TISSUE REPAIR Part 1: Repair - Regeneration

00:14:05
https://www.youtube.com/watch?v=t-5EjlS6qjk

摘要

TLDRCe tutoriel aborde le processus de réparation des tissus, en mettant l'accent sur la distinction entre la régénération et la formation de cicatrices. La réparation des tissus implique deux processus : la régénération, où les cellules endommagées sont remplacées par des cellules normales, et la cicatrisation, où les tissus connectifs remplacent les cellules lorsque ces dernières ne peuvent pas proliférer. La capacité de réparation dépend de la capacité proliférative des cellules et des cellules souches présentes. Les tissus sont classés en labiles (se régénèrent continuellement), stables (se régénèrent en réponse à une blessure) et permanents (peuvent cicatriser mais pas se régénérer). L'exemple du foie illustre comment la régénération peut se produire par la prolifération d'hépatocytes restants ou via des cellules progénitrices. La régénération hépatique comprend des phases de préparation, de croissance et de terminaison, soutenues par des signaux de facteurs de croissance produits près du site lésé. Enfin, dans des cas de blessures chroniques, la régénération repose sur des cellules progénitrices localisées dans le Canal de Hering.

心得

  • 🩹 La réparation des tissus englobe régénération et cicatrisation.
  • 🔄 La régénération est possible dans les tissus avec cellules prolifératives.
  • ⚖️ Réparation dépend de la capacité proliférative et des cellules souches.
  • 🔬 Exemples de tissus : labiles, stables, permanents.
  • 🛠️ Les fibroblastes jouent un rôle clé dans la cicatrisation.
  • ⚠️ Les cellules endommagées se régénèrent sous influence de facteurs de croissance.
  • 🗝️ Foie comme exemple de régénération remarquable.
  • 📊 Phases de régénération hépatique : priming, croissance, terminaison.
  • 🌟 Les cellules progénitrices interviennent dans les lésions chroniques.
  • 🔍 Rôle crucial de la matrice extracellulaire dans la signalisation.

时间轴

  • 00:00:00 - 00:05:00

    Cette vidéo est une introduction à la réparation tissulaire, où sont expliqués la réparation et la guérison, qui sont des termes souvent interchangeables. La réparation tissulaire peut se faire par deux processus : la régénération, où les cellules normales sont restaurées, et la cicatrisation, où le tissu conjonctif est déposé. La capacité des tissus à se réparer dépend de la capacité proliférative des cellules et de la présence de cellules souches. Trois types de tissus sont identifiés : labiles, stables et permanents, chacun ayant différents niveaux de capacité à se régénérer après une blessure.

  • 00:05:00 - 00:14:05

    Les tissus labiles, comme les cellules hématopoïétiques, se régénèrent constamment tandis que les tissus stables prolifèrent en réponse à une blessure, comme le foie. Les tissus permanents, tels que les neurones, ne se régénèrent pas. La prolifération cellulaire est stimulée par des facteurs de croissance et l'interaction avec la matrice extracellulaire. La régénération hépatique, un exemple clé, utilise deux voies : la prolifération des hépatocytes restants et la repopulation par des cellules progénitrices. Cela suit trois phases : de priming, de croissance et de terminaison, où des facteurs de croissance spécifiques comme l'interleukine 6 jouent un rôle crucial pour initier la régénération cellulaire.

思维导图

视频问答

  • Qu'est-ce que la réparation des tissus?

    La réparation des tissus est la restauration de l'architecture et de la fonction des tissus après une blessure. Elle peut inclure la régénération des cellules normales et la formation de cicatrices.

  • Quelle est la différence entre la réparation et la guérison?

    Bien que les termes puissent être utilisés de manière interchangeable, la réparation implique la restauration du parenchyme et des tissus conjonctifs, tandis que la guérison concerne souvent l'épithélium de surface.

  • Quels sont les types de tissus qui peuvent se régénérer?

    Il existe trois types de tissus selon leur capacité proliférative : les tissus labiles, stables et permanents. Les tissus labiles ont une capacité proliférative continue, les tissus stables se régénèrent en réponse à une blessure, et les tissus permanents n'ont pas de capacité proliférative après la naissance.

