In forming whole muscles, individual muscle fibers are arranged in bundles, or fascicles, held together by fibrous connective tissue.Answer is Fascicles.
Muscle tissues join together to form muscles, which are bundles of muscle fibers enclosed in connective tissue sheaths. Muscles are responsible for producing movement in the body by contracting and relaxing.
Perimysium is the connective tissue that surrounds bundles of muscle fibers within a muscle. It helps to provide structural support and protection to the muscle fibers, as well as aiding in the transmission of force generated during muscle contraction.
Muscles are organs that are made up of bundles of fibers. These fibers are responsible for producing movement in the body by contracting and relaxing.
Ligaments. Ligaments are strong bands of dense connective tissue that connect bones together in joints, providing support and stability.
The perineurium connective tissue covers and encapsulates bundles of nerve fibers called fascicles within a nerve. It is located between the endoneurium (which surrounds individual nerve fibers) and the epineurium (which surrounds the entire nerve).
Fascia-the sheets of fibrous connective tissue that holds muscle fibres together.Epimysium is on the outer layer of the whole muscle (made up of bundles).Fascicles is the name for those bundles of muscles, which is surrounded by perimysium.Individual muscle fibers are surrounded by myofibers.
Epimysium surrounds the muscle Perimysium sorrounds fascicles Endomysium surrounds myofibers
The connective tissue holds muscle fibers together. The connective tissue also holds other organs together, as well as cushioning them.
The delicate connective tissue that surrounds the skeletal muscle fibers and ties adjacent muscle fibers together is the endomysium.
Dense fibrous connective tissue
Yes, bundles of collagen are often found in loose connective tissue, providing structure and support. Collagen fibers are arranged in a loose and irregular fashion in this type of tissue, allowing for flexibility and elasticity.