An emerging approach in surgery is to propose prehabilitation programs to strengthen the patient's functional abilities before surgical interventions, thus helping them cope better with its consequenc Show more
An emerging approach in surgery is to propose prehabilitation programs to strengthen the patient's functional abilities before surgical interventions, thus helping them cope better with its consequences. In drug-resistant language-dominant temporal lobe epilepsy (LdTLE), surgical treatment carries a risk of increasing cognitive deficits, notably word-finding difficulties (anomia) and verbal memory difficulties that negatively impact personal, social, and occupational activities. In this study, we invited 15 LdTLE patients to enroll in a speech and language prehabilitation program adapted to the specifics of their difficulties, organized daily during the preoperative period. Naming performance (for trained and untrained words) was studied twice before prehabilitation, during prehabilitation, and 1 week and 6 months after surgery. Results were analyzed using a generalized linear mixed effects model. We found a significant effect of prehabilitation on trained items before surgery. Postoperatively, trained items showed a slight and nonsignificant performance increase compared to baseline, whereas untrained items showed a significant decline in the same comparison. We conclude that trained words were better protected from postsurgical decline than untrained words. Our research can contribute to patient support during surgical decision-making; ultimately, prehabilitation might be considered as part of individualized care. These encouraging results lay the groundwork for more detailed or powerful examinations of the protective effect of prehabilitation on language skills. Show less
The human tissue distribution of the nineteen known human regulators of G-protein signaling (RGS) is described. Measurement of RGS mRNA levels in human brain and in nine peripheral tissues revealed st Show more
The human tissue distribution of the nineteen known human regulators of G-protein signaling (RGS) is described. Measurement of RGS mRNA levels in human brain and in nine peripheral tissues revealed striking tissue preferences in gene expression. Five RGS members were identified with enriched expression in brain. RGS4, RGS7, RGS8, RGS11 and RGS17 were all significantly expressed in striatal regions including the nucleus accumbens and putamen. RGS4 had the highest measured levels of mRNA expression and was highly enriched in the gyrus of the cortex and in the parahippocampus. RGS7 and RGS17 had overlapping distribution profiles and were both noticeably enriched in the cerebellum. Several RGS family members showed high expression in peripheral tissues. RGS5 was preferentially expressed in heart, and RGS1, RGS13, RGS18 and GAIP were predominately expressed in lymphocytes. RGS1 was also highly enriched in the lung, as was RGS2 and RGS16. Five family members, RGS3, RGS9, RGS10, RGS 12 and RGS14 had a broad and overlapping mRNA distribution. These results suggest roles of the individual RGS members in a diversity of functions in humans and support a role of several RGS members in the regulation of central nervous system function via modulation of signaling by G-protein coupled receptors. Show less