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1.
Actas urol. esp ; 47(9): 611-617, Noviembre 2023. ilus, tab
Article in English, Spanish | IBECS | ID: ibc-227265

ABSTRACT

Objetivo Evaluar la transferencia de habilidades adquiridas en el laboratorio a un entorno experimental real para realizar cirugía robótica. Material y métodos Se utilizó un modelo experimental in vivo. Seis residentes y fellows de urología; dos R2 sin exposición previa a cirugía laparoscópica (Grupo 1), dos R4 con exposición intermedia (Grupo 2) y dos fellows formados en cirugía laparoscópica (Grupo 3) realizaron reimplantes ureterales distales, pieloplastia, y nefrectomía radical en tres cerdos hembra. Previamente a realizar los procedimientos, cada participante completó entre 10 y 14 h de formación en cirugía robótica en laboratorio hasta adquirir habilidades para realizar maniobras quirúrgicas básicas (sutura, corte y paso de agujas). Las variables analizadas fueron completar o no con éxito los procedimientos, el tiempo de consola y el tiempo para realizar las maniobras solicitadas y. presencia de complicaciones. Resultados Los tres grupos completaron con éxito todos los procedimientos excepto la pieloplastia, que no la completó el Grupo 1 por sangrado de la vena renal. El Grupo 3 logró un tiempo de consola más corto para todos los procedimientos y para los pasos quirúrgicos por separado, seguido por el Grupo 2. El grupo más lento para completar los procedimientos y los pasos fue el Grupo 1. Conclusiones A pesar de que es necesaria evidencia clínica al respecto, nuestros resultados sugieren que los procedimientos urológicos con asistencia robótica y los pasos más difíciles técnicamente podrían realizarse de manera segura y efectiva después de un entrenamiento adecuado en el laboratorio bajo la supervisión de un mentor. (AU)


Objective To evaluate the transfer of the practical skills of robot-assisted surgery acquired in the dry-lab into a real live experimental setting for performing upper and lower urinary tract surgeries. Material and methods An in vivo experimental study design was utilized. Six urology trainees and fellows; two 2nd year trainees with no previous exposure to laparoscopic surgery (Group 1), two 4th year residents with medium exposure to laparoscopic surgery (Group 2) and two fellows trained to perform laparoscopic surgeries (Group 3) performed ureteral reimplantation into the bladder, pyeloplasty, and radical nephrectomy on three female pigs under general anesthesia. Prior to performing the requested procedures, each participant completed 10-14 hours dry-lab robotic training acquiring skills in basic surgical tasks, such as suturing, cutting and needle passage. The recorded variables were the successful completion of the procedures, the console time, and the time to perform different steps and major complications. Results All procedures were completed successfully by all groups except the pyeloplasty by Group 1 which was complicated by bleeding from the renal vein, and the procedure was abandoned. Group 3 achieved shorter console time for all successfully completed procedures and for separate surgical steps compared to all groups, followed by Group 2. The slowest group for all procedures and steps analyzed was Group 3. Conclusions Although further clinical evidence is needed, the robotic-assisted urological procedures and the most challenging steps could be performed safely and effectively after proper training in the dry lab under mentor supervision according to our study. (AU)


Subject(s)
Animals , Robotic Surgical Procedures/instrumentation , Learning Curve , 28573 , Urology , Video Recording
2.
Actas Urol Esp (Engl Ed) ; 47(9): 611-617, 2023 11.
Article in English, Spanish | MEDLINE | ID: mdl-37574013

ABSTRACT

OBJECTIVE: To evaluate the transfer of the practical skills of robot-assisted surgery acquired in the dry-lab into a real live experimental setting for performing upper and lower urinary tract surgeries. MATERIAL AND METHODS: An in vivo experimental study design was utilized. Six urology trainees and fellows; two 2nd year trainees with no previous exposure to laparoscopic surgery (Group 1), two 4th year residents with medium exposure to laparoscopic surgery (Group 2) and two fellows trained to perform laparoscopic surgeries (Group 3) performed ureteral reimplantation into the bladder, pyeloplasty, and radical nephrectomy on three female pigs under general anesthesia. Prior to performing the requested procedures, each participant completed 10-14 h dry-lab robotic training acquiring skills in basic surgical tasks, such as suturing, cutting and needle passage. The recorded variables were the successful completion of the procedures, the console time, and the time to perform different steps and major complications. RESULTS: All procedures were completed successfully by all groups except the pyeloplasty by group 1 which was complicated by bleeding from the renal vein, and the procedure was abandoned. Group 3 achieved shorter console time for all successfully completed procedures and for separate surgical steps compared to all groups, followed by Group 2. The slowest group for all procedures and steps analyzed was Group 3. CONCLUSIONS: Although further clinical evidence is needed, the robotic-assisted urological procedures and the most challenging steps could be performed safely and effectively after proper training in the dry lab under mentor supervision according to our study.


