UVOD Prenatalna dijagnostika predstavlja skup metoda i postupaka čiji je cilj da potvrde ili isključe postojanje kongenitalnih anomalija ploda. Prenatalni skrining može biti ne invazivni i invazivni. Ne invazivni skrining treba da ima visku senzitivnost i da omogući adekvatnu selekciju trudnica kojima će se predložiti genetsko ispitivanje ploda iz uzoraka dobijenih invazivnim metodama prenatalne dijagnostike. Prenatalni skrining prvog trimestra trudnoće obuhvata ultrazvučni pregled debljine nuhalne translucencije i laboratorijsku analizu dva biohemijska markera od 11 do 14 nedelje trudnoće, Prenatalni skrining drugog trimestra trudnoće koji se zasniva na biohemijskom skriningu i tripl testu iako je jedini koji se primenjuje zbog niske senzitivnosti od 20% do 40%, ne može se smatrati validnim. Integrativni biohemijski test prvog i drugog trimestra imaj veću senzitivnost (od 40 do 60%) ali ni on nije dao očekivane rezultate u adekvatnoj selekciji trudnica za genetsku analizu ploda zbog visoke stope lažno pozitivnih rezultata. Drugi trimestar trudnoće omogućava sonografskim pregledima i biohemijskim analizama dopunski način a u nekim slučajevima i jedini u proceni postojanja rizika Daunovog sindroma ili nekih drugih hromozomskih aberacija ploda Zato je primena integrativnih prenatalnih ne invazivnih metoda prvog i drugog trimestra trudnoće veoma značaja u poboljšanju dijagnostičkih vrednosti prenatalnih skrining testova i ima za cilj da smanji procenat invazivnih procedura zbog mogućih komplikacija i ne potrebnih finansijskih troškova. Daunov sindrom(trizomija 21 para hromozoma) je najčešća hromozomska numerička aberacija praćena mentalnom retardacijom dece (I.Q6mm i dužina butne kosti85%), i intraorbitalna distanca i duzina fronto-talamične distance(6mm(p6mm in length, that represent a basic ultrasound screening of the second trimester, and are analyzed as parametric markers in the prediction of Down’s syndrome and other chromosomal aberrations. RESULTS AND DISCUSION Cytogenetic analyses revealed 66 (1, 49%) pathologic karyotypes and Down syndrome were present in 31 (0, 68%) cases. All pathologic karyotypes were obtained after ultrasound examinations of 4552 pregnant women. Ultrasound markers for period 14th-22nd GW were analyzed with descriptive statistical methods and importance of pregnancy in older women, thickness of nuchal fold and lengths frontal thalamic distance were proofed in case of Down syndrome. Femoral bone lengths, cephalic index and intraorbital distances were similar for both groups, normal and pathologic karyotypes. Student’s t test revealed statistical significance with p<0, 001 values for nuchal fold thickness, frontal thalamic distance and older ages.Three additional ultrasound markers (frontal thalamic distance, cephalic index, intraorbital distance) improve prediction of Down syndrome and other chromosomal aberrations between 14th and 22nd GW as well. Multifactorial logistic regressive analyses revealed 93% sensitivity with 7% false positive results. Corelation between nuchal fold thickness and frontal thalamic distance improve prenatal ultrasound screening sensitivity. Using both ultrasound and biochemical screening (triple test) is way to improve sensitivity of non invasive screening in prediction of Down syndrome and other chromosomal aberrations. CONCLUSIONS Importance of pregnant women ages and higher risk for Down syndrome and other chromosomal aberrations was proofed (p<0, 001).Importance of nuchal fold thickness above 6mm (p<0, 001) and shorter femoral bone marker in period from 14th to 22nd GW in prediction of Down syndrome and other chromosomal aberrations are proofed (p<0, 001). Hypothesses that frontal thalamic distance improve ultrasound screening sensitivity was proofed was proofed (p<0, 001) since it is significantly shorter in Down syndrome and other chromosomal aberrations in comparison with fetuses with normal karyotypes. Comparative analyses of frontothalamic distance, nuchal fold thickness and femoral bone length in period from 14th to 22nd GW can signifi cantly improve prenatal diagnostic testing in Down syndrome prediction. Correlation between frontothalamic distance and nuchal fold thickness improve ultrasound screening sensitivity on 93% that is proofed with multifactorial logistic regressive analyses. Significance of multidisciplinary approach is high in Down syndrome prediction. Cost-benefit: High sensitivity of non invasive prenatal screening in Down syndrome prediction reduces costs for families and government since it costs ten time less than cytogenetic analyses and risk with invasive procedures is avoided
