This paper is only available as a PDF. To read, Please Download here.
Abstract
Recognizing cervical cancer as a natural stochastic phenomenon, that is in the first stage of its self-organization into a new biological dissipative structure (initiation) and sustaining its development in the second stage (promotion), is a basic requirement in conquering cancer and preventing neoplastic disease, i.e., the third stage of neogenesis (progression). A dissipathogenic state inside an organism is the only common primary cause of neoplasia. Thus, medical thermodynamics clarifies why so many non-specific factors enable the origin of cervical cancer, that is, can cause cervical dissipathogenic states. This thermodynamical theory abolishes opposition and unites the heretofore cellular neoplastic theories by bringing them to an atomic level. Diagnosis and treatment of dissipathogenic processes implies true causal prophylaxis of cancer, therapy of which always has to encompass its environment.
Keywords
References
- II ed. Annual Report on the results of treatment in gynecological cancer. Radiumhemmet, Stockholm1988
- Changing character of cervical cancer in young women.Br Med J. 1989; 298: 288-290
- Oral contraceptives use and malignancies of the genital tract.Lancet. 1988; ii: 1331-1334
- The Papanicolau-test evaluation for cervical cancer detection.JAMA. 1989; 261: 737-743
- Site and origin of squamous cervical cancer: a histomorphologic study.Obstet Gynecol. 1983; 62: 117
- Effect of immunopotentialization on rate of vaginal smear normalization according to appearance of cervical intraepithelial neoplasia.Int J Gynecol Obstet. 1989; 28: 41-44
- Influence of immunopotentialization upon cytological cervical dysplasia and metaplasia in infertile women.in: 4th Meeting EAGO, Cracow1989
- The study of chromosomes in cervical neoplasia.Obstet Gynecol Surv. 1969; 24: 784-794
- Self-organization in nonequilibrium systems.Science. 1978; 204: 777
- From being to becoming.Freeman WH. and Co, San Francisco1980
- Neuroendocrinologic aspects of the dissipative structure of tumors.Mat Med Pol. 1980; 42: 91
- Dissipative structure of cervical carcinoma.Gin Pol. 1978; 49: 765
- Neuroendocrinological aspects of ovarian tumors as dissipative structures.Patol Pol. 1979; 30: 187
- Cancer: Cause, Predisposing Factors and Hostdefense.PZWL, Warsaw1985
- Cancer conquerred?!.II ed. IGP AM, Cracow1989
- Nuclear magnetic resonance and spectroscopy in atomic medicine.Eur J Obstet Gynecol Reprod Biol. 1989;
- Nuclear Magnetic Resonance Technique in Human Surgery. Cases report.Przegl Lek. 1982; 39: 335-337
- A discussion of nuclear magnetic resonance (NMR) relaxation time of tumors in terms of their interpretation as self-organizing dissipative structures and their study in vivo by NMR zeugmatographic imaging.Gin Pol. 1981; 52: 493
- Mat Med Pol. 1983; 47: 149
- Preliminary in vitro studies of nuclear magnetic resonance spin-lattice relaxation times and three dimensional nuclear magnetic resonance imaging in gynecologic oncology.Am J Obstet Gynecol. 1984; 148: 91
- Electron and NMR imaging in terms of atomic medicine.in: Proceedings of the XII World Congress of Obstetrics and Gynecology, Rio de Janeiro1988
- NMR evaluation of immunotherapy of Cervical Intraepithelial Neoplasia. Cases report.in: 6th Annual Meeting SMRM, NYBook of Abstracts. vol. 2. 1987: 697
- Therapeutic value of NMR relaxation times automatically determined during surgery.in: 7th Annual Meeting SMRM. Book of abstracts. vol. 2. 1988: 582
- Test of immunopotentialization in colposcopy — a clinical evaluation.Eur J Obstet Gynecol Reprod Biol. 1989; 28: 41
- Immunotherapy of CIN.in: LXIV Congress of Obstetrics and Gynecology, Roma1986: 275
Article info
Publication history
Chairpersons: H. Ludwig, Basel, Switzerland G.M. Savelyeva, Moscow, USSR T. Pisarski, Poland
Identification
Copyright
© 1990 Published by Elsevier Inc.
