JFIFC    $ &%# #"(-90(*6+"#2D26;=@@@&0FKE>J9?@=C  =)#)==================================================vK" }!1AQa"q2#BR$3br %&'()*456789:CDEFGHIJSTUVWXYZcdefghijstuvwxyz w!1AQaq"2B #3Rbr $4%&'()*56789:CDEFGHIJSTUVWXYZcdefghijstuvwxyz ?-""?V]wM*ƣ%7,[Aϖ$)~Ԯ EW-w39tqMuV~}X?{~-ZRmQ\MFn+9/&@`Wjt}N:W7>e瓊0+4@=VFN=k-6Jq6&?#k(&݆ ʩ!f\5Vk~?)K:Uk˫Ii9MA]Vfa*mƹE旅pf_ڞs4SSLB0HQvvkc 8-\-(C\uK2&Sl} ouuip'z:6ES^Ien͸ƃxkzt~%Yhm,kg29< zW|W<pVM Ok<|IDc׭hYft53=8؃!&Y+IVdv=<1zW'.g0IP徴IkO-ϒ# 1sn8)l(_+P@pֹ? jֺ]%8^:C<|Hs[r^صj[fFOMZcO#|M$N8a5ӵ%*2ɜtҫYLQq8^fyAqe,GW>T&E6j Itԥ]@ f̖m&r֦]ad]PH>_z[!U+DDSf\D!RiY&Sf4ymi lm>}B#3\8#̛0ϒKIʪn<sګkXk)l .3֮CʓVKw}.ͳ%sG⮟jHv@G_V# +awd}tHv+THɹL:v{Xm=+NP,ŝ4_i2GpNOgy5xpO~}F& NA\ ՛s7Q/7rl>FbI%q˛; %"BYHO1T!J)ʨ늑H/31Z/3 o"x@`cU(5 fU Ķ9OQ5C2£*ߙkV\f iVH:aavp)b?ɬl eyb[֬ c[cx5u @|v$7*c4Q@--bi+i9T:f(z(34h s( Zf`CuOEE2}À0FZmc;WVR۽SSHu5]K6QTGC* YA⮭>'}9]JhJX•n:Z% [Y@,ZnZ v5fPrQ:u>|8Fs]vuxR%qZw…޲jcC{Z8=~\ɨ1b0S3ηth%$qa8qcDmt*! 8̞޲4FXlFKeR2yǭgni&m~H뛍FF# {"n GiVmg]B=zVl/Elg=k'fk sF[m+E!\P}M>orne˘TϭST8K<.F089u*!A^ګe?cwAޱ%[f>\و~cҸ1],AYy X7+qk^McHbIQ]ަ3]m!KV5k //"Kh8M Q]sVZmN;^C1)G֫B$E`Ihg&uYZ>$!  G5NildtQS&H27'tDj2:zQEs֊/Cnexpensive but not very accurate. Another problem is the difficulty of reproducing results. In other words, there can be a wide variance of results between testers or even the same tester.<br><br>Ultrasonic systes are accurate and priced right but there is some burden to the subject and moderately difficult to operate. Also, testing cannot be done in under a minute like the new Tanita Scales. The IRI or infrared method has alower price but has an accuracy problem. BIA or Bio-electrical Impedance Analysis is accurate but has a medium price and cannot be tested in under a minute.<br><br>The Tanita Analyzer uses the BIA process which sends a mild electrical current through the body to measure the impedance, or resistance to that current. Biological tissues (muscle, fat, bone connective tissue) act either as conductors of, or insulators to, the current. The current will flow through the path of least resistance. Muscle tissue, which contains about 73% water, acts as a good conductor for the current, while fat tissue, which contains very little water, is an insulator. Therefore, the current will travel around the fat, and through the water in the muscle.<br>The more fatty the tissue in the body, the harder the current must work to travel around that fat along the muscular structure. In this case, the resistance to the current generates a