Flexible fiberoptic bronchoscopy : studies on methods for the diagnosis of carcinoma of the lung, bronchial mucosal damage and haemodynamic effects

Lundgren, Rune

January 1982

The diagnostic accuracy attained with the use of transbronchial fine needle aspiration biopsy, aspiration of bronchial secretion, bronchial washing, brush biopsy and forceps biopsy via a flexible fiberoptic bronchoscope was compared in patients with carcinoma of the lung. In endoscopic visible tumours the sensitivity of forceps biopsy was higher than that of the other methods. When forceps biopsy was combined with bronchial washing the overall diagnostic accuracy was significantly higher than that of any of the single methods, while no appreciable increase was obtained by adding additional methods. Selective brush biopsy from every segment bronchus has been established as a method in the search for occult bronchial carcinoma. The extent of respiratory mucosal damage and wound healing after brush biopsy was therefore studied in rabbits. Large differences in the extension and depth of the damage was observed. The basement membrane was often penetrated. Regeneration started during the first day after brush biopsy and a normal ciliated epithelium was restored within three weeks. To determine if the bronchoscope itself damaged the respiratory epithelium, bronchial mucosa was studied in the pig after examination with a flexible fiberoptic bronchoscope. The columnar epithelial cells were torn off in areas where the bronchoscope had rubbed against the airway wall but the basement membrane was not damaged. Since the function of the respiratory epithelium is to remove inhaled particles from the airways, mucociliary clearance was studied in man after fiberoptic bronchoscopy. The study suggests that the tracheobronchial clearance system has a large reserve for mechanical trauma. Mucociliary clearance can however be decreased after fiberoptic bronchoscopy in some patients. An increasing number of patients with impaired cardiopulmonary function are today subjected to examination with flexible fiberoptic broncoscopy. The haemodynamic effects of fiberoptic bronchoscopy performed under topical anaesthesia were therefore studied in patients with restrictive lung disease. The procedure induced marked haemodynamic changes during passage of the larynx and during suctioning. A slight fall in arterial oxygen tension was observed during bronchial suctioning and in the post-bronchoscopic period. Three of ten patients developed ST-T-segment changes during bronchial suctioning. / <p>S. 1-48: sammanfattning, s. 49-126: 5 uppsatser</p> / digitalisering@umu.se

Flexible fiberoptic bronchoscopy

bronchial carcinoma

brush biopsy

respiratory mucosal damage

regeneration

mucociliary clearance

haemodynamic effects

hypoxemia

Clinical Medicine

Klinisk medicin

Nitrate, Nitrite and Nitric Oxide in Gastric Mucosal Defense

Petersson, Joel

January 2008

<p>The human stomach normally contains high levels of bioactive nitric oxide (NO). This NO derives from salivary nitrate (NO₃^-) that is converted to nitrite (NO₂^-) by oral bacteria and thereafter non-enzymatically reduced in the acidic gastric lumen to NO. Nitrate is a common component in vegetables, and after ingestion it is absorbed in the small intestine. Interestingly, circulating nitrate is then concentrated by the salivary glands. Hence, intake of nitrate-rich vegetables results in high levels of NO in the stomach. The physiological effects of the high concentration of NO gas normally present in the gastric lumen have been hitherto unknown, and the present investigations were therefore conducted to address this issue.</p><p>NO produced in the gastric lumen after nitrate ingestion increased gastric mucosal blood flow and the thickness of the firmly adherent mucus layer in the stomach. The blood flow and mucus layer are essential defense mechanisms that protect the mucosa from luminal acid and noxious agents. Nonsteroidal antiinflammatory drugs (NSAID) are commonly prescribed and effective drugs for treating pain and inflammation, but are associated with severe gastrointestinal side effects. We demonstrated that a nitrate-rich diet protects against NSAID-induced gastric damage, as a result of the increased formation of NO in the stomach. We also showed that the gastroprotective effect attributed to nitrate depended completely on conversion of nitrate to nitrite by the bacterial flora colonizing the tongue, and that the oral microflora is therefore important in regulating physiological conditions in the stomach.</p><p>In summary, this thesis challenges the current dogma that nitrate intake is hazardous, and on the contrary suggests that dietary nitrate plays a direct role in regulating gastric homeostasis. It is likely that a sufficient supply of nitrate in the diet together with the oral microflora is essential for preventing pathological conditions in the gastrointestinal tract.</p>

dietary nitrate

mucus gel layer

mucosal blood flow

mucus thickness

laser-Doppler flowmetry

mucosal damage

intra-vital microscopy

mucosal permeability

Physiology

Fysiologi

Nitrate, Nitrite and Nitric Oxide in Gastric Mucosal Defense

Petersson, Joel

January 2008

The human stomach normally contains high levels of bioactive nitric oxide (NO). This NO derives from salivary nitrate (NO3-) that is converted to nitrite (NO2-) by oral bacteria and thereafter non-enzymatically reduced in the acidic gastric lumen to NO. Nitrate is a common component in vegetables, and after ingestion it is absorbed in the small intestine. Interestingly, circulating nitrate is then concentrated by the salivary glands. Hence, intake of nitrate-rich vegetables results in high levels of NO in the stomach. The physiological effects of the high concentration of NO gas normally present in the gastric lumen have been hitherto unknown, and the present investigations were therefore conducted to address this issue. NO produced in the gastric lumen after nitrate ingestion increased gastric mucosal blood flow and the thickness of the firmly adherent mucus layer in the stomach. The blood flow and mucus layer are essential defense mechanisms that protect the mucosa from luminal acid and noxious agents. Nonsteroidal antiinflammatory drugs (NSAID) are commonly prescribed and effective drugs for treating pain and inflammation, but are associated with severe gastrointestinal side effects. We demonstrated that a nitrate-rich diet protects against NSAID-induced gastric damage, as a result of the increased formation of NO in the stomach. We also showed that the gastroprotective effect attributed to nitrate depended completely on conversion of nitrate to nitrite by the bacterial flora colonizing the tongue, and that the oral microflora is therefore important in regulating physiological conditions in the stomach. In summary, this thesis challenges the current dogma that nitrate intake is hazardous, and on the contrary suggests that dietary nitrate plays a direct role in regulating gastric homeostasis. It is likely that a sufficient supply of nitrate in the diet together with the oral microflora is essential for preventing pathological conditions in the gastrointestinal tract.

dietary nitrate

mucus gel layer

mucosal blood flow

mucus thickness

laser-Doppler flowmetry

mucosal damage

intra-vital microscopy

mucosal permeability

Physiology

Fysiologi