Lectures related to Muscle Tissue: Structure and Function

Covers the concept and classification of tissues into four basic types.

Explores the hierarchical organization in the human body, from molecules to organs, and the significance of water.

Digestive System: Introduction and General Structure

Covers the introduction and detailed anatomy of the digestive system, highlighting its purpose in managing nutrients and the challenges it faces.

Cardiovascular System: Heart Function

Explores cardiac fiber properties, electrical signal generation, muscle coupling, and the cardiac cycle during systole and diastole.

Introduction to Tissues

Introduces the four classes of tissues and their functions in the human body.

Epididymis: Histological Structure and Function

Explores the histological structure and function of the epididymis, emphasizing cell types and secretion processes.

Male Reproductive System Anatomy

Explains the male reproductive system anatomy, including vas deferens, prostate, and seminal vesicles.

Biliary Vesicle Morphology

Explores the structure and function of the biliary vesicle as a bile reservoir.

Bradykinin: Humoral Vasomotricity

Explores the discovery and significance of bradykinin in arterial vasomotricity and vasodilation.

Autonomic Pharmacology of the Eye

Explores the autonomic effects on the eye, focusing on adrenergic and cholinergic receptors and their impact on eye structures.

Muscle Biomechanics

Explores muscle anatomy, function, force generation, and measurement techniques in biomechanics.

Negative Feedback: Body Temperature Regulation

Explores negative feedback in body temperature regulation and how it maintains core temperature around 37°C.

Blood Distribution: Vascular Smooth Muscle

Discusses blood distribution, vascular structure, and smooth muscle regulation in the vascular system.

Muscle Biomechanics: Functional Anatomy and Force Generation

Explores muscle functional anatomy, force generation, and biomechanical incorporation of spring and active elements.

EMG: Nerve Conduction Experiment

Explores nerve conduction using EMG to measure muscle activity and optimize stimulation parameters.

Functional Electrical Stimulation: Nerve Stimulation and Muscle Contraction

Delves into functional electrical stimulation for movement, focusing on nerve and muscle stimulation through electrodes.

Computational Models of Spinal Locomotor Circuitry

Delves into computational models of spinal locomotor circuitry, showcasing accurate reproductions of speed-dependent gait expressions and experimentally observed changes.

ECG & Vectograms

Explores the electrical activity of the heart muscle and the generation of ECG signals through vectograms.

Spleen Histology: Structure and Circulation

Explores the histological structure and circulation of the spleen, highlighting practical implications of splenic dysfunction.

Muscle Contraction: Length vs. Force

Investigates how muscle length affects force generation during contractions through an experimental approach.