-NAME (0.1 mg/ml in the drinking fluid, about 12 mg/kg/day) was given for 4 days to rats receiving low (sodium depletion, SD), normal (N) or high (sodium load, SL) NaCl diet. Intrarenal hemodynamics was studied in anaesthesia. NOS inhibition decreased renal blood flow and increased renal vascular resistance in each group. Cortical and outer medullary but not inner medullary blood flow increased in direct ratio to the sodium intake. NOS inhibition decreased the blood flow and increased the vascular resistance in all layers of the kidney in SD, N, and SL rats as well. In SD and N, but not in SL rats L-NAME induced vasoconstriction was higher in the outer (OM) and inner medulla (IM) than in the cortex (C) [SD: ΔCVR 43%, ΔOMVR 54%, ΔIMVR 84%; N: ΔCVR 54%, ΔOMVR 96%, ΔIMVR 106%; SL: ΔCVR 50%, ΔOMVR 64%, ΔIMVR 35%]; in normal rats blood flow shifts from the medulla toward the cortex. In conclusion, nitric oxide may have a role in the regulation of renal vascular tone not only in the case of regular sodium uptake but in the sodium depleted or loaded organism as well. However, nitric oxide has no role in the dietary salt evoked vascular adaptation in the kidney.

Role of nitric oxide in the regulation of blood flow in the rat submandibular gland during carotid artery occlusion

The possible involvement of nitric oxide in the preservation of blood flow to the rat submandibular gland after uni- or bilateral occlusion of the common carotid was studied. Glandular blood flow and mean blood pressure were monitored before, during and after carotid occlusion in the presence and absence of the nitric oxide synthase inhibitor N(omega)-nitro-L-arginine-methyl-ester (L-NAME). To calculate vascular resistance, the local perfusion pressure distal to the point of occlusion was also measured. In normal rats, uni- or bilateral carotid occlusion resulted in an immediate decrease in ipsilateral glandular blood flow. After the cessation of carotid occlusion, hyperaemia was observed in the submandibular gland. Both local perfusion pressure and vascular resistance decreased during carotid occlusion. In the group pretreated with L-NAME, trends in blood-flow responses to uni- or bilateral occlusion were identical to those registered in the control groups, though the magnitude of the alterations was significantly less. The well-maintained glandular blood flow was due to functioning vascular anastomoses and compensating dilatation of glandular blood vessels. Nitric oxide had only a restrained effect on this compensatory mechanism.

Angiotensin Ii Type 1 (at1) Receptor Blockade Enhances the L‐NAME‐Induced Vasoconstriction in Rat Submandibular Gland

The vasoregulatory role of nitric oxide (NO) and angiotensin II type 1 (AT1) receptors in the circulation of the submandibular gland (SMG) of rats was studied. The glandular blood flow was determined by means of laser Doppler flowmetry and rubidium isotope technique. The data obtained by these two methods correlated well (r= 0.77; P < 0.01). The AT1 receptor antagonist candesartan (0.5 mg kg−1, I.V.) reduced the vascular resistance in the SMG by 37% (P < 0.05). By contrast, the NO synthase blocker L‐NAME (15 mg kg−1, I.V.) significantly increased vascular resistance in the SMG both in candesartan‐treated (P < 0.001) and non‐treated (P < 0.001) animals. The increase in resistance was greater (P < 0.05) after previous blockade of AT1 receptors. These findings suggest that the AT1 receptors have an important role in the vasoregulation of the SMG in the rat. As a result of AT1 blockade, NO‐dependent tone of glandular vessels may be enhanced significantly.

Assessment of the test-retest reliability of human gingival blood flow measurements by Laser Speckle Contrast Imaging in a healthy cohort

The reliability of gingival blood flow measured by Laser Speckle Contrast Imaging is unknown. Our aim was to investigate the effect of factors inherent in oral mucosa measurement on intra‐day and inter‐day reliability.

Functional characterization of collaterals in the human gingiva by laser speckle contrast imaging

The rate of blood flow between the various areas of the gingiva in resting position and under challenge is unknown. In this study, the LSCI method was used to map spatial and temporal changes in gingival blood flow after transient compression.

A proposed method for assessing the appropriate timing of early implant placements: a case report

An abstract is not required.