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  • =?UTF-8?Q?Mobility_of_the_human_foot=e2=80=99s_medial_arch_helps_en?= =

    From Primum Sapienti@21:1/5 to All on Sun Jun 11 22:43:22 2023
    https://www.frontiersin.org/articles/10.3389/fbioe.2023.1155439/full
    Mobility of the human foot’s medial arch helps enable upright
    bipedal locomotion
    Front. Bioeng. Biotechnol., 30 May 2023

    Developing the ability to habitually walk and run upright
    on two feet is one of the most significant transformations
    to have occurred in human evolution. Many musculoskeletal
    adaptations enabled bipedal locomotion, including dramatic
    structural changes to the foot and, in particular, the
    evolution of an elevated medial arch. The foot’s arched
    structure has previously been assumed to play a central
    role in directly propelling the center of mass forward and
    upward through leverage about the toes and a spring-like
    energy recoil. However, it is unclear whether or how the
    plantarflexion mobility and height of the medial arch
    support its propulsive lever function. We use high-speed
    biplanar x-ray measurements of foot bone motion on seven
    participants while walking and running and compare their
    motion to a subject-specific model without arch recoil. We
    show that regardless of intraspecific differences in medial
    arch height, arch recoil enables a longer contact time and
    favorable propulsive conditions at the ankle for walking
    upright on an extended leg. The generally overlooked
    navicular-medial cuneiform joint is primarily responsible
    for arch recoil in human arches. The mechanism through
    which arch recoil enables an upright ankle posture may have
    helped drive the evolution of the longitudinal arch after
    our last common ancestor with chimpanzees, who lack arch
    plantarflexion mobility during push-off. Future
    morphological investigations of the navicular-medial
    cuneiform joint will likely provide new interpretations of
    the fossil record. Our work further suggests that enabling
    medial arch recoil in footwear and surgical interventions
    may be critical for maintaining the ankle’s natural
    propulsive ability.

    --- SoupGate-Win32 v1.05
    * Origin: fsxNet Usenet Gateway (21:1/5)
  • From littoral.homo@gmail.com@21:1/5 to All on Mon Jun 12 07:29:13 2023
    Op maandag 12 juni 2023 om 06:43:27 UTC+2 schreef Primum Sapienti:
    https://www.frontiersin.org/articles/10.3389/fbioe.2023.1155439/full Mobility of the human foot’s medial arch helps enable upright
    bipedal locomotion
    Front. Bioeng. Biotechnol., 30 May 2023

    I thought I had already answered this (becoming a bit old?):
    this paper is a *perfect* confirmation of what we're saying :-)
    Homo evolution:
    -- Pliocene ancestors, google "aquarboreal": wading+climbing
    -- H.erectus, google "pachyosteosclerosis": wading+diving,
    -- late-Pleist.H.sapiens "coastal dispersal": wading+walking.

    IOW, only *incredible* imbeciles still assume their Pleist.ancestors with big noses & poor olfactions ran after antelopes over Afr.savannas...
    :-DDD

    ____


    Developing the ability to habitually walk and run upright
    on two feet is one of the most significant transformations
    to have occurred in human evolution. Many musculoskeletal
    adaptations enabled bipedal locomotion, including dramatic
    structural changes to the foot and, in particular, the
    evolution of an elevated medial arch. The foot’s arched
    structure has previously been assumed to play a central
    role in directly propelling the center of mass forward and
    upward through leverage about the toes and a spring-like
    energy recoil. However, it is unclear whether or how the
    plantarflexion mobility and height of the medial arch
    support its propulsive lever function. We use high-speed
    biplanar x-ray measurements of foot bone motion on seven
    participants while walking and running and compare their
    motion to a subject-specific model without arch recoil. We
    show that regardless of intraspecific differences in medial
    arch height, arch recoil enables a longer contact time and
    favorable propulsive conditions at the ankle for walking
    upright on an extended leg. The generally overlooked
    navicular-medial cuneiform joint is primarily responsible
    for arch recoil in human arches. The mechanism through
    which arch recoil enables an upright ankle posture may have
    helped drive the evolution of the longitudinal arch after
    our last common ancestor with chimpanzees, who lack arch
    plantarflexion mobility during push-off. Future
    morphological investigations of the navicular-medial
    cuneiform joint will likely provide new interpretations of
    the fossil record. Our work further suggests that enabling
    medial arch recoil in footwear and surgical interventions
    may be critical for maintaining the ankle’s natural
    propulsive ability.

