System for body impedance data acquisition utilizing segmental impedance & multiple frequency impedance

1. A system for acquisition of body impedance data for quantitative measurement of conductive potential of the body, the system comprising in combination:

• a) a plurality of electrode sensors for mounting to a patient'"'"'s body to be analyzed at prescribed locations forming a tetrapolar system;
  
  b) mounting means for removably attaching said electrode sensors to a Kelvin Bridge bio-impedance meter system having four terminal leads;
  
  c) means for generating a current flow through said electrode sensors at a frequency of from about 40 Kilohertz to about 60 Kilohertz, thereby producing a body impedance signal having an output range of from about 0 to 1,000 ohms;
  
  d) means for accepting input variables comprised of biological patient data including, height, weight, age and sex and bio-impedance signal derived from the means set forth in step (c) to determine a population specific variable and to produce a corresponding electrical signal;
  
  e) means for manipulating said electrical signals derived from said means for generating a current flow and said means for accepting input variables to produce a resultant output signal;
  
  f) indicator means for displaying said resultant output signal to provide quantitative measurement of conductive potential of said patient'"'"'s body based on lean tissue content of said patient; and
  
  g) means for comparing said resultant output signal with a control signal to produce an output representation of fat tissue, lean tissue and body water; and
  
  h) second means for comparing the signal derived from step (g) with known anthropometric data to produce an output signal representative of fat, lean tissue and body water.i) an additional means for generating a current flow through said electrode sensors at frequencies ranging from about 5 KHZ to about 150 KHZ, thereby producing additional bioimpedance signals having an output range from about 0 to 10,000 ohms.j) means for modifying bioimpedance signals from (i) in such a way to predict Total Body Water, Extracellular Body Mass and Intracellular Body Cell Mass for different individuals or changes in the above TBW, ECM and BCM in the same individual over time.k) an additional means for removably mounting electrode sensors to the defined anatomical extremes of segments of the human body (e.g., leg, arm, torso) and means to generate and measure segmental impedance signals;
  
  l) an additional means for manipulating total body impedance, segmental impedance and ratios of the above in conjunction with multiple variable frequencies, in order to predict the quantity and distribution and changes in the quantity and distribution of Total Body Water, Extracellular Body Mass volume and Intracellular Body Cell Mass.