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1.
Anat Histol Embryol ; 36(5): 371-4, 2007 Oct.
Article in English | MEDLINE | ID: mdl-17845228

ABSTRACT

The microscopic description of the teeth of pacas (Agouti paca) bred in captivity was developed for providing biological data on one of the largest American wild rodents, as not many references exist in the literature about this species. Two newborn males, two adult males (9 and 72 months old), one newborn female and two adult females (30 and 54 months old) were used after death due to fights, neonatal cannibalism or unknown causes. Animals were radiographed, and their teeth were extracted and put on an acrylic resin block, cut on a diamond-like disc microtome and diaphanized. It was noted that enamel surrounds the coronary dentine and projects to the root region, besides being present as internal laminae, arranged in a parallel way and in the vestibulolingual direction. The dentine is located between the enamel laminae and surrounds the pulp horns. The cementum is located internal to the enamel laminae. From scanning electronic microscopy, we find that the enamel is the outer element on the vestibular surface, and it is in direct contact with the dentine. On the lingual surface, the cementum and dentine are the outer elements.


Subject(s)
Rodentia/anatomy & histology , Tooth/anatomy & histology , Tooth/ultrastructure , Animals , Dental Enamel/anatomy & histology , Dental Enamel/ultrastructure , Dentin/anatomy & histology , Dentin/ultrastructure , Female , Male , Microscopy, Electron, Transmission
2.
Int Endod J ; 38(7): 430-5, 2005 Jul.
Article in English | MEDLINE | ID: mdl-15946262

ABSTRACT

AIM: To investigate the influence of cervical preflaring with different instruments (Gates-Glidden drills, Quantec Flare series instruments and LA Axxess burs) on the first file that binds at working length (WL) in maxillary central incisors. METHODOLOGY: Forty human maxillary central incisors with complete root formation were used. After standard access cavities, a size 06 K-file was inserted into each canal until the apical foramen was reached. The WL was set 1 mm short of the apical foramen. Group 1 received the initial apical instrument without previous preflaring of the cervical and middle thirds of the root canal. Group 2 had the cervical and middle portion of the root canals enlarged with Gates-Glidden drills sizes 90, 110 and 130. Group 3 had the cervical and middle thirds of the root canals enlarged with nickel-titanium Quantec Flare series instruments. Titanium-nitrite treated, stainless steel LA Axxess burs were used for preflaring the cervical and middle portions of root canals from group 4. Each canal was sized using manual K-files, starting with size 08 files with passive movements until the WL was reached. File sizes were increased until a binding sensation was felt at the WL, and the instrument size was recorded for each tooth. The apical region was then observed under a stereoscopic magnifier, images were recorded digitally and the differences between root canal and maximum file diameters were evaluated for each sample. RESULTS: Significant differences were found between experimental groups regarding anatomical diameter at the WL and the first file to bind in the canal (P < 0.01, 95% confidence interval). The major discrepancy was found when no preflaring was performed (0.151 mm average). The LA Axxess burs produced the smallest differences between anatomical diameter and first file to bind (0.016 mm average). Gates-Glidden drills and Flare instruments were ranked in an intermediary position, with no statistically significant differences between them (0.093 mm average). CONCLUSIONS: The instrument binding technique for determining anatomical diameter at WL is not precise. Preflaring of the cervical and middle thirds of the root canal improved anatomical diameter determination; the instrument used for preflaring played a major role in determining the anatomical diameter at the WL. Canals preflared with LA Axxess burs created a more accurate relationship between file size and anatomical diameter.


Subject(s)
Dental Instruments , Dental Pulp Cavity/anatomy & histology , Odontometry/methods , Root Canal Preparation/instrumentation , Tooth Apex/anatomy & histology , Analysis of Variance , Dental Alloys , Humans , Incisor , Maxilla , Nickel , Root Canal Preparation/methods , Stainless Steel , Titanium , Tooth Cervix
3.
Farm Hosp ; 27(5): 304-7, 2003.
Article in Spanish | MEDLINE | ID: mdl-14576920

ABSTRACT

UNLABELLED: Prostaglandin E1 is indicated for the temporary maintenance of patent ductus arteriosus in newborns with ductus-dependent congenital heart defects. Since the standard daily dose is smaller (0.2-0.4 ml) than one ampoule (1 ml), we performed a chemical stability study of prostaglandin E1 when it is fractioned into polypropylene syringes. Three concentrations were studied: 500 mg/ml (original), and 1:2 and 1:4 dilutions in sodium chloride 0.9%. Syringes were kept at 4 degrees C for 30 days. Prostaglandin E1 levels were determined by using high-pressure chromatography. In all three formulations, the concentrations underwent no statistically significant changes over time (p>0.05). CONCLUSION: PGE1 is chemically stable at 4 degrees C for 30 days when fractioned into polypropylene syringes, both in the original and the 1:2 and 1:4 diluted formulations.


Subject(s)
Alprostadil , Alprostadil/pharmacology , Drug Stability , Polypropylenes , Syringes
5.
Brazilian Dental Journal;17(1): 3-5,
in English | URUGUAIODONTO | ID: odn-19794
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