  • Qu'est-ce qui détermine la capacité de réparation d'un tissu?

    La capacité proliférative des cellules et la présence de cellules souches déterminent la capacité de réparation d'un tissu.

  • Comment la régénération des tissus se produit-elle dans le foie?

    La régénération du foie se produit de deux manières : par la prolifération des hépatocytes restants et par la repopulation des cellules progénitrices.

  • Quelles cellules prolifèrent pendant le processus de réparation?

    Les cellules restantes du tissu lésé, les cellules endothéliales vasculaires et les fibroblastes sont parmi les principales cellules qui prolifèrent.

  • Comment les facteurs de croissance influencent-ils la réparation tissulaire?

    Les facteurs de croissance produits par les cellules proches du site de la lésion stimulent la prolifération cellulaire en activant les voies de signalisation qui stimulent la réplication de l'ADN.

  • Quand la repopulation par les cellules progénitrices est-elle nécessaire dans le foie?

    La repopulation par les cellules progénitrices est nécessaire lorsque la capacité proliférative des hépatocytes est altérée, souvent après une blessure hépatique chronique.

  • Quelle est la fonction des fibroblastes dans la cicatrisation?

    Les fibroblastes produisent le collagène nécessaire à la formation de cicatrices, comblant les défauts dans les tissus qui ne peuvent pas se régénérer.

  • Qu'est-ce que le Canal de Hering dans le foie?

    Le Canal de Hering est une zone située entre les canalicules biliaires et les ductules biliaires intralobulaires, où se trouvent les cellules souches hépatiques impliquées dans la régénération.

