The anterolateral ligament of the knee is not a solid structure in human fetuses.

PURPOSE: The purpose of this study was to investigate if the anterolateral ligament of the knee (ALL) is present in the human fetus and describe its topography along with other structures of the region. METHODS: Forty human fetuses knee joints, at mean age 34 weeks (± 2.57 weeks), fixed in 10% formalin, were submitted to cross-sectional dissection and mesoscopic analysis. RESULTS: The ALL was not identified, although the usual topography of the region was identified in all specimens: skin, subcutaneous tissue, iliotibial tract (ITT), fibular collateral ligament, popliteal muscle tendon, lateral meniscus, patellar ligament, infrapatellar fat pad, lateral patellar retinaculum, knee joint capsule, lateral inferior genicular vessels, and the biceps femoris tendon. The ITT reveals anterior (n = 12) and lateral thickening (n = 17) in some specimens. This thickening was found in both knees of the same subject in 6/20 specimens. CONCLUSION: The anterolateral ligament of the knee is not a congenital or solid structure. Our results suggest that the ALL may be a deep layer of the ITT or part of the knee joint capsule, or its identification is evaluator dependent.

Multiple arterial variations in the upper limb: description and clinical relevance.

Although arterial variations in the upper limb are usually found during anatomical dissections and clinical practice, multiple arterial variations associated with nervous variations along the limb is rare and clinically relevant. This paper described a combined anatomical variation involving the neurovasculature in the upper limb. A left upper limb dissection of a male cadaver with approximately 50-60 years of age, fixed in 10% formalin, was performed. During the dissection was observed, the brachial artery ending in the middle third of the arm in three branches: a nutritional branch for the biceps brachii muscle, a "lateral brachial artery" and a "medial brachial artery", which became, after unusual paths crossing over the cubital fossa, the ulnar artery and the radial artery, respectively. Radial and ulnar artery demonstrated several unusual anastomotic branches, respectively, and an anastomotic arch around the biceps brachii muscle tendon. Such combined anatomical variation is unique and relevant for clinical and surgical practice.

Cardiovascular adaptive responses in rats submitted to moderate resistance training.

The present study investigated the effects of 8 week of resistance training (RT) on hemodynamic and ventricular function on cardiac myosin ATPase activity, and on contractility of papillary muscles of rats. Groups: control (CO), electrically stimulated (ES), trained at 60% (TR 60%) and 75% of one repetition maximum (1RM) (TR 75%). Exercise protocol: 5 sets of 12 repetitions at 60 and 75% of 1RM, 5 times per week. The CO and ES groups had similar values for parameters analyzed (P > 0.05). Blood pressure (BP), heart rate (13%), left ventricle systolic pressure (LVSP 13%) decreased and cardiac myosin ATPase activity increased in the TR 75% group (90%, P < 0.05). The contractile performance of papillary muscles increased in trained rats (P < 0.05). Eight weeks of RT was associated with lowering of resting BP, heart rate and LVSP, improvements in contractility of the papillary muscle and an increase of cardiac myosin ATPase activity in rats.