Intractable pain is a horrific cause of world-wide suffering. Nervous system excitation is a hallmark of intractable pain and lesioning of excited pathways and structures can produce sustained analgesia. This invention shows that red blood cells exposed to changing magnetic fields are disrupted, releasing hemoglobin, and that this effect is related to the dose (conformation, frequency, strength and duration) of the changing magnetic fields. Extrapolating these finding to the nervous system, transcranial magnetic lesioning of select areas of the central nervous system, in particular the anterior cingulate cortex or anterior cingulate cortices, can provide relief for patients who suffer devastating intractable pain. The changing magnetic fields are produced by electrical current through a Helmholtz coil with a soft iron core. Focusing the magnetic fields within a Helmholtz coil has advantages over focusing radiation or ultrasound because the brain can be stimulated before lesioning and the intensity of the magnetic fields can be changed according to the gap distance between the coil. In addition magnetic lesioning of tissues other than that within the nervous system may possibly provide “bloodless” surgery without exposure to radiation.