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  • 00:00:02
    hi everyone welcome to this short
  • 00:00:04
    tutorial from pathology Made Simple at
  • 00:00:06
    IOP pathology in the last few tutorials
  • 00:00:09
    I have uh completed the topic
  • 00:00:11
    inflammation in great detail I think you
  • 00:00:13
    you might have seen that videos if you
  • 00:00:15
    have not seen please go back and have a
  • 00:00:17
    look at those videos in the next few
  • 00:00:19
    parts I will be discussing about the
  • 00:00:21
    concepts and the various things you need
  • 00:00:24
    to know about the tissue repair so this
  • 00:00:26
    is part one of tissue repair where uh we
  • 00:00:29
    will be uh knowing about the definition
  • 00:00:31
    of repair and healing we will know what
  • 00:00:34
    is regeneration and what is car
  • 00:00:35
    formation we will move on to understand
  • 00:00:38
    the different types of tissue and then
  • 00:00:40
    understand the mechanism of tissue
  • 00:00:42
    regeneration in great detail taking
  • 00:00:44
    liver as an example okay now whenever
  • 00:00:48
    there is an injury to a given tissue
  • 00:00:50
    what can happen Okay one yes the
  • 00:00:53
    inflammation will be there which helps
  • 00:00:55
    in watering of the inflammatory agents
  • 00:00:58
    the Infectious agents but then it also
  • 00:01:01
    has to restore the tissue isn't it back
  • 00:01:03
    to its normal functioning so restoration
  • 00:01:06
    of tissue architecture and function
  • 00:01:10
    after an injury is called as repair it
  • 00:01:13
    is also called as healing so repair and
  • 00:01:16
    healing are almost synonymous words but
  • 00:01:19
    in general repair is a term used when we
  • 00:01:22
    talk about restoration of paranal and
  • 00:01:24
    connective tissue whereas healing is
  • 00:01:26
    generally the word used when we talk
  • 00:01:29
    about restoration of surface epithelium
  • 00:01:31
    but then still repair and healing can be
  • 00:01:34
    interchangeably
  • 00:01:36
    used now repair occurs via two processes
  • 00:01:41
    one regeneration which means there is
  • 00:01:44
    restoration of normal cells and two
  • 00:01:47
    scarring which means there is connective
  • 00:01:51
    tissue
  • 00:01:52
    deposition now restoration of normal
  • 00:01:55
    cells in the case of regeneration occurs
  • 00:01:57
    only in tissues which have cells with
  • 00:02:00
    capacity to
  • 00:02:01
    proliferate whereas scarring occurs in
  • 00:02:04
    the tissues where cells don't have the
  • 00:02:07
    capacity to proliferate that's one
  • 00:02:09
    scenario in the second scenario even in
  • 00:02:12
    the tissue where the cells have capacity
  • 00:02:14
    to proliferate if that tissue is very
  • 00:02:17
    severely damaged the part of the tissue
  • 00:02:20
    will be uh replaced by the normal cells
  • 00:02:23
    but the remaining part of the tissue
  • 00:02:25
    will be replaced by connected tissue and
  • 00:02:27
    that is scar formation the scarring can
  • 00:02:29
    occur in two scenarios one in those
  • 00:02:31
    tissues where cells don't have capacity
  • 00:02:34
    to proliferate and two if any of the
  • 00:02:37
    tissue which has which is severely
  • 00:02:39
    damaged okay now let us understand
  • 00:02:42
    regeneration and scarring in Greater
  • 00:02:44
    detail some Basics about these two
  • 00:02:46
    entities so the repair process is
  • 00:02:49
    dependent on few important things one
  • 00:02:52
    the proliferative capacity of the cells
  • 00:02:55
    as we already know and two the
  • 00:02:57
    interaction between these cells and the
  • 00:03:00
    extracellular Matrix okay so the
  • 00:03:03
    proliferation of cells is again further
  • 00:03:05
    dependent on I mean they are basically
  • 00:03:08
    driven by the growth factors whereas the
  • 00:03:10
    interaction between the cells and
  • 00:03:12
    extracellular Matrix all these things
  • 00:03:13
    depends on Integrity of extracellular
  • 00:03:16
    Matrix as well okay and secondly it also
  • 00:03:20
    depends that is repair process is also
  • 00:03:22
    dependent on the development of mature
  • 00:03:25
    cells by the progenitor cells or the
  • 00:03:27
    stem cells now once we know that the
  • 00:03:29
    cells do proliferate in the process of
  • 00:03:32
    repair now we need to understand what
  • 00:03:33
    are those cells what are those cell
  • 00:03:35
