검색어: intrathyroïdienne (프랑스어 - 영어)

영어

j1 a/o the so-called genital ratio index expresses tissular androgenic activity relative to estrogenic activity, j2 the so-called genital-thyroid ratio index (g/t) expresses gonadic activity relative to thyroid activity; in addition, when it increases it bears witness to an efficient thyroid activity, and when it decreases to a rising tsh activity, whatever the absolute level of the thyroid activity, j3 the so-called adaptation index expresses acth activity in its adaptative function relative to fsh activity, j4 the so-called thyroid index expresses the metabolic activity of the thyroid, j5 the so-called estrogenic index expresses estrogenic endocrinometabolic activity, j6 the so-called growth index expresses growth hormone metabolic activity, j7 the so-called “turnover” index expresses the speed of tissular renewal: when it increases it shows a slowdown of this renewal, conversely when it decreases it shows its acceleration, j8 the fibrosis index expresses the fibrotic activity of the organism; this activity ranges from the mere isolation of a tissue or organ to the sclerotic degeneration of an organic or tissular group, j9 the index of thyroid involvement expresses the share of the relative responsibility of the thyrotropic axis in the pathogenicity of the organism, j10 the so-called index of follicular involvement expresses the share of the relative responsibility of the gonadotropic axis in the pathogenicity of the organism, j11 the so-called index of metabolic-hypothalamic involvement expresses the share of the relative metabolic responsibility of the thyrosomatotropic axis in the so-called pathogenicity of the organism, j12 the so-called pancreatic index expresses the metabolic activity of tissular nutrition by the exocrine pancreas within the somatotropic axis, j13 the so-called global trh index of adaptation expresses the metabolic activity of trh relative to that aspect of its endocrine activity concerned with the thyrosomatotropic adaptation function, j14 the so-called index of leukocytes mobilization expresses the adaptative releasing capacity of the reserve leukocytes withheld within the splanchnic area on the hepatic side, j15 the so-called index of platelets mobilization expresses the adaptative releasing capacity of the reserve platelets withheld within the splanchnic area on the splenic side, j16 the so-called index of thyroid reactivating activity expresses the level of stimulation of the thyrotropic axis by the locus ceruleus; by extension, it bears witness to the degree of maladaptation of the organism, j17 the so-called structure: function ratio index expresses the adaptative stimulation of structural tissular mechanisms relative to that of functional tissular mechanisms, j18 the so-called index of estrogenic fraction #1 expresses the share of the relative estrogenic endocrinometabolic adaptative activity, j19 the so-called index of estrogenic fraction #2 expresses the liminal adaptative share of the tissular activity of estrogens, j20 the so-called index of metabolic estrogenic fraction expresses the relative share of estrogenic metabolic activity, j21 the so-called index of thyroid mobilization of bone metabolism expresses the effective relative share of thyroid osteoclastic activity, j22 the so-called index of thyroid mobilization of bone endocrine metabolism expresses the relative endocrinometabolic share of thyroid osteoclastic activity, j23 the so-called index of relative osteomuscular metabolic activity expresses the share of the metabolic activity of muscle relative to that of bone, j24 the so-called index of thyroid bone metabolic activity expresses the relative share of thyroid osteoblastic activity, j25 the so-called catabolism/anabolism ratio index expresses the catabolic activity of the organism relative to its anabolic activity, j26 the so-called index of circulating cortisol expresses the secretory activity of cortisol by the adrenal cortex and its excretion during the adaptation syndromes, j27 the so-called androgenic index expresses the activity of androgens of gonadic origin relative to that of androgens of adrenal origin, j28 the so-called adrenal cortex index expresses the level of the global endocrine activity of the adrenal cortex, j29 the so-called index of adrenal cortex permissiveness expresses the level of permissive activity exerted by the adrenal cortex on the secretory activity of the other endocrine glands, j30 the so-called index of aromatization of estrogens expresses the share of the aromatizing activity of the adrenal cortex relative to its other activities, j31 the so-called level of catabolism expresses the level of the catabolic activity of the organism, j32 the so-called level of anabolism expresses the level of the anabolic activity of the organism, j33 the so-called level of metabolic activity efficiency expresses the level of the general efficiency of the organism with regard to production as well as to