Humans ; In Vitro Techniques ; Microtomy ; Singapore

Histocytological Preparation Techniques ; methods ; Microtomy ; methods ; Tissue Embedding

Humans ; Leiomyoma ; pathology ; Microtomy ; methods ; Microwaves ; Paraffin Embedding ; methods ; Specimen Handling ; methods ; Thyroid Neoplasms ; pathology

OBJECTIVETo study the methods of decalcification for making united slices of tooth and affiliated periodontic tissues.

METHODSTwenty-one samples containing dog molars and affiliated periodontic tissues were divided into seven mean groups. The pH value of solution, time of decalcification, weight and volume of samples, and content of decalcified calcium were detected. The slices were observed by HE, specific, and immunohistochemical stain.

RESULTSThe velocity of decalcification increased with decrease of solution pH. The weight of samples lightened by 37.61%, the volume reduced by 25.97% on average, and calcium decalcified was 174.49 mg per gram humid samples. The EDTA decalcification was slowest, but it was best. Decalcification was fast in Plank-Rycho solution while the section was worst, and faster in the formyl solution containing aluminium chloride than in EDTA, and the section was better.

CONCLUSIONSThe 50% formyl solution containing aluminium chloride is an ideal decalcifying solution.

Animals ; Decalcification Technique ; methods ; Dogs ; Edetic Acid ; Formates ; Microtomy ; Molar ; Periodontium

OBJECTIVETo establishing the cochlea slice technique and infrared visual slice patch clamp method in order to observe the electrophysiological characteristics of rat spiral ganglion neurons (SGN) METHODS: SD rats were divided into three groups according to postnatal days old (0-2 d, 3-6 d and 7-14 d). Making slice of SD rat cochlear quickly, using infrared differential interference contrast (IR-DIC) technique, together with slice patch clamp, the electrophysiological characteristics of rat spiral ganglion neurons were observed, and factors which affected the quality of cochlear slice and recording of patch clamp were analyzed.

RESULTSThe success rate of 3-6 days SD was the highest, and 2-4 pieces of slice could be made from each cochlea. Cochlea connecting with partial skull and integrity of cochlear hull were the key for making slice, and the angle of modiolus axis should be adjusted to be parallel to the knife and the preparing time should be shorter. The SGN cell of good condition could be easily found and the seal test became easier with the help of infrared visual slice patch clamp method. The rest membrane potential was (-45.6 +/- 5.3) mV (x +/- s, n=52) and the current of Na+ and K+ could be activated.

CONCLUSIONSCochlear slice technique can retain structural integrity, cell viability and their association in cochlea, which suggest that this technique provides carrier for electrophysiological study of rat spiral ganglion neurons, and patch clamp with infrared videomicroscopy method can be used to make direct real-time observation in electrophysiological experiments of SGN, which can provide important technique support and reference for deep study of electrophysiological characteristics of SGN and auditory neurotransmission in cochlea.

Animals ; Cochlea ; physiology ; Microtomy ; Neurons ; physiology ; Patch-Clamp Techniques ; Rats ; Rats, Sprague-Dawley ; Spiral Ganglion ; physiology

It is an important morphological research method to reconstruct the 3D imaging from serial section tissue images. Registration of serial images is a key step to 3D reconstruction. Firstly, an introduction to the segmentation-counting registration algorithm is presented, which is based on the joint histogram. After thresholding of the two images to be registered, the criterion function is defined as counting in a specific region of the joint histogram, which greatly speeds up the alignment process. Then, the method is used to conduct the serial tissue image matching task, and lies a solid foundation for 3D rendering. Finally, preliminary surface rendering results are presented.
Algorithms ; Image Processing, Computer-Assisted ; methods ; Imaging, Three-Dimensional ; Microtomy ; methods

Carcinoma, Squamous Cell ; pathology ; Humans ; Microtomy ; instrumentation ; methods ; Staining and Labeling ; instrumentation ; methods ; Tongue Neoplasms ; pathology

Frozen section diagnosis is a highly useful method of diagnosis. There were 4434 frozen sections, 24 false positive diagnosis, 65 false negative diagnosis and 30 deferred diagnosis. This method achieves the highest accuracy when there is a cooperation between experienced surgeon and reliable and careful pathologist. It is wise to defer the diagnosis of consult to other pathologist in difficult situation.
Biopsy/*standards ; False Negative Reactions ; False Positive Reactions ; *Frozen Sections ; Humans ; *Microtomy ; Neoplasms/*diagnosis/pathology ; *Predictive Value of Tests

OBJECTIVETo establish a computer-assisted stereological model for simulating the process of slice section and evaluate the relationship between section surface and estimated three-dimensional structure.

METHODSThe model was designed by mathematic method as a win32 software based on the MFC using Microsoft visual studio as IDE for simulating the infinite process of sections and analysis of the data derived from the model. The linearity of the fitting of the model was evaluated by comparison with the traditional formula.

RESULTSThe win32 software based on this algorithm allowed random sectioning of the particles distributed randomly in an ideal virtual cube. The stereological parameters showed very high throughput (>94.5% and 92%) in homogeneity and independence tests. The data of density, shape and size of the section were tested to conform to normal distribution. The output of the model and that from the image analysis system showed statistical correlation and consistency.

CONCLUSIONThe algorithm we described can be used for evaluating the stereologic parameters of the structure of tissue slices.

Computer Simulation ; Humans ; Image Processing, Computer-Assisted ; Imaging, Three-Dimensional ; Microtomy ; methods ; Models, Theoretical ; User-Computer Interface

OBJECTIVE: To explore an useful and practical method for three-dimensional reconstruction of cochlear microstructure. METHOD: A digital image dataset of magnified forty times of human cochlear tissue can be get from the serial sections of transverse cedukol images of male cadavers temporal bone. Photoshop 6.0 and Amira 3.0 software were used to deal with the digital image dataset, such as image-connecting and image inner-location and three-dimensional reconstruction of cochlear and scala media. RESULT: The result of three-dimensional reconstruction of the cedukol images represents the anatomy of human cochlear and scala media transparently and objectively. CONCLUSION The three-dimensional reconstruction technique used in the study is practical for three-dimensional of inner ear microstructure.
Cochlea ; anatomy & histology ; Ear, Inner ; anatomy & histology ; Humans ; Image Processing, Computer-Assisted ; Imaging, Three-Dimensional ; methods ; Male ; Microtomy ; methods ; Software