    types which proliferate during the
  • 00:03:37
    repair process so three important cell
  • 00:03:39
    typs we need to understand one the cells
  • 00:03:42
    they mean the remnants of the injure
  • 00:03:44
    tissue okay which tries to attempt to
  • 00:03:47
    restore to the normal tissue and to the
  • 00:03:50
    vascular endothelial cells the vascular
  • 00:03:52
    endothelial cells proliferation is very
  • 00:03:55
    important because that is one which
  • 00:03:56
    creates the blood vessels and the
  • 00:03:58
    formation of blood vessels is is very
  • 00:04:00
    important for nutrition of the cells
  • 00:04:02
    during the repair process the third one
  • 00:04:04
    is the fibroblast which essentially
  • 00:04:07
    forms scar it synthesizes collagen and
  • 00:04:09
    then it forms scars and then it fills
  • 00:04:12
    those defects in those tissues where the
  • 00:04:14
    cells cannot regenerate now the ability
  • 00:04:17
    of tissues to repair themselves is
  • 00:04:19
    determined partly by the proliferative
  • 00:04:22
    capacity of the cells and two presence
  • 00:04:25
    of stem cells so remember only these two
  • 00:04:27
    things the proliferative capacity of of
  • 00:04:29
    the cells is very important and the
  • 00:04:31
    presence of stem cells is important for
  • 00:04:34
    uh for us to understand the concepts of
  • 00:04:36
    tissue repair So based on these
  • 00:04:39
    parameters based on the proliferative
  • 00:04:41
    capacity of the cells the tissues in the
  • 00:04:43
    body are subdivided into three types one
  • 00:04:47
    leile tissue which are nothing but the
  • 00:04:49
    continuously dividing tissue and two
  • 00:04:51
    stable tissue and three permanent tissue
  • 00:04:54
    the lebile tissues are the ones which
  • 00:04:56
    contain cells which are continuously
  • 00:04:58
    being lost replaced examples being
  • 00:05:01
    hematopoetic cells of bone marrow
  • 00:05:04
    surface epithelia it could beamus
  • 00:05:06
    epithelium of your skin it could be cual
  • 00:05:09
    epithelium of your glands it could be
  • 00:05:10
    colar epithelium in the glands
  • 00:05:12
    transitional epithelium of the eurogen
  • 00:05:14
    system any epithelium M surface
  • 00:05:16
    epithelium these are the areas where the
  • 00:05:19
    cells are continuously being lost and
  • 00:05:21
    replaced stable tissue is a tissue where
  • 00:05:24
    there are cells which are quent okay
  • 00:05:27
    they are the cells which are in g0 phase
  • 00:05:29
    of cell cycle in the earlier videos I
  • 00:05:31
    have talked about the concepts of cell
  • 00:05:34
    cycle I think you can go back and look
  • 00:05:36
    at that particular video to understand
  • 00:05:38
    the various parts of cell cycle for now
  • 00:05:40
    know that the stable tissue have cells
  • 00:05:42
    which are in Quant phase they have a
  • 00:05:45
    many very minimal proliferative activity
  • 00:05:47
    okay they can proliferate only in
  • 00:05:50
    response to injury or loss of these
  • 00:05:53
    cells okay they divide in response to
  • 00:05:55
    injury or loss examples being parenchima
  • 00:05:58
    of Sol tissue like the liver the kidney
  • 00:06:01
    the spleen they could be endothelial
  • 00:06:03
    cells they could be fibroblast and
  • 00:06:06
    smooth muszle cells the permanent tissue
  • 00:06:09
    are the ones where the cells are
  • 00:06:12
    terminally differentiated and they are
  • 00:06:14
    non proliferate you in the postnatal
  • 00:06:17
    life okay examples being neurons the
  • 00:06:20
    cardiac muszle the skeletal muszle so
  • 00:06:22
    consider injury to the neuronal tissue
  • 00:06:25
    that is brain the cardiac muscle and
  • 00:06:26
    skeletal muscle they do not regenerate
  • 00:06:29
    okay the injured tissue is replaced by
  • 00:06:32
    deposition of connective tissue and that
  • 00:06:35
    is what we call it as
  • 00:06:37
    scar so basically we have three types of
  • 00:06:40
    tissue one is leile tissue where the
  • 00:06:43
    cells are continuously being lost and
  • 00:06:45
    replaced and two you have stable tissue
  • 00:06:48
    which is in the Quant stage and then
  • 00:06:50
    they assume proliferative capacity they
  • 00:06:53
    move from g0 to G1 phase in response to
  • 00:06:56
    injury and loss loss and then the third
  • 00:06:58
    one is the terminally differentiated
  • 00:07:00
    cells where they become nonproliferative
  • 00:07:03
