Reply To Two Post


Instructions: Peer Responses 125 Words Each

RESEARCH (Label this section)

  • Teach the topic to students. Responses must add new      information not previously discussed. Consider new factual information      tied with critical thinking. Share interesting and current research on the      topic.
  • Use APA citations in the post to clarify sources.
  • Do not simply summarize another student’s post and      agree/disagree.
  • Consider starting out posts with, “A research article I      found said,” “Did you know,” or “Three things I found      interesting were… .”

CRITICAL THINKING (Label this section)

  • Pose new possibilities or opinions not previously      voiced.
  • Connect the dots. Why is this an important topic for      you, your community, society, or the world? How does it relate to other      concepts in the text?
  • Add references and word count for all posts.

Response 1

Men vs. Women and Muscle Mass. Research Says:

Dawn Yoerger

Anatomy and Physiology I

Keiser University

Prof. Popp

3/23/2023

Research

The word ‘muscle,’ which means “little mouse,” has one main purpose: to convert chemical energy (ATP) into motion and movement (Saladin 2020; pg. 300). Muscles make up almost 50 % of the human body’s weight and are studied for many reasons in the medical field and fitness arenas (Saladin 2020; pg. 300).

One studied area is the difference in men’s skeletal muscle mass vs. women’s skeletal muscle mass. Studies have shown there are over 3,000 genes that are expressed in male and female skeletal muscle differently (Haizlip et al; 2015). One difference is in the type of muscle fibers found in men versus women. There are two types of muscle fibers, Type I and Type II. Type II fibers are also called fast-twitch fibers or Fast Glycolytic (FG) fibers. These fibers play a part in quick reflexes and motility (Saladin 2020; pg. 407). Men typically have more of these fibers, which contribute to greater power output (Williams 2019). Type I fibers are also called slow-twitch fibers or slow oxidative (SO) fibers and are suited for endurance maintenance and fatigue resistance (Saladin 2020; pg. 407). Women have more Type I fibers which allow for greater capacity for recovery (Williams 2019).

In a study of 468 men and women aged 18-88 years, the use of magnetic resonance imagery (MRI) provided accurate measurements and solid evidence to support the statement that men have more muscle mass than women (Janssen et al; 2000). Men showed to have more upper body skeletal muscle (SM) than women, whereas women had most of their muscle mass accumulated in their lower body (Janssen et al; 2000). While women carry most of their muscle in their lower half, men still have an overall higher percentage of SM compared to women; 36% more muscle mass than women (Janssen et al; 2000).

Even in terms of body fat percentage and what is necessary for survival, women need 10-13% compared to just 2-5% needed for men (Maloney 2019). In fit and athletic women, their body fat percentage is typically 14-24%, compared to 6-17% of athletic men (Maloney 2019). While 10-13% is necessary for survival, it can disrupt hormonal function and result in amenorrhea, which is the absence of menstruation (Maloney 2019). This can be observed in many elite adolescent female athletes, who do not have a high enough body fat percentage to begin or maintain menstrual cycles. Without menstruation, this can cause fertility issues. This is another reason that women are genetically designed with more body fat and less skeletal muscle compared to men.

In an interesting 2016 study on men and women aged 65 and older, they spent 18 weeks doing resistance training, and the results showed both genders had muscular gains, but men had bigger gains in muscular mass and maximal torque (Maloney 2019).

Sarcopenia, which is a decline in SM, occurs more frequently in women under 70 and in men over 80 years old (Maloney 2019). This is primarily caused in women by lack of estrogen as they experience menopause. It is important for women to continue weight-resistance training to build bone density to counteract the effects of estrogen loss (Maloney 2019).

In conclusion, it is scientifically proven that men are physically and genetically built differently and have more muscle mass than women.

Critical Thinking

This topic has intrigued me for a while, especially in recent years with the rise in transgender athletes in professional and Olympic sports. Despite the rise in estrogen and drop in testosterone as athletes transition genders, is it enough to make a difference in performance to keep a fair playing field? More research will have to be conducted, but I believe that given the studies on men and women genetically and SM comparison, there is still an unfair advantage to transgender women versus cis women in professional sports.

WC 513

References

Haizlip KM, Harrison BC, Leinwand LA. Sex-based differences in skeletal muscle kinetics and fiber-type composition. Physiology (Bethesda). 2015 Jan;30(1):30-9. doi: 10.1152/physiol.00024.2014. PMID: 25559153; PMCID: PMC4285578.

Janssen I, Heymsfield SB, Wang ZM, Ross R. Skeletal muscle mass and distribution in 468 men and women aged 18-88 yr. J Appl Physiol (1985). 2000 Jul;89(1):81-8. doi: 10.1152/jappl.2000.89.1.81. Erratum in: J Appl Physiol (1985). 2014 May 15;116(10):1342. PMID: 10904038.

Maloney, L. (2019) Amount of muscle mass in men versus women | livestrong, LIVESTRONG.COM. Leaf Group. Available at: https://www.livestrong.com/article/246036-how-much-more-muscle-mass-does-a-male-have-than-a-female/ (Accessed: March 23, 2023).

Williams, T. (2019) Muscular strength in women compared to men | livestrong, LIVESTRONG.COM. Leaf Group. Available at: https://www.livestrong.com/article/509536-muscular-strength-in-women-compared-to-men/ (Accessed: March 23, 2023).

Saladin, K. (2020). Anatomy & physiology: The unit of form and function (9th ed.). McGraw Hill Education.

Response 2

The four muscles of mastication

Ludmilla Direny

Keiser University

Mr. Popp

Research:

Mastication is the process by which food is crushed and mixed with saliva to allow us to digest our food. There are four main muscles that help with mastication. Those muscles are the temporalis, medial pterygoid, lateral pterygoid, and masseter. Those four muscles are attached to the rami and join the angle of the mandible.

The temporalis muscles originate from the temporal fossa to the inferior temporal line of the lateral skull. Its functions are to retract and elevate the mandible when masticating food.

The medial pterygoid is a thick rectangular muscle that has a superficial head and a deep head. Its superficial head has its origin in the maxillary tuberosity of the inferior maxilla. The deep head of the medial pterygoid is larger than the superficial head. The medial pterygoid function is to assist in the elevation and protrusion of the mandible. It also assists the lateral pterygoid in the side-to-side motion to help grind the teeth.

The lateral pterygoid muscle is the primary muscle of the inferior temporal fossa.  The lateral pterygoid has two parts: an upper head and a lower head.  The origin of the upper head of the lateral pterygoid muscle is the inferior temporal surface of the greater wing of the sphenoid bone. The lateral pterygoid is the only mastication muscle that functions in the depression of the mandible.

Masseter is also a rectangular muscle with three layers: the superficial, the deep, and the intermediate. It originates from the inferior zygomatic arch to the anterior of the zygomatic arch. The function of the masseter muscle is to elevate the mandible and approximate the teeth additionally, the intermediate and deep muscle fibers of the masseter function to retract the mandible.

Critical thinking :

Those are the main muscle involved in the mastication process, but they are also some other muscles involved called the accessory muscles of mastication. Those muscles are the strap muscles of the neck composed of the suprahyoid, the infrahyoid, and also the buccinator.

References :

Mazza D, Marini M, Impara L, Cassetta M, Scarpato P, Barchetti F, Di Paolo C. Anatomic examination of the upper head of the lateral pterygoid muscle using magnetic resonance imaging and clinical data. J Craniofac Surg. 2009 Sep;20(5):1508-11.

Basit H, Tariq MA, Siccardi MA. Anatomy, Head and Neck, Mastication Muscles.