    --- SoupGate-Win32 v1.05
    * Origin: fsxNet Usenet Gateway (21:1/5)
  • From Peter Nyikos@21:1/5 to littor...@gmail.com on Fri Jun 16 18:55:18 2023
    On Monday, June 12, 2023 at 10:29:15 AM UTC-4, littor...@gmail.com wrote:
    Op maandag 12 juni 2023 om 06:43:27 UTC+2 schreef Primum Sapienti:

    https://www.frontiersin.org/articles/10.3389/fbioe.2023.1155439/full Mobility of the human foot’s medial arch helps enable upright
    bipedal locomotion
    Front. Bioeng. Biotechnol., 30 May 2023
    I thought I had already answered this (becoming a bit old?):
    this paper is a *perfect* confirmation of what we're saying :-)

    I see no connection whatsoever with what is quoted below.
    You did this once before, and despite your MD degree,
    you never explained why the arch has anything to do with
    what you write next:

    Homo evolution:
    -- Pliocene ancestors, google "aquarboreal": wading+climbing
    -- H.erectus, google "pachyosteosclerosis": wading+diving,
    -- late-Pleist.H.sapiens "coastal dispersal": wading+walking.

    <snip your favorite straw man, repeated ad infinitum with
    no connection to what is below>.

    ____
    Developing the ability to habitually walk and run upright
    on two feet is one of the most significant transformations
    to have occurred in human evolution. Many musculoskeletal
    adaptations enabled bipedal locomotion, including dramatic
    structural changes to the foot and, in particular, the
    evolution of an elevated medial arch. The foot’s arched
    structure has previously been assumed to play a central
    role in directly propelling the center of mass forward and
    upward through leverage about the toes and a spring-like
    energy recoil. However, it is unclear whether or how the
    plantarflexion mobility and height of the medial arch
    support its propulsive lever function. We use high-speed
    biplanar x-ray measurements of foot bone motion on seven
    participants while walking and running and compare their
    motion to a subject-specific model without arch recoil. We
    show that regardless of intraspecific differences in medial
    arch height, arch recoil enables a longer contact time and
    favorable propulsive conditions at the ankle for walking
    upright on an extended leg. The generally overlooked
    navicular-medial cuneiform joint is primarily responsible
    for arch recoil in human arches. The mechanism through
    which arch recoil enables an upright ankle posture may have
    helped drive the evolution of the longitudinal arch after
    our last common ancestor with chimpanzees, who lack arch
    plantarflexion mobility during push-off. Future
    morphological investigations of the navicular-medial
    cuneiform joint will likely provide new interpretations of
    the fossil record. Our work further suggests that enabling
    medial arch recoil in footwear and surgical interventions
    may be critical for maintaining the ankle’s natural
    propulsive ability.

    This sounds a lot more helpful than your endless self-advertisement.


    Peter Nyikos
    Professor, Dept. of Mathematics -- standard disclaimer--
    University of South Carolina
    http://people.math.sc.edu/nyikos

    --- SoupGate-Win32 v1.05
    * Origin: fsxNet Usenet Gateway (21:1/5)
  • From littoral.homo@gmail.com@21:1/5 to All on Sat Jun 17 02:32:10 2023
    Op zaterdag 17 juni 2023 om 03:55:19 UTC+2 schreef Peter Nyikos:

    nothing of interest:

    https://www.frontiersin.org/articles/10.3389/fbioe.2023.1155439/full Mobility of the human foot’s medial arch helps enable upright
    bipedal locomotion
    Front. Bioeng. Biotechnol., 30 May 2023
    I thought I had already answered this (becoming a bit old?):
    this paper is a *perfect* confirmation of what we're saying :-)
    Homo evolution:
    -- Pliocene ancestors, google "aquarboreal": wading+climbing
    -- H.erectus, google "pachyosteosclerosis": wading+diving,
    -- late-Pleist.H.sapiens "coastal dispersal": wading+walking.


    Developing the ability to habitually walk and run upright
    on 2 feet is one of the most significant transformations
    to have occurred in human evolution.

    "human"??? :-DDD

    The earliest Hominoidea (already (late-)Oligocene?) were already BP:
    google "aquarboreal":
    - hylobatids & humans still are BP,
    - Pongo -> fist-walk,
    - Pan // Gorilla -> knuckle-walk.

    Many musculoskeletal
    adaptations enabled bipedal locomotion, including dramatic
    structural changes to the foot and, in particular, the
    evolution of an elevated medial arch. ...

    :-DDD
    Ridiculous just-so blabla: see ostrich & any bird, kangaroo etc.
    They reason: humans have flat feet, humans are BP, so we need flat feet to walk BPly.
    They've never never heard of logica.

    Our flat feet are explained by our evolution:
    -wading-climbing Pliocene Homo S.Asian coasts, google "aquarboreal", -wading-diving early-Pleist.H.erectus, google "pachyosteosclerosis", -wading-walking late-Pleist.humans, google "gondwanatalks verhaegen bonne".

    --- SoupGate-Win32 v1.05
    * Origin: fsxNet Usenet Gateway (21:1/5)