3D NLS-graphy Of Meta Hunter And The Study Of Urinary Bladder Tumors

Malignant urinary bladder tumors fill 8th position in male and 18th position in female patients within the structure of oncological diseases. Urinary bladder tumor is in the 4th position among oncourological diseases according to the absolute rate of growth (the first three positions are: prostate cancer, renal cancer and testicular cancer). The multiplicity of rudiments and frequent recuring is characteristic for the tumors of urinary bladder.

In all the countries in majority of cases (90-95%) the tumors of urinary bladder are morphologically transient cell carcinomas; the rest of cases relate to squamous cell cancer and adenocarcinoma. Non-epithelial tumors consist less than 1%.

The main and the most reliable method of urinary bladder cancer diagnostics in clinical practice is still cystoscopic examination with gathering of cytological or histological material. But this method does not allow estimation of tumor invasion depth into bladder wall. The depth of invasion is one of the essential factors when choosing surgical treatment: transurethral resection is not possible in case of affection of wall’s muscular layer (category T2). In case of invasion of perivesical cellular tissue and tumor spread to the adjacent organs (T3-T4) the risk of regional lymphatic glands affection increases: it consists 30% at T2 stage and it reaches 65% at stage T4.

Computer tomography, magnetic resonance tomography and transurethral ultrasonic examination are mainly used over the last years as corrective diagnostics methods to determine the depth of urinary bladder tumor invasion. According to the information provided by Nesterova V. and others the recent method of 3D NLS-research may become crucial both when specifying the prevalence rate of bladder cancer and when performing case monitoring. Such advantages of the method as availability, painlessness and absence of radiation exposure allow performing multiple researches when carrying out case monitoring.

Goal of the article is to study 3D NLS-research of Meta Hunter possibilities in primary and corrective diagnostics of malignant urinary bladder tumors, examination of complications which develop during NLS-research of urinary bladder and also systematization, correction and supplementation of NLS-semiotics of urinary bladder tumors.

1. Ultramicro-NLS-semiotics of urinary bladder tumors. Difficulties of NLS-diagnostics of urinary bladder tumors We have developed ultramicro-NLS-semiotics of healthy urinary bladder wall and urinary bladder wall with tumoral affection. Healthy urinary bladder wall has 2.5-8.0 mm. in thickness (depending on its filling). In majority of cases it is possible to visualize 3 layers of bladder wall:

1) inner layer corresponds to mucous membrane with submucous layer; in its normal state – moderate hypochromogenic (2-3 points according to Fleindler’s scale)

2) middle layer corresponds to muscular layer; in its normal state – hypochromogenic (2 points according to Fleindler’s scale);

3) outer layer corresponds to adventitious membrane; in its normal state – a-hypochromogenic (1-2 points according to Fleindler’s scale);

Most commonly urinary bladder cancer in 3D NLS-microscopic image has an appearance of exophytic formation of high hyperchromogenecy (5-6 points according to Fleindler’s scale) of round or irregular-shapewith uneven surface. In case of absence of infiltrating growth the line between tumor bottom and urinary bladder wall is sharply defined, even and hypochromogenic (1-2 points). In case of infiltration the line between tumor bottom and urinary bladder wall firstly becomes uneven, obscure then there appear tumor structures in the wall’s depth. In this case wall layers stop differentiating. If the tumor grows into the whole wall’s depth then the outer contour of the wall becomes uneven, sometimes obscure.

Tumor with an endophytic component in invasion area is most frequently achromogenic, sometimes it is isochromogenic. If the tumor grows endophytically it is most frequently isochromogenic in all parts. In our opinion the detection of low chromogenic (1 point according to Fleindler’s scale) areas in the tumor of urinary bladder is always indicative of infiltrating growth presence.

Tumor may be singular but tumors of urinary bladder most frequently have multifocal growth type up to total affection of the whole bladder. Detailed examination of all bladder walls is necessary because of this. Sizes, shape, chromogenecy and intensity of nodules invasion into the wall may be different in case of multifocal growth.

Major problems when performing NLS-research are faced when diagnosing the invasion into the submucous layer or when diagnosing the onset of invasion into the muscular layer. Spectral-entropy analysis often allows solving of such problems.

Tumors (especially endophytic ones) which affect major part of bladder wall may cause its sharp size reduction (microcystis). Small bladder capacity in such patients and also in patients who were surgically treated (often repeated due to repeated relapses) may complicate the detection of tumor’s invasion depth.

