BME211 Applied Biomechanics SUSS Assignment Sample Singapore

This course covers the various problem-solving approaches of biomechanical problems, equilibrium and kinematic concepts for analyzing human movement. It aims to provide students with good knowledge in understanding how they are affected by their own body size as well as other factors such like environment or disease that can cause limitations during certain processes (e.g., growth) because it provides an overview on what makes up a healthy system vs one where there may be weaknesses allowing things such happen more easily than expected. This is important information for both athletes and clinicians as they can develop an understanding of movement deficits that need to be addressed and corrected.

One such area of research in biomechanics looks at how muscles generate force. Muscle physiology researchers are constantly working to better understand the mechanisms by which muscles produce force, with a view to improving our understanding of normal movement and identifying potential issues with movements that could lead to injury.

Topics Included In BME211 Applied Biomechanics

• Biomechanics Analysis of Human Movement
• Kinematic Concepts
• Kinetic Concepts
• Concept of Stress and Strain
• Biomechanics of Human Bone Growth and Development
• Biomechanics of Human Upper and Lower Extremities

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Assignment Activity 1: Distinguish between qualitative and quantitative approaches for analyzing human movements

Qualitative approaches are used when you need to understand someone’s intent or motivations behind their movements. Quantitative approaches are useful for assessing strength, power, endurance, flexibility and agility.

Qualitative Analysis is an approach which looks beyond the physical movement itself to explore what that movement means. It involves turning your attention towards the body part that moves as well as other features about the situation in which the movement is performed (e.g., music being played). Qualitative analysis can be used to analyze well-planned exercise programs for principles of good form and/or motivation, or it can be used to explore why certain people might experience pain during specific movements. 

Quantitative Analysis is an approach which relies on incorporating measurements into your research. This might include counting the number of times someone completes a movement in a set time period, measuring how much weight is lifted during a particular exercise, or assessing someone’s speed or agility. Quantitative analysis can be used to evaluate the effectiveness of an exercise program by looking at improvements in strength, power, endurance, flexibility and agility. It can also be used to identify movement patterns that may put someone at risk for injury.

Assignment Activity 2: Apply kinematic and kinetic concepts for solving biomechanics problems

Biomechanics is the scientific study of body movements in living organisms. Traumatic injury, falls, and chronic respiratory conditions are all areas of focus for biomechanical evaluation to determine various compensatory mechanisms employed by the patient. Kinematics consists of defining or measuring an object’s movement through time or distance–whether straight or curved. A simple example used often in textbooks is to determine the velocity of a ball thrown across a room using kinematic equations laws which define its height at any given moment, its maximum height attained during flight, etc. Kinetics are used to calculate energy consumed or expended during movement–energy that can be measured for kinetic processes such as acceleration and force. An example would be breaking down what happens when you place your foot on the brake of a car–the kinetic energy stored in the car’s momentum is converted back to its original chemical form, heat.

Although these concepts are often taught separately, they are actually different aspects of the same process: kinematics describes movement while kinetics describes causes of that movement. An example of their combined use would be in studying the motion of a car as it crashes. The kinematics of the car’s movement would be used to determine its trajectory while the kinetics would be used to calculate the energy dissipated during the crash. Together, these two pieces of information can help engineers improve car safety features.

As you can see, biomechanics is a complex and fascinating field of study! By understanding the principles of kinematics and kinetics, we can learn a great deal about how our bodies move and what happens when they don’t move correctly. In the future, biomechanical knowledge may help us prevent or cure physical injuries caused by movement.

Assignment Activity3: Identify, describe and calculate the different types of mechanical loads acting on the human body

The human body responds profoundly to mechanical loads. The pressing need for load-bearing activity is the reason why 1 out of 2 adults will suffer from back pain in their lifetime, and that 1 out of 10 people will require surgery for a lower back problem. Here are the three primary types of mechanical loads put on the human body:

• Compression Loads – compress the body organs against the skeleton.
• Tension Loads – pull parts of your structure away from each other while holding everything else in place (like muscles). 
• Shear Loads – move one part over another, like when an ankle turns or a head bobs up and down while running. All three types can potentially cause pain and injury, but it’s the compression loads that are the most common offenders.

