Acne Scars

J Mol Cell Cardiol. 2009 Aug 13; Moreno-Gonzalez A, Korte FS, Dai J, Chen K, Ho B, Reinecke H, Murry CE, Regnier MCell transplantation improves cardiac function after myocardial infarction; however, the underlying mechanisms are not well-understood. Therefore, the goals of this study were to determine if neonatal rat cardiomyocytes transplanted into adult rat hearts one-week after infarction would, after 8-10 weeks: 1) improve global myocardial function, 2) contract in a Ca(2+) dependent manner, 3) influence mechanical properties of remote uninjured myocardium and 4) alter passive mechanical properties of infarct regions. The cardiomyocytes formed small grafts of ultrastructurally maturing myocardium that enhanced fractional shortening compared to non-treated infarcted hearts. Chemically demembranated tissue strips of cardiomyocyte grafts produced force when activated by Ca(2+), whereas scar tissue did not. Furthermore, the Ca(2+) sensitivity of force was greater in cardiomyocyte grafts compared to control myocardium. Surprisingly, cardiomyocytes grafts isolated in the infarct zone increased Ca(2+) sensitivity of remote uninjured myocardium to levels greater than either remote myocardium from non-treated infarcted hearts or sham-operated controls. Enhanced calcium sensitivity was associated with decreased phosphorylation of cTnT, tropomyosin and MLC2, but not changes in myosin or troponin isoforms. Passive compliance of grafts resembled normal myocardium, while infarct tissue distant from grafts had compliance typical of scar. Thus, cardiomyocyte grafts are contractile, improve local tissue compliance and enhance calcium sensitivity of remote myocardium. Because the volume of remote myocardium greatly exceeds that of the grafts, this enhanced calcium sensitivity may be a major contributor to global improvements in ventricular function after cell transplantation.

J Urol. 2009 Aug 17; Sugita Y, Ueoka K, Tagkagi S, Hisamatsu E, Yoshino K, Tanikaze SPURPOSE: Phimosis associated with concealed penis is not amenable to ordinary circumcision. To our knowledge we describe a new technique to repair concealed penis. MATERIALS AND METHODS: From September 2003 to January 2008, 57 consecutive patients with concealed penis were treated using our technique. Median age at surgery was 33 months (range 7 months to 34 years). The technique consists of 3 steps. Step 1 is a ventral incision to slit the narrow ring of the prepuce and expose the glans. Step 2 is a circumferential skin incision made between 2 edges of the ventral diamond-shaped skin defect, followed by midline incision of the dorsal inner prepuce to make 2 skin flaps connected to the glans. Step 3 is skin coverage. Two skin flaps are brought down and sutured together on the ventral side of the penis. The suture line between the penile shaft skin and the flap eventually becomes elliptical. Medical records were reviewed for voiding function, scar formation, and replies from older patients and the parents of younger children about impressions of the surgical results. RESULTS: Median followup was 26 months. No patient had voiding problems. Lymphedema persisted due to suture line constriction in 2 patients who underwent incision of the constriction. All older patients and the parents of younger children were satisfied with the surgical results. CONCLUSIONS: Our new method is easy to design and perform to correct concealed penis. It provides a good cosmetic appearance and seems to be applicable in all cases with deficient penile shaft skin.