distribution, j34 the so-called index of bone remodeling expresses the level of bone remodeling and the extent of bone impairment; it also bears witness to the general level of the metabolism, and specifically to its adaptation activity, j35 the so-called index of nuclear membrane activity expresses the level of the metabolic activity of the nucleus relative to that of the membrane; it also reflects their degree of structural dependence relative to their degree of adaptative functional dissociation, j36 the so-called adjusted growth index expresses the level of intracellular activity of growth factors, j37 the so-called anti-growth index expresses the global level of activity of anti-growth factors as a whole, j38 the so-called somatostatin index expresses the level of activity of somatostatin; it reflects indirectly the relative level of activity of the exocrine pancreas, j39 the so-called prolactin index expresses the level of activity of prolactin; it bears witness to the level of stimulation of the general adaptation syndrome and of its systematized units, j40 the so-called level of membrane expansion expresses the level of metabolic activity of the membrane; it allows its quantitative evaluation relative to the general structural metabolic activity, j41 the so-called level of structural expansion expresses the level of metabolic activity of the nucleus; it allows its quantitative evaluation relative to the general structural metabolic activity, j42 the so-called apoptosis index expresses the level of apoptosic activity of the organism as a whole, j43 the so-called adjusted apoptosis index expresses the degree of physiological apoptosic activity of the organism as a whole relative to apoptosic activity resulting from dysfunctional adaptation, j44 the so-called level of membrane fracture expresses the degree of fragility of the membranes—their risk of rupture, j45 the so-called necrosis index expresses the level of cellular explosion related to a necrotic phenomenon relative to cellular destruction caused by apoptosis, j46 the so-called level of activity of total androgens expresses the level of activity of the androgens taken as a whole, j47 the so-called rate of adrenal cortex androgens expresses the level of activity of androgens originating from the adrenal cortex, j48 the so-called rate of genital androgens expresses the level of activity of androgens of gonadic origin, j49 the so-called progesterone index expresses the level of activity of progesterone, j50 the so-called level of activity of genital estrogens expresses the level of activity of estrogens of gonadic origin, j51 the so-called rate of aromatized estrogens expresses the relative share of compensatory estrogens obtained through the aromatization of androgens, j52 the so-called adrenal cortex index expresses the level of the global endocrine activity of the adrenal cortex, j53 the so-called folliculin index expresses the level of endocrine activity of the gonadotropic axis in its specific folliculin fraction, j54 the so-called insulin index expresses the level of functional endocrinometabolic activity of insulin, j55 the so-called demyelinization index expresses the relative functional adaptative activity of insulin in its chronological relationship with growth hormone activity, j56 the so-called index of dna fracture expresses the degree of fragility of the nuclei—their risk of rupture, j57 the so-called index of nucleocytoplasmic pathogenicity expresses the level of pathogenicity of the nucleus through the metabolic dysregulation that it induces within the cytoplasm, which is exacerbated by the solidity of the membrane, j58 the so-called index of cellular fracture expresses the global degree of fragility of the cells—their risk of rupture, j59 the so-called index of carcinogenesis expresses the potential level of carcinogenesis of the organism through its nucleocytoplasmic instability in relation to its inadequacy in apoptosis, j60 the so-called index of comparative carcinogenesis expresses the level of functional carcinogenesis relative to the level of pathological apoptosis, j61 the so-called index of active cellular permeability expresses the degree of dynamic trans-membrane permeability, j62 the so-called index of adjusted active cellular permeability expresses the degree of dynamic structural trans-membrane permeability relative to functional permeability, j63 the so-called index of passive cellular permeability expresses the degree of strictly osmotic trans-membrane permeability, j64 the so-called index of active intracellular osmolar gradient expresses the level of maintenance of intracellular osmolarity, j65 the so-called index of adjusted active intracellular osmolar gradient expresses the level of maintenance of structural intracellular osmolarity relative to functional intracellular osmolarity, j66 the so-called index of passive intracellular osmolar gradient expresses the relative level of intracellular osmolarity linked to