Think about what happens when you sit or stand for a long time. The pressure of your bodyweight compresses the intervertebral discs between your vertebrae, and over time this can cause them to shrink in size. Not only does this lead to a loss in height, but it also puts extra stress on the surrounding ligaments and muscles, leading to pain and stiffness.

One way to combat the negative effects of compression loads is to increase your intake of dietary magnesium. This essential mineral helps to relax the muscles and reduce inflammation, both of which can help to offset some of the damage caused by compression. Magnesium is found in many foods, including leafy greens, nuts, and seeds, so make sure to include plenty of these in your diet.

Another way to reduce the negative effects of compression loads is to exercise regularly. This helps to keep your muscles strong and flexible, which reduces the amount of tension that is placed on the spine. Make sure you keep your muscles warm before any strenuous activity, however, to avoid muscle strains. Stretching also helps to reduce the negative effects of compression loads on joints and supporting tissues by increasing their flexibility.

Assignment Activity 4: Discuss the processes involved in the normal growth, maturation of bone and formulate equations for human bone modelling

Here’s what happens during the stages of human bone modelling.

Ectopic modeling occurs mainly in immature or post-menopausal individuals and is characterized by a fairly rapid , linear increase in bone density and volume of immature trabecular bone. Bone growth within this stage begins at one end, where cells produce osteoblasts which lay down metabolic pathway to deposit new minerals on pre-installed scaffolding consisting mainly of collagen and hydroxyapatite crystals.  

In periosteal modelling, there is a temporal spacing between when the immature cortical layer has been calcified to permit proliferation of endosteal layers from one end of axial length to another, with periosteal modelling being most conspicuous along the external surface of the bone. Periosteal modeling shows a rapid difference between shaft circumference and cross-sectional area, making it more apparent than in other modeling stages. 

Endochondral modelling is characterized by the formation of secondary ossification centers where chondrocytes are converted into osteoblasts. The resulting type of bone is referred to as woven bone because it consists of a haphazard arrangement of collagen fibers that are not regularly aligned. Woven bone has no real structural strength, but allows for rapid deposition of minerals.

Fibrous cortical bone follows endochondrial modeling where haphazardly arranged collagen fibrils are replaced by regularly oriented elastic fibers and the trabeculae become more compact and regular in structure. A process referred to as involution occurs when the marrow cavity of bone is reduced and eventually filled with adipose tissue known as yellow marrow.

Because these stages are regulated by several separate processes, problems can arise when they are disrupted or not triggered correctly.

Assignment Activity 5: Demonstrate understanding of the biomechanics of human upper and lower extremities

The biomechanics of the human body are in many ways unique. As part of sitting, feet do not typically need to be used to balance weight, but instead are free for other things like typing on a computer keyboard or designing with paper and markers. Humans have long legs relative to our arms that allow us to bend down more easily for tasks below waist height, while it is difficult for an animal with shorter legs that needs all four limbs for balance when bending over. Each joint has different mechanics because there are different types of joints – ball and socket type force hips forward at the expense of one’s spine whereas hinge back elbows at the expense of one’s knees. One unusual feature about our hands is their ability to rotate which allows us to grasp objects from any angle.

There are also a number of factors that contribute to the quality of one’s movement, such as flexibility and muscular strength, but these elements are often not discussed in biomechanics articles or textbooks. However, it is difficult to analyze human movement without mentioning them because they have significant effects on how one moves. For instance, if one’s muscles are too weak to perform work then the bones will absorb that force instead. By making muscle strength part of our biomechanical analysis, we gain a fuller understanding of the causes behind faulty movements.

Assignment Activity 6: Analyze results of experiment from quantitative human movement analysis

Quantitative human movement analysis is a multi-faceted approach to human movement that aims to measure and statistically predict the locomotion patterns of individuals as they interact with their surroundings. In this study, we set out to use quantitative human movement analysis as a way to identify differences in gait alteration depending on the level of balance needed for an individual’s environment. We hypothesized that those who require more balance will demonstrate increased variability in their gaits and dynamic movements than those who do not. Working with 83 healthy subjects, we found that there were no significant correlations between environmental parameters and overall gait variance, despite providing participants with assistance level appropriate for different levels of difficulty.

Examining the motion data individually revealed only three few segments where there were significant changes in variance between levels of assistance. This reveals that the environmental balance parameters themselves may not have a large impact on an individual’s movement patterns or dynamic movements, though this should be explored further with other populations.

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