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  • 1
    Electronic Resource
    Electronic Resource
    A comparison of morphogenesis of muscles of the forearm and hand during ontogenesis and regeneration in the axolotl (Ambystoma mexicanum) (1974)
    Springer
    Anatomy and embryology 145 (1974), S. 137-148 
    Details
    ISSN: 1432-0568
    Keywords: Axolotl ; Forearm and hand muscle anatomy
    Source: Springer Online Journal Archives 1860-2000
    Topics: Medicine
    Notes: Summary As a basis for the comparison of muscle development during the ontogenesis and regeneration of the limb, this part of the investigation has provided an anatomical description of the muscles of the forearm and hand of the adult axolotl. Gross preparations and histological serial cross sections of forelimbs were reviewed in the light of the findings of the older authors. An anatomical description and any synonyms have been provided for each muscle. The descriptions of muscles have been documented with drawings from the extensor and flexor aspects of the limb as well as with serial histological cross sections.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1007/BF00519725
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  • 2
    Electronic Resource
    Electronic Resource
    A comparison of morphogenesis of muscles of the forearm and hand during ontogenesis and regeneration in the axolotl (Ambystoma mexicanum) (1974)
    Springer
    Anatomy and embryology 145 (1974), S. 149-167 
    Details
    ISSN: 1432-0568
    Keywords: Axolotl ; Muscle development ; Forelimb ; Ontogenesis ; Regeneration
    Source: Springer Online Journal Archives 1860-2000
    Topics: Medicine
    Notes: Summary The morphogenesis of muscles of the forearm and hand was studied in embryonic limbs of the axolotl (Ambystoma mexicanum) and compared with the course of morphogenesis in the regenerating limb of adults. The first part of the paper describes the morphogenesis of muscles ontogenetic development. The course of development, from the stage of muscle blastemas through that of the independent muscle anlagen is described for each muscle. The separation of muscle anlagen and their differentiation forms a prominent proximodistal gradient. At the same time there is a clear radioulnar gradient in the formation of muscle anlagen. Phylogenetically, this radioulnar gradient is restricted to the developing limb of Urodeles. In the second part of the paper, the morphogenesis of muscles is described in the regenerating limb. The major features in regeneration recapitulate those in the embryonic limb. Proximodistal and radioulnar gradients of development are also present in the regenerating limb. This structural similarity in development supports the viewpoint that the regeneration blastema is an integrated morphogenetic unit in which muscles differentiate according to the same genetic plan as they do in the embryo. There are some differences, however, between the regenerating and embryonic limb. The regenerating limb is larger, its muscle blastemas are also larger from the beginning, and the regenerating limb has a relatively greater amount of mesenchymal cells, which are not closely integrated into the muscle or skeletal anlagen.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1007/BF00519726
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  • 3
    Electronic Resource
    Electronic Resource
    Stimulation of regeneration in mammals: pipe dream or realistic goal? (1998)
    Oxford, UK : Blackwell Science
    Wound repair and regeneration 6 (1998), S. 0 
    Details
    ISSN: 1524-475X
    Source: Blackwell Publishing Journal Backfiles 1879-2005
    Topics: Medicine
    Notes: This article covers a broad spectrum of mammalian regenerative phenomena, including the natural capacity for regeneration of organs and tissues and the classification of mammalian reparative responses. Several broad strategies have been formulated for the stimulation or enhancement of regeneration. Historically, the most common strategy has been to alter the environment surrounding a damaged or regenerating structure. A more contemporary approach to the stimulation of regeneration is the application of cellular engineering principles, which involve strategies such as the implantation of cultured cells, with or without appropriate substrates. Genetic engineering, involving the implantation of genetically engineered cells or the introduction of genes directly into cells in vivo is in the early stages of practical application, although certain laboratory applications have been quite successful.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1046/j.1524-475X.1998.60504.x
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  • 4
    Electronic Resource
    Electronic Resource
    New limbs for old (1981)
    [s.l.] : Nature Publishing Group
    Nature 293 (1981), S. 685-686 
    Details
    ISSN: 1476-4687
    Source: Nature Archives 1869 - 2009
    Topics: Biology , Chemistry and Pharmacology , Medicine , Natural Sciences in General , Physics
    Notes: [Auszug] ALTHOUGH one of the oldest fields in experimental biology, limb regeneration remains one of the least understood, currently being in a state similar to that of genetics just prior to the rediscovery of Mendel's laws. From numerous descriptive and experimental studies have arisen traditional dogmas ...