strictly osmotic trans-membrane permeability, j67 the so-called oxidation-reduction index expresses the final level of the organism's redox activity: that is, after the oxidative activity and the reductive reaction have taken place, j68 the so-called index of corticoadrenal adaptation/permissiveness expresses the level of the adaptative activity of the adrenal cortex relative to its permissive activity, j69 the so-called adaptogenic index expresses the relative level of pineal gland participation in the non-circular reactivating of adaptation, j70 the so-called βmsh/αmsh index (differential hormones stimulating the melanocytes) expresses the relative contribution to the stimulation of an integrated adaptation by, respectively, the programmed loop (long loop—pituitary/periphery) and the intercurrent added loops (short epiphyseal loop), j71 the so-called apoptosis index (b) expresses the level of apoptosis of the organism as a whole, j72 the so-called amylosis index expresses the level of sollicitation of the amyloid activity of the organism—an activity of structural protection calling for a ‘bridging’ energy in the face of a functional over-demand for immediate energy (internal desynchronization of the somatotropic axis), j73 the so-called index of amylosis risk expresses the organism's relative risk of amyloid degeneration in its present functional equilibrium, j74 the so-called index of insulin resistance expresses the relative level of functional inhibition of the membrane activity of insulin, independent of temporary inhibition linked to the general adaptation syndrome, j75 the so-called upstream index #1 expresses the relative part played by the thyroid, within the thyrotropic axis, in the genesis and maintenance of the current pathology; by extension, it helps one to evaluate the role of peripheral as compared to central endocrine activity in the genesis and maintenance of the current pathology, j76 the so-called upstream index #2 expresses the relative part played by the thyroid, within the metabolic equilibrium resulting from the activity of the follicular fraction of the gonadotropic axis, in the genesis and maintenance of the current pathology; by extension, it helps one to evaluate the role of peripheral endocrinometabolic activity as compared to axial centripetal endocrine activity in the genesis and maintenance of the current pathology, j77 the so-called upstream index #3 expresses the relative metabolic part played by the thyroid, through the compensatory activity of the thyrosomatotropic axis, in the genesis and maintenance of the current pathology; by extension, it helps one to evaluate the role of peripheral metabolic as compared to central metabolic activity in the genesis and maintenance of the current pathology, j78 the so-called global upstream index #1 expresses the part played by the follicular fraction of the gonadotropic axis relative to the part played by the thyrometabolic fraction of the thyrotropic axis in the genesis and maintenance of the current pathology; by extension, it helps one to evaluate the role of centripetal axial endocrine activity as compared to central endocrine activity, j79 the so-called global upstream index #2 expresses the part played by the compensatory activity of the thyrosomatotropic axis relative to the activity of the thyrometabolic fraction of the thyrotropic axis in the genesis and maintenance of the current pathology; by extension, it helps one to evaluate the role of central metabolic as compared to central endocrine activity, j80 the so-called global upstream index #3 expresses the share of the compensatory activity of the thyrosomatotropic axis relative to the activity of the follicular fraction of the gonadotropic axis; by extension, it helps one to evaluate the role of central metabolic activity as compared to centripetal axial endocrine activity, j81 the so-called index of thyroid output #1 expresses thyroid metabolic activity relative to the level of hypophyseal stimulation; by extension, it helps one to evaluate the threshold of the thyroid's response when stimulated by the pituitary gland, j82 the so-called index of free radicals expresses the global circulating rate of free radicals, j83 the so-called adjusted index of free radicals expresses the residual circulating rate of free radicals, j84 the so-called comparative index of free radicals expresses the rate of the free radicals with a structural purpose relative to the rate of the free radicals with a functional purpose, j85 the so-called index of free radical nocivity expresses the rate of toxic free radicals relative to the rate of biologically justified free radicals, j86 the so-called adjusted apoptosis index (b) expresses the rate of anticipated apoptosis relative to the physiological rate of apoptosis, j87 the so-called index of active histamine expresses the level of active histamine in circulation, j88 the so-called index of potential histamine expresses the level of histamine