New Publication !!!
Clarbruno Vedruccio e Carla Ricci
Noninvasive radiofrequency diagnostics of cancer. The
Bioscanner ―Trimprob technology and clinical applications,
Journal of Physics: Conference Series, Vol. 329, 012038, 2011.
Relazione al 9th International Fröhlich’s Symposium, Electrodynamic Activity of
Living Cells (EDALC11) , Praga 2011.
Jiri Pokorny; Clarbruno Vedruccio; Michal Cifra,
PhD.; Ondrej Kucera, Cancer physics: Diagnostics based
on damped cellular elasto electrical vibrations in microtubules (European
2011 March 10
Video della relazione di Clarbruno Vedruccio
TEDxBolognaLive "Diffondere Idee di Valore" (www.tedxbologna.com),
Bologna il 13 luglio 2011:
The scientific paper:
|Jiri Pokorny*; Clarbruno Vedruccio; Michal Cifra, PhD.*; Ondrej
Kucera*, Cancer physics: Diagnostics based on damped cellular elasto‐electrical
vibrations in microtubules
( *Institute of Photonics and Electronics, Academy of Sciences of the
Czech Republic , Praga)
Online First™ Articles available before print publication
Cancer physics: diagnostics based on damped cellular
elastoelectrical vibrations in microtubules
Jiří Pokorný, Clarbruno Vedruccio, Michal Cifra and Ondřej
Online First™, 10 March 2011
*Institute of Photonics and Electronics, Academy of Sciences of the Czech
Republic , Praga.
This paper describes a proposed biophysical mechanism of a novel
diagnostic method for cancer detection developed recently by
Vedruccio. The diagnostic method is based on frequency selective
absorption of electromagnetic waves by malignant tumors. Cancer
is connected with mitochondrial malfunction (the Warburg effect)
suggesting disrupted physical mechanisms. In addition to
decreased energy conversion and nonutilized energy efflux,
mitochondrial malfunction is accompanied by other negative
effects in the cell. Diminished proton space charge layer and
the static electric field around the outer membrane result in a
lowered ordering level of cellular water and increased damping
of microtubule-based cellular elastoelectrical vibration states.
These changes manifest themselves in a dip in the amplitude of
the signal with the fundamental frequency of the nonlinear
microwave oscillator—the core of the diagnostic device—when
coupled to the investigated cancerous tissue via the near-field.
The dip is not present in the case of healthy tissue.
Keywords Cancer diagnostics – Bioscanner® TRIMprob™ – Physical
processes in cancer – Biological electromagnetic field – Water
ordering in cells – Nonlinear resonance interaction (NLRI)
Alberto Vannelli, Luigi Battaglia, Elia Poiasina and Ermanno Leo,
Diagnosis of rectal cancer by Tissue Resonance Interaction Method, BMC
Gastroenterology 2010, 10:45.
Division of General Surgery B, Fondazione IRCCS Istituto Nazionale
Tumori, Milan, Italy
Rectal Cancer 2010.pdf
Recently indexed on MedLine (PUBMED)
the database of the National Institute of Heath of U.S.A.
Di Viccaro D,
Perugia G, Cerulli C, Olivieri V, Bova J, Zanza C, Teodonio S, Liberti
The accuracy of tissue resonance interaction method probe (Trimprob tm)
in non-invasive diagnosis of prostatic cancer. Analysis of the results
of 782 patient.
Urologia. 2009;76 Suppl 15:1-3. PubMed PMID: 21104675.
doc\2009 Di Vaccaro-Cerulli Riv_Urologia_.pdf