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1038/293685a0
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  • 5
    Electronic Resource
    Electronic Resource
    Regeneration in grafts of normal and denervated rat muscles (1975)
    Springer
    Pflügers Archiv 353 (1975), S. 215-225 
    Details
    ISSN: 1432-2013
    Keywords: Muscle Regeneration ; Muscle Transplantation ; Contractile Properties of Muscle Transplants ; Denervation of Muscle ; Rat
    Source: Springer Online Journal Archives 1860-2000
    Topics: Medicine
    Notes: Summary The soleus or extensor digitorum longus muscles of young rats were freely grafted into the bed of the corresponding contralateral muscle. The grafts were of normal muscle or muscles which had been denervated for 14 days. Grafts of normal muscle were characterized by little or no contractile activity for the first 2–4 days after transplantation. In contrast, denervated grafts contracted weakly, but consistently, throughout this early period. The patterns of contraction were complex. In early transplants, the contractions were due entirely to surviving muscle fibers in the graft, and the contractile characteristics were those of denervated muscle fibers. After the first week, contractions of newly regenerating muscle fibers within the grafts were superimposed upon and later took over those from the fibers that survived the original transplantation. The contraction time approached those of the normal soleus or extensor muscles during the second month after grafting, and the grafts contracted like fast or slow muscles.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1007/BF00584285
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  • 6
    Electronic Resource
    Electronic Resource
    Contractile and histochemical properties of regenerating cross-transplanted fast and slow muscles in the rat (1975)
    Springer
    Pflügers Archiv 353 (1975), S. 227-239 
    Details
    ISSN: 1432-2013
    Keywords: Muscle Transplantation ; Muscle Regeneration ; Histochemistry of Muscle ; Contractile Properties of Muscle Transplants ; Denervation of Muscle
    Source: Springer Online Journal Archives 1860-2000
    Topics: Medicine
    Notes: Summary The soleus (SOL) or extensor digitorum longus (EDL) muscles of month-old rats were denervated for 14 days and then cross-transplanted so that the fast muscle was placed into the bed of the slow muscle and vice versa. At 17, 30, 60, and 90 days the transplants were tested for certain contractile and histochemical properties. By 90 days the cross-transplanted SOL showed complete conversion of the full contraction time and nearly complete conversion of the half relaxation time to those of the normal EDL. In contrast, the contraction and relaxation times of the cross-transplanted EDL became considerably slowed, but did not attain the values of the normal SOL. Histochemical staining for ATPase and SDH activity demonstrated similar transformations of fiber types. The degree of transformation of twitch and histochemical characteristics in cross-transplanted muscles was greater than the values reported after cross-innervation of the same muscles. The cross-transplantation model has certain advantages over nerve cross-union experiments because the cross-transplanted muscle is placed in the normal functional environment of the other muscle.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1007/BF00584286
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  • 7
    Electronic Resource
    Electronic Resource
    Whole skeletal muscle transplantation: Mechanisms responsible for functional deficits (1994)
    New York, NY [u.a.] : Wiley-Blackwell
    Biotechnology and Bioengineering 43 (1994), S. 757-763 
    Details
    ISSN: 0006-3592
    Keywords: transposition ; microneurovascular repair ; tenotomy and repair ; muscle atrophy ; motor unit number ; mean motor unit maximum force ; Chemistry ; Biochemistry and Biotechnology
    Source: Wiley InterScience Backfile Collection 1832-2000
    Topics: Biology , Process Engineering, Biotechnology, Nutrition Technology
    Notes: One aspect of tissue engineering of skeletal muscle involves the transposition and transplantation of whole muscles to treat muscles damaged by injury or disease. The transposition of whole muscles has been used for many decades, but since 1970, the development of techniques for microneurovascular repair has allowed the transplantation of muscles invariably result in structural and functional deficits. The deficits are of the greatest magnitude during the first month, and then a gradual recovery results in the stabilization of structural and functional variables between 90 and 120 days. In stabilized vascularized grafts ranging from 1 to 3 g in rats to 90 g in dogs, the major deficits are ∼25% decrease in muscle mass and in most grafts ∼40% decrease in maximum force. The decrease in power is more complex because it depends on both the average shortening force and the velocity of shortening. As a consequence, the deficit in maximum power may be either greater or less than the deficit in maximum force. Tenotomy and repair are the major factors responsible for the deficits.Although the data are limited, skeletal muscle grafts appear to respond to training stimuli in a manner no different from that of control muscles. The training stimuli include traditional methods of endurance and strength training, as well as chronic electrical stimulation. Transposed and transplanted muscles develop sufficient force and power to function effectively to: maintain posture; move limbs; sustain the patency of sphincters; partially restore symmetry in the face; or serve as, or drive, assist devices in parallel or in series with the heart.
