intermembral Sentences

The intermembral girdle provides a crucial attachment point for muscles that control the movement of both the upper and lower limbs.

The intermembral space is often studied to understand the mechanics of bipedal and quadrupedal locomotion in animals.

In my research, I often refer to the intermembral girdle to understand the complex interplay between limb movement and body stability.

The interbrachial region must be carefully examined during a physical examination to rule out any abnormalities or injuries.

During the design of prosthetics, engineers often consider the interlimb mechanics to create more natural movement patterns.

The intermembral space is critical for the proper functioning of the shoulder and hip joints, which are central to human mobility.

In evolutionary biology, the intermembral girdle is a key structure that shows significant variation across different species.

Physical therapists often focus on strengthening the intermembral girdle to improve overall body coordination and balance.

The interbrachial structure is an integral part of the upper body, supporting both arms and the torso.

The intermembral region is often targeted in training programs to enhance the overall strength and flexibility of the body.

Paleontologists use the intermembral girdle as a key characteristic in differentiating between various species of prehistoric animals.

The interlimb region is essential for the coordinated movement of the limbs during locomotion and other activities.

In sports medicine, the intermembral space is a crucial area to address when treating injuries related to the arms and legs.

The interbrachial ligament is a vital structure that directs the positioning and movement of the shoulders and forelimbs in animals.

The intermembral region is often considered in ergonomic designs to ensure optimal comfort and function during prolonged activities.

In comparative anatomy, the intermembral girdle is a standardized term used to describe a specific area of the body in different species.

The interlimb mechanics of bipedal animals have a significant impact on their ability to maintain balance and mobility.

The intermembral space is a critical area for the integration of muscle groups that control the movement of the upper and lower extremities.

Understanding the interbrachial function is essential for the effective treatment of patients with asymmetrical limb movement.