    in the postnatal life so these are the
  • 00:07:05
    three types of tissue we need to
  • 00:07:07
    understand for us to know better about
  • 00:07:09
    the tissue regeneration and repair now
  • 00:07:12
    we know that the cells proliferate right
  • 00:07:14
    what are those cells which proliferate
  • 00:07:16
    they are the remnants of the Ino tissue
  • 00:07:19
    the endotherial cells the FI blast right
  • 00:07:21
    all these cells proliferate by signals
  • 00:07:24
    and what are these signals these signals
  • 00:07:27
    are provided by the growth factor
  • 00:07:29
    factors okay the signals are provided by
  • 00:07:32
    the growth factors and the extracellular
  • 00:07:35
    Matrix the growth factors are produced
  • 00:07:38
    by the cells near the SES of damage the
  • 00:07:41
    growth factors acts as signals for cells
  • 00:07:44
    to proliferate and these growth factors
  • 00:07:46
    are produced by the cells near the sight
  • 00:07:48
    of damage and the most important the
  • 00:07:50
    most predominant cells which synthesizes
  • 00:07:52
    or produces growth factors are the
  • 00:07:55
    macras and the rest being the epithelial
  • 00:07:57
    are the stromal cells
  • 00:08:00
    The extracellular Matrix now what is the
  • 00:08:02
    role the growth factors which are
  • 00:08:04
    produced by these cells they are bound
  • 00:08:07
    to The extracellular Matrix proteins
  • 00:08:10
    okay they provide signals for the cells
  • 00:08:12
    to
  • 00:08:13
    proliferate what do they do finally they
  • 00:08:16
    activate signaling Pathways that
  • 00:08:18
    stimulate DNA replication and that's how
  • 00:08:21
    the cells multiply and the cells divide
  • 00:08:23
    now let us understand in detail about
  • 00:08:25
    the tissue regeneration taking liver as
  • 00:08:29
    an example example because liver is an
  • 00:08:32
    organ which has a remarkable capacity to
  • 00:08:35
    regenerate so liver regeneration occurs
  • 00:08:38
    via two Pathways I mean two ways where
  • 00:08:40
    the liver can be regener liver can be
  • 00:08:43
    restor to normal f for example if you
  • 00:08:45
    knockout part of a liver in the case of
  • 00:08:47
    partial hepatectomy the remaining part
  • 00:08:50
    of the liver know starts proliferating
  • 00:08:52
    okay so one uh one way the liver can
  • 00:08:55
    regenerate is by proliferation of
  • 00:08:57
    remaining heyes and and two is
  • 00:09:00
    repopulation from progenitor cells okay
  • 00:09:04
    so these are stem cells proliferation of
  • 00:09:07
    remaining heyes repopulation from prenit
  • 00:09:10
    cells so proliferation of remaining
  • 00:09:13
    heyes occurs in three different phases
  • 00:09:15
    one is a priming phase two is a growth
  • 00:09:17
    factor phase and the three is a
  • 00:09:19
    termination phase let us understand a
  • 00:09:21
    bit in detail about these phases so what
  • 00:09:24
    happens in the priming phase is that you
  • 00:09:26
    have a hepy here once you have he and
  • 00:09:29
    then you have the C vils which are the
  • 00:09:31
    macrophases these macras secrete inin
  • 00:09:35
    six and then makes these cells you know
  • 00:09:39
    responsive for these growth factors okay
  • 00:09:43
    how do they become responsive by
  • 00:09:45
    expressing The receptors on their
  • 00:09:48
    surface okay The receptors for the
  • 00:09:51
    growth factors one of the example being
  • 00:09:53
    epidermal growth factor another growth
  • 00:09:55
    factor being Hite growth factors so this
  • 00:09:58
    particular phase the cells are being
  • 00:10:00
    primed for them to be receptive for the
  • 00:10:03
    growth factors is referred to as a
  • 00:10:05
    priming phase now what happens next once
  • 00:10:08
    these growth factors goes and sits on
  • 00:10:11
    the receptors okay that is when the
  • 00:10:14
    cells get signals and then they move
  • 00:10:17
    from g0 to G1 phase so once the cell
  • 00:10:21
    enters the cell cycle in the form of
  • 00:10:23
    entering into the G1 phase of cell cycle
  • 00:10:26
    the cells proliferate so the hepto sites
  • 00:10:28
    proliferate the rest of the epoy start
  • 00:10:31
    proliferating and this is referred to as
  • 00:10:33
    a growth factor phase where the cells
  • 00:10:36
    grows the cells proliferate by the help
  • 00:10:39
    of these growth factors on the primed
  • 00:10:43
    heyes okay after achieving a
  • 00:10:47
    requisite organ size or a tissue size