    Additional Material: 3 Ill.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1002/bit.260430810
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  • 8
    Electronic Resource
    Electronic Resource
    The regeneration of a limb muscle in the axolotl from minced fragmentsSupported in part by a Rackham grant and by a grant from the University of Michigan Cancer Institute. (1970)
    New York, NY [u.a.] : Wiley-Blackwell
    The @Anatomical Record 166 (1970), S. 423-435 
    Details
    ISSN: 0003-276X
    Keywords: Life and Medical Sciences ; Cell & Developmental Biology
    Source: Wiley InterScience Backfile Collection 1832-2000
    Topics: Medicine
    Notes: In over 50 cases the pubo-ischio-tibialis muscle in mature axolotls was removed, minced and the minced fragments replaced into the site from which the muscle was removed. In 13 control animals the same muscle was removed but nothing was replaced. Regenerates were studied at post-operational intervals of up to 150 days. Both grossly and histologically the regeneration of muscles from minced fragments in the axolotl follows a course very similar to that observed in frogs and rats. There is an initial period of destruction of the sarcoplasm of the minced muscle fragments. This is characterized by intense phagocytic activity. Following this, a population of myoblasts is established and the differentiation of mature muscle fibers ensues. The regeneration of muscles from minced fragments is compared with the formation of muscles in regenerating limbs. Following mincing, new muscle fibers develop rapidly and without the mediation of a blastema. Following limb amputation, a blastema is established before any differentiation of muscle occurs in the regenerate. This occurs more slowly than the differentiation of muscle fibers following mincing. The implications of these differences are discussed.
    Additional Material: 3 Ill.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1002/ar.1091660302
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  • 9
    Electronic Resource
    Electronic Resource
    Regeneration research in the Soviet Union (1968)
    New York, NY [u.a.] : Wiley-Blackwell
    The @Anatomical Record 160 (1968), S. 665-674 
    Details
    ISSN: 0003-276X
    Keywords: Life and Medical Sciences ; Cell & Developmental Biology
    Source: Wiley InterScience Backfile Collection 1832-2000
    Topics: Medicine
    Notes: Over the past 20 years Soviet research in regeneration has undergone a shift in emphasis from work on amphibians to mammals. In that period several distinct schools of thought have arisen, and often there has been considerable controversy as to the nature of certain regenerative processes. At present most mammalian tissues and organs are being studied with respect to natural regenerative capacity and means of stimulating further regeneration. The most striking results have been obtained in the areas of muscle and bone regeneration. Progress in other areas has been less spectacular. Considerable effort has been put into devising means of regenerating functional tissue from pathologically changed or irradiated organs. The field of regeneration research in the Soviet Union is quite highly organized and includes a relatively large number of workers. Progress has, to some extent, been impeded by shortages of equipment and biochemical preparations.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1002/ar.1091600402
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  • 10
    Electronic Resource
    Electronic Resource
    Inhibition of limb regeneration in the axolotl after treatment of the skin with actinomycin DSupported in part by NIH GRS grant FR-05383-06. (1969)
    New York, NY [u.a.] : Wiley-Blackwell
    The @Anatomical Record 163 (1969), S. 389-401 
    Details
    ISSN: 0003-276X
    Keywords: Life and Medical Sciences ; Cell & Developmental Biology
    Source: Wiley InterScience Backfile Collection 1832-2000
    Topics: Medicine
    Notes: In this experiment actinomycin D was used to explore the action of the wound epidermis on underlying tissues during limb regeneration. In axolotl forelimbs the skin was removed from the elbow to the shoulder. Skin from the right limbs was soaked for three hours in actinomycin D (5.0 or 10.0 μg/ml 0.6% NaCl). For controls, skin from left limbs was soaked in 0.6% NaCl for the same period of time. Each piece of skin was orthotopically replanted, and both limbs were amputated through the treated skin, proximal to the elbow. After an initial healing period, the control limbs regenerated normally. Except for a slightly paler color, limbs bearing actinomycin-treated skin were indistinguishable from the controls, both grossly and histologically, during the first week following amputation. While the control limbs formed early blastemas, no grossly visible evidence of regeneration was apparent in the experimental limbs, but histologically some dedifferentiation was occurring. Normally three to four digits were seen in the control regenerates before blastemas appeared on the experimental limbs. By 35-40 days blastemas had appeared on most experimental limbs. These developed very rapidly, and within a short time many of them had attained levels of development close to the controls. Actinomycin D temporarily suppresses formation of the apical epidermal cap and the subsequent aggregation of dedifferentiated cells into a blastema. When the effect wears off, an apical cap forms and the dedifferentiated cells quickly organize into a blastema and begin to differentiate.
    Additional Material: 2 Ill.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1002/ar.1091630304
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