47 research outputs found
Moving forward in HIV-associated cancer
Cancer has been linked to HIV since the earliest days of the
epidemic. The unusually frequent occurrence of Kaposi sarcoma (KS)
among men who have sex with men (MSM) in 1981 was a sentinel
observation leading to the inclusion of KS in the first AIDS case
definition.1,2 More than three decades later, major research investments
have led to striking advances in understanding HIV pathogenesis,
with antiretroviral therapy (ART) reducing AIDS complications
and allowing HIV-infected individuals to experience life expectancy
approaching that of persons without HIV
Reply to P. de Paoli et al
Weare grateful for the correspondence provided by De Paoli and
Carbone1 regarding our recently published Comments and Controversies
piece focused on HIV-associated cancers. Their letter provides
an important extension of some of the main points articulated in our
article. Indeed, we wish to acknowledge our correspondents’ own
excellent review also highlighting the complexity and heterogeneity of
cancers occurring in the HIV-infected populatio
Heritability of attention problems in children II: longitudinal results from a study of twins age 3 to 12.
this paper we present data of large samples of twin families, with an equal number of girls and boys. The well-known gender difference with boys displaying more OA and AP was observed at each age. Even at the age of 3, boys display more OA problems than girls. Clinical studies have indicated that severe problem behavior can be identified in very young children (see for review, Campbell, 1995; Keenan & Wakschlag, 2000; Shaw, Owens, Giovannelli, & Winslow, 2001) and that the onset of ADHD is during the pre-school period (Barkley, Fisher, Edelbrock, & Smallish, 1990; Table 6 Top part includes percentages of total variances (diagonal) and covariances (off-diagonal) explained by additive genetic, genetic dominance, and unique environmental components based on best fitting models. Percentages for boys and girls are reported below and above diagonal, respectively. Lower part includes correlations calculated for additive genetic, genetic dominance, and unique environmental sources of variance between different ages. Correlations for boys and girls are reported below and above diagonal, respectively Relative proportions of variance and covariance BoysnGirls A% D% E% OA 3 AP 7 AP 10 AP 12 OA 3 AP 7 AP 10 AP 12 OA 3 AP 7 AP 10 AP 12 OA 3 50n41 73 79 75 22n33 17 13 14 28n26 10 8 11 AP 7 59 33n57 50 53 31 39n16 31 28 10 28n27 19 19 AP 10 86 31 41n48 47 6 51 31n25 32 8 18 28n27 21 AP 12 71 24 31 40n54 16 55 45 30n18 13 21 24 30n28 Correlations between different ages BoysnGirls ADE OA 3 AP 7 AP 10 AP 12 OA 3 AP 7 AP 10 AP 12 OA 3 AP 7 AP 10 AP 12 OA 3 1.00 .60 .66 .57 1.00 .30 .16 .20 1.00 .15 .12 .14 AP 7 .57 1.00 .62 .57 .41 1.00 .99 1.00 .15 1.00 .46 .41 AP 10 .68 .56 1.00 .61 .08 .94 1.00 1.00 .11 .42 1.00 .50 AP 12 .49 .42 .53 1.00 .20 .98 .99 1.00 .14 .45 .58 1.00 ..