  • 00:10:50
    the cell stops proliferating and then
  • 00:10:53
    these return back to the quent stage
  • 00:10:56
    this is called as termination phase and
  • 00:10:59
    and the factors responsible for the
  • 00:11:02
    cells to get back to termination phase
  • 00:11:04
    is by these set of by these transforming
  • 00:11:07
    growth factor beta family TG of beta
  • 00:11:10
    family set of proteins now we understood
  • 00:11:13
    proliferation of remaining Hees liver
  • 00:11:15
    regeneration occurs by proliferation of
  • 00:11:17
    remaining heyes by priming phase growth
  • 00:11:19
    factor phase and termination phase right
  • 00:11:21
    and the second one if this does not
  • 00:11:23
    happen the second way the liver can
  • 00:11:26
    regenerate is by repopulating from the
  • 00:11:29
    progenitor cells okay so how when does
  • 00:11:32
    this happen this happens usually after
  • 00:11:35
    chronic liver injury or after chronic
  • 00:11:37
    inflammation okay what happens in that
  • 00:11:40
    condition the proliferative capacity of
  • 00:11:43
    the hepto sites is impaired okay so the
  • 00:11:46
    epidos sites the native eposides epidos
  • 00:11:48
    sites cannot proliferate because it is
  • 00:11:50
    severely injured okay that is when the
  • 00:11:53
    prenat cells comes to
  • 00:11:55
    play so that is when the progenitor
  • 00:11:57
    cells helps to repopulate
  • 00:12:00
    now what are these pren Cs and where are
  • 00:12:02
    they located so these are the heyes okay
  • 00:12:05
    so that's a bile canaliculus that's a
  • 00:12:08
    bile ductule and that's an intralobular
  • 00:12:11
    bile duct and this is I me these are
  • 00:12:14
    heyes this particular area in between
  • 00:12:16
    the bile canaliculus and the duct is
  • 00:12:18
    called Canal of hering where you find
  • 00:12:21
    these different types of cells these are
  • 00:12:23
    stem cells this is called a stem cell
  • 00:12:26
    nishe okay so these are the cells these
  • 00:12:29
    are the progenitor cells which helps in
  • 00:12:32
    repopulating the liver repopulating the
  • 00:12:34
    hepto sites when these Ides are unable
  • 00:12:38
    to proliferate because of chronic injury
  • 00:12:41
    okay so that is when repopulation of
  • 00:12:43
    progenitor cells occurs when the
  • 00:12:46
    proliferative capacity of the hepto sdes
  • 00:12:48
    are impaired okay how do they how do how
  • 00:12:51
    do that occur how does progen cells
  • 00:12:54
    assimilated but this particular know
  • 00:12:56
    mechanism is actually not known this is
  • 00:12:58
    an area of active investigation as of
  • 00:13:00
    now so as of now remember regeneration
  • 00:13:03
    takes place by proliferation of the
  • 00:13:05
    Native cells in the case of liver it is
  • 00:13:08
    proliferation of remaining iddes if this
  • 00:13:11
    does not happen if this is impaired
  • 00:13:13
    because of inflammation or chronic
  • 00:13:15
    inflammation or whatever reasons the
  • 00:13:17
    proliferation can also occur by
  • 00:13:19
    repopulation by progenitor cells okay
  • 00:13:22
    which are basically stems this is the
  • 00:13:24
    same in almost all the organs we have
  • 00:13:27
    just understood by taking liver as an
  • 00:13:28
    example example right so this completes
  • 00:13:32
    today's topic we understood what is
  • 00:13:34
    repair we understood the basic concepts
  • 00:13:37
    of regeneration and what is car
  • 00:13:39
    formation we talked about the various
  • 00:13:42
    types of tissue and then in detail about
  • 00:13:44
    tissue regeneration okay in the next
  • 00:13:47
    part I'll talk about the connective tis
  • 00:13:49
    deposition or the scar formation thank
  • 00:13:51
    you for watching if you have likeed this
  • 00:13:53
    video please hit the like button do
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    comment if you have any queries or if
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    you like this video do comment don't
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    forget to subscribe this Channel and
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    then please do share if you find this
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    video useful thank you one and all
标签
  • réparation des tissus
  • régénération
  • cicatrisation
  • facteurs de croissance
  • foie
  • cellules progénitrices
  • macrophages
  • hépatocytes
  • tissu labile
  • tissu stable