carriers, both fixed and mobile, j89 the so-called trh index expresses the relative share of trh's vertical activity within the thyrotropic axis, j90 the so-called index of relative intrathyroid trh activity expresses the relative role of trh in the endocrine activity of the thyroid, j91 the so-called index of carcinogenic expansion expresses the degree and rapidity of anarchic tissue development within the organism; by extension, it allows one to track the progression of a known tumor, the degree and speed of its development, j92 the so-called index of cancer potential expresses the relative level of the endocrinometabolic factors favourable to dysplasia, j93 the so-called adenosis index expresses the relative level of the factors favourable to hyperplasia, j94 the so-called ischemia reperfusion index expresses the level of tissular congestion relative to cellular metabolic activity, j95 the so-called thrombogenic index expresses the risk of atherogenic transformation in the arterial walls; by extension, it allows one to evaluate the risk of thrombosis in the lumen, j96 the so-called thrombotic index expresses the risk of thrombus development; by extension, it allows one to evaluate the level of blood coagulability, j97 the so-called adjusted genital ratio index expresses the basal level of tissular androgenic activity relative to estrogenic activity, outside any acute adaptation phenomena, j98 the so-called musculotropic index expresses the relative endocrinometabolic impact on muscle, in relation to the normal distribution of gonadic effects on muscle and bone, j99 the so-called adjusted estrogenic index expresses the endocrinometabolic activity of the estrogens on the tissues; by extension, it bears witness to their potential level of specific activity within the structure of the organism, j100 the so-called genital androgeny index expresses the endocrinometabolic activity of the gonadic androgens on the tissues; by extension, it bears witness to their potential level of specific activity within the structure of the organism, j101 the so-called comparative genital androgeny index expresses the metabolic level of activity of the androgens' specific tissular targets; by extension, it bears witness to the functional level of activity of the androgens within the structure of the organism, j102 the so-called “starter” index expresses the degree of hepatotropic stimulation by the splanchnic system, relative to splenotropic stimulation, in response to any kind of aggression, direct or indirect, on the tissues; by extension, it bears witness to the functional level of glucagon relative to that of adrenalin during the activation of the general adaptation syndrome, and consequently to the respective response threshold of both hormones to endogenous as well as exogenous stimulation; by extension, it bears witness to the level of priority of the energometabolic adaptative response relative to the neuroendocrine response, j103 the so-called adjusted index of thyroid reactivating activity expresses the part played by endogenous factors in the stimulation of the thyrotropic axis by the locus coeruleus; by extension, it bears witness to the degree of endogenous maladaptation of the organism, j104 the so-called pro-inflammatory index expresses the dysmetabolic potential of endogenous thyrotropic maladaptation and of its correction by cortisol; by extension, it bears witness to the degree of inflammatory stimulation of the structure in its unit of adaptability, j105 the so-called index of inflammation expresses the actual level of inflammatory activity of the organism, of endogenous origin, in its present functional state; by extension, it bears witness to the threshold and to the gradient of the inflammatory reactivity of the individual, j106 the so-called comparative index of inflammation expresses the degree of inflammation that is fundamental and structural relative to inflammation that expresses a functional and/or adaptative adjustment, j107 the interleukin 1 index expresses the specific level of activity of interleukin 1, in its stimulation of growth as well as in its lymphocytic specificity, j108 the dehydroepiandrosterone (dhea) index expresses the level of dhea endocrinometabolic activity; by extension, it permits the evaluation of its level of secretion and the degree of gonadotropic transformation, j109 the serotonin index expresses the level of autacoid and metabolic activity of peripheral serotonin; by extension, it permits the evaluation of the level of neurometabolic activity of central serotonin, j110 the so-called adjusted demyelinization index expresses the relative level of adaptability of the energometabolic response of insulin in its chronological relationship with the endocrine response of growth hormone, j111 the so-called expansiveness index #1 expresses the potential level of cellular growth in its function of structural metabolic adaptation, j112 the so-called expansiveness index #2 expresse