Subject(s)
Data Interpretation, Statistical , Dermatitis, Atopic/veterinary , Dog Diseases/therapy , Homeopathy , Pruritus/veterinary , Research Design/standards , Animals , Dermatitis, Atopic/complications , Dermatitis, Atopic/therapy , Dog Diseases/etiology , Dogs , Pilot Projects , Placebos , Pruritus/etiology , Pruritus/therapy , Treatment OutcomeABSTRACT
OBJECTIVE: To measure the amount of heat generated during 3 methods of equine dental reduction with power instruments. DESIGN: In vitro study. SAMPLE POPULATION: 30 premolar and molar teeth removed from mandibles of 8 equine heads collected at an abbatoir. PROCEDURE: 38-gauge copper-constantan thermocouples were inserted into the lingual side of each tooth 15 mm (proximal) and 25 mm (distal) from the occlusal surface, at a depth of 5 mm, which placed the tip close to the pulp chamber. Group-NC1 (n = 10) teeth were ground for 1 minute without coolant, group-NC2 (10) teeth were ground for 2 minutes without coolant, and group-C2 (10) teeth were ground for 2 minutes with water for coolant. RESULTS: Mean temperature increase was 1.2 degrees C at the distal thermocouple and 6.6 degrees C at the proximal thermocouple for group-NC1 teeth, 4.1 degrees C at the distal thermocouple and 24.3 degrees C at the proximal thermocouple for group-NC2 teeth, and 0.8 degrees C at the distal thermocouple and -0.1 degrees C at the proximal thermocouple for group-C2 teeth. CONCLUSIONS AND CLINICAL RELEVANCE: In general, an increase of 5 degrees C in human teeth is considered the maximum increase before there is permanent damage to tooth pulp. In group-NC2 teeth, temperature increased above this limit by several degrees, whereas in group-C2 teeth, there was little or no temperature increase. Our results suggest that major reduction of equine teeth by use of power instruments causes thermal changes that may cause irreversible pulp damage unless water cooling is used.
Subject(s)
Dental Instruments/veterinary , Dental Pulp/physiology , Dentistry/veterinary , Horses/surgery , Hot Temperature , Tooth/physiology , Abattoirs , Animals , Bicuspid , Dental Instruments/standards , Dental Prophylaxis/adverse effects , Dental Prophylaxis/methods , Dental Prophylaxis/veterinary , Dental Pulp Necrosis/etiology , Dental Pulp Necrosis/veterinary , Dentistry/methods , Dentistry/standards , Female , Hot Temperature/adverse effects , Male , Molar , Thermal Conductivity , Time Factors , Tooth/surgeryABSTRACT
OBJECTIVES: To study the functional and structural responses of the right dorsal colon (RDC) of ponies to phenylbutazone (PBZ) in vitro at a concentration that could be achieved in vivo. ANIMALS: 8 adult ponies. PROCEDURE: Short circuit current and conductance were measured in mucosa from the RDC. Tissues incubated with and without HCO3- were exposed to PBZ, bumetanide, or indomethacin. Bidirectional Cl- fluxes were determined. After a baseline flux period, prostaglandin E2 (PGE2) was added to the serosal surfaces and a second flux period followed. Light and transmission electron microscopy were performed. RESULTS: Baseline short circuit current was diminished significantly by PBZ and indomethacin, and increased significantly after addictions of PGE2. After PGE2 was added, Cl- secretion increased significantly in tissues in HCO3- -free solutions and solutions with anti-inflammatory drugs, compared with corresponding baseline measurements and with control tissues exposed to PGE2. Bumetanide did not affect baseline short circuit current and Cl- fluxes. The predominant histologic change was apoptosis of surface epithelial cells treated with PBZ and to a lesser extent in those treated with indomethacin. CONCLUSIONS AND CLINICAL RELEVANCE: Prostaglandin-induced Cl- secretion appeared to involve a transporter that might also secrete HCO3-. Both PBZ and indomethacin altered ion transport in RDC and caused apoptosis; PBZ can damage mucosa through a mechanism that could be important in vivo. The clinically harmful effect of PBZ on equine RDC in vivo could be mediated through its effects on Cl- and HCO3- secretion.
Subject(s)
Anion Transport Proteins/metabolism , Anti-Inflammatory Agents, Non-Steroidal/pharmacology , Bicarbonates/metabolism , Chlorides/metabolism , Colon/drug effects , Horses/metabolism , Phenylbutazone/pharmacology , Animals , Apoptosis/drug effects , Biological Transport/drug effects , Biological Transport/physiology , Bumetanide/pharmacology , Colon/cytology , Colon/metabolism , Dinoprostone/physiology , In Vitro Techniques , Indomethacin/pharmacology , Intestinal Mucosa/cytology , Intestinal Mucosa/drug effects , Intestinal Mucosa/metabolism , Microscopy, Electron , Patch-Clamp TechniquesABSTRACT
An in vitro study compared two heated gutta-percha obturation techniques of the mandibular first molar in the dog. Thirty hemimandibles were harvested from adult dog cadavers. The mandibular first molars were instrumented and obturated using either the ThermaFil Plus technique or the SuccessFil vertical compaction technique. Obturation times were recorded and three radiographic views were taken of all teeth for evaluation of the endodontic fill. Fifty-two of the mandibular first molar roots were evaluated in the apical dye leakage portion of the study. The ThermaFil Plus obturation technique required less time and provided a better radiographic endodontic fill, however there was significantly greater apical dye leakage in this technique compared with teeth that were obturated using the SuccessFil vertical compaction technique.