Urinary bladder tumors (more often multifocal) in combination with intravesical clots may be complicated for interpretation. Intravesical clots accompanied by macrohaematuria sometimes fill the whole bladder cavity. In these cases it is always possible to differentiate the tissue of the tumor nodule from clots using spectral-entropy analysis.

Diagnostic difficulties appear when detecting the depth of tumor invasion if the nodule is located in urinary triangle (Lieutaud body) especially when it overlaps on the contour of prostate gland. Image unsharpness of wall layers may be caused by multiple surgical interferences in case of bladder tumor relapses and also intravesical immune- or chemotherapeutical treatment and layering of urinary salts.

The sensitivity of NLS-method in detection of tumor invasion depth in such patients may be decreased.

2. The possibilities of various methods of NLS-research in case of urinary bladder tumors

The most statistically reliable method of NLS-research in case of urinary bladder tumors is an ultramicroscopic research with the usу of spectral-entropy analysis. Such method provides the detection of the tumor less than 3 mm., specifies its localization and in case of its invasive form it allows specifying its proportion in relation to adjacent organs and tissues. It is possible to examine the layers of bladder wall in all patients when using 3D NLS-ultramicroscopic research. We use spectral-entropy analysis in case of any process localization in urinary bladder after performance of ultramicroscopic research. Only endocavitary ultramicroscopic research is the most effective method for examination of all tumor aniages in case of multicentric growth.

The visualization of small sized formations (less than 4 mm.) is complicated in case of common nonscaling NLS-research; in more rarely cases the visualization of larger tumors located on the frontal urinary bladder wall is complicated. Performance of spectral-entropy analysis with ultramicroscanning always helps to make correct diagnosis in cases like these. The frontal urinary bladder wall which is put close to an abdominal wall is visualized with considerable zooming in, which allows examining both wall layers and their correlation with tumor nodule.

Common 2D NLS-research (which was put high hopes on) did not obtain widespread use. Such method allows good visualization of superficial formations though relatively large ones (from 6-8 mm).

In case of deep invasion it is not always possible to estimate the exterior contour of the tumor. These peculiarities lower the effectiveness of 2D NLS-graphy method in detection of invasion depth into the bladder wall.

At the present time we are able to use extensively NLS-research of urinary bladder tumors with 3D reconstruction. The method allows visually presentation of the tumor and its correlation with surrounding tissues when making decision on choosing of surgical procedures type, and it allows storing the information in digital format. Information storing provides the possibility for attending doctors to subsequently review the whole 3D information block which gives more objectiveness to 3D NLS-research.

CONCLUSIONS

1. Urinary bladder wall in 3D ultramicroscopic imaging has three-layer structure.

2. In case of urinary bladder cancer the common 2D NLS-research allows visualization of the tumor if its size is more than 5 mm. When performing 3D-ultramicroscopic research the tumors less than 2 mm. can be detected, it is also possible to define tumor’s growth form (exophytic, endophytic or combined one) and its invasion depth into the wall (prevalence of invasion influence both on disease prognosis and therapy method).

3. Major problems appear when diagnosing of initial tumor invasion into muscular layer. Ultramicroscanning with spectral-entropy analysis helps defining the depth of invasion when this occurs.

4. Familiarity with typical semiotics allows making the correct diagnosis when performing NLSresearch in cases of non-epithelial tumors of urinary bladder and urachus tumors.

5. Information recording of anamnesis and performance of spectral-entropy analysis allow presupposing the correct diagnosis in case of metastases into urinary bladder wall of tumors of another primary localization.

6. Ultramicroscopic research with the use of spectral-entropy analysis allows specifying if the tumor which had been detected in urinary bladder emanates from the bladder wall or it is just a part of the tumor that emanates from other organs (large bowel, neck of womb, prostate gland and etc.) and ingrows into bladder wall.

7. To perform an appropriate diagnostics it is necessary to use all available NLS-research means considering the predisposition of urinary bladder tumor to multifocal growth.

8. Ultramicroscopic NLS-researches are the most effective ones when performing diagnostics of urinary bladder tumors. 3D reconstruction of the image increases both the effectiveness of diagnostics and it also provides more informative presentation of detected changes and it gives the possibility for reviewing of stored information.

9. In case of urinary bladder cancer it is necessary keep in mind the possibility of synchronous prostate cancer.