Subject(s)
Robotic Surgical Procedures , Urology , Humans , Female , Animals , Swine , Robotic Surgical Procedures/methods , Urologic Surgical Procedures/methods , Urology/education , Nephrectomy , Kidney
3.
World J Urol ; 40(3): 639-650, 2022 Mar.
Article in English | MEDLINE | ID: mdl-34468886

ABSTRACT

CONTEXT: Large and complex renal stones are usually treated with percutaneous nephrolithotomy (PCNL). One of the crucial steps in this procedure is the access to the collecting system with the percutaneous puncture and this maneuver leads to a risk of vascular and neighboring organs' injury. In the last years, the application of virtual image-guided surgery has gained wide diffusion even in this specific field. OBJECTIVES: To provide a short overview of the most recent evidence on current applications of virtual imaging guidance for PCNL. EVIDENCE ACQUISITION: A non-systematic review of the literature was performed. Medline, PubMed, the Cochrane Database and Embase were screened for studies regarding the use virtual imaging guidance for PCNL. EVIDENCE SYNTHESIS: 3D virtual navigation technology for PCNL was first used in urology with the purpose of surgical training and surgical planning; subsequently, the field of surgical navigation with different modalities (from cognitive to augmented reality or mixed reality) had been explored. Finally, anecdotal preliminary experiences explored the potential application of artificial intelligence guidance for percutaneous puncture. CONCLUSION: Nowadays, many experiences proved the potential benefit of virtual guidance for surgical simulation and training. Focusing on surgery, this tool revealed to be useful both for surgical planning, allowed to achieve a better surgical performance, and for surgical navigation by using augmented reality and mixed reality systems aimed to assist the surgeon in real time during the intervention.


Subject(s)
Augmented Reality , Kidney Calculi , Nephrolithotomy, Percutaneous , Artificial Intelligence , Humans , Kidney Calculi/diagnostic imaging , Kidney Calculi/surgery , Nephrolithotomy, Percutaneous/methods , Punctures
4.
Acta Naturae ; 13(2): 85-97, 2021.
Article in English | MEDLINE | ID: mdl-34377559

ABSTRACT

Kozlovskaya et al. [1] and Grigoriev et al. [2] showed that enormous loss of muscle stiffness (atonia) develops in humans under true (space flight) and simulated microgravity conditions as early as after the first days of exposure. This phenomenon is attributed to the inactivation of slow motor units and called reflectory atonia. However, a lot of evidence indicating that even isolated muscle or a single fiber possesses substantial stiffness was published at the end of the 20th century. This intrinsic stiffness is determined by the active component, i.e. the ability to form actin-myosin cross-bridges during muscle stretch and contraction, as well as by cytoskeletal and extracellular matrix proteins, capable of resisting muscle stretch. The main facts on intrinsic muscle stiffness under conditions of gravitational unloading are considered in this review. The data obtained in studies of humans under dry immersion and rodent hindlimb suspension is analyzed. The results and hypotheses regarding reduced probability of cross-bridge formation in an atrophying muscle due to increased interfilament spacing are described. The evidence of cytoskeletal protein (titin, nebulin, etc.) degradation during gravitational unloading is also discussed. The possible mechanisms underlying structural changes in skeletal muscle collagen and its role in reducing intrinsic muscle stiffness are presented. The molecular mechanisms of changes in intrinsic stiffness during space flight and simulated microgravity are reviewed.

5.
Dokl Biochem Biophys ; 481(1): 205-207, 2018 Jul.
Article in English | MEDLINE | ID: mdl-30168060

ABSTRACT

The study was aimed at testing the hypotheses about the role of cross-bridges and calpains in reduction of rat soleus passive tension under conditions of hindlimb unloading. For this purpose, we used an inhibitor of µ-calpain PD 150606 as well as a blocker of actomyosin interaction (blebbistatin). It was found for the first time that a decrease in passive tension of rat soleus after 3-day hindlimb unloading is associated with the activity of µ-calpain and does not depend on the processes of cross-bridges formation.


Subject(s)
Calpain/chemistry , Calpain/metabolism , Hindlimb Suspension , Muscle, Skeletal/physiology , Stress, Mechanical , Animals , Enzyme Activation , Male , Rats , Rats, Wistar , Time Factors
7.
Biofizika ; 60(6): 1180-5, 2015.
Article in Russian | MEDLINE | ID: mdl-26841514

ABSTRACT

The results of the numerical simulation of the end-diastolic, end-systolic and stroke volumes of the left ventricle of the heart are presented. The simulation was based on a published simple kinetic model of cardiac muscle and approximation of the ventricle geometry with thick-wall cylinder where the fibre orientation varied linearly from sub-epicardium towards sub-endocardium. Blood flow was modelled with a liner compartment model. This simplified approach provides correct dependencies of the stroke volume on the pre- and afterload, namely end-diastolic pressure and peripheral resistance. The calculations show that the stroke volume is independent of arterial compliance and blood inertia.


Subject(s)
Heart Ventricles/physiopathology , Models, Theoretical , Pericardium/physiology , Blood Pressure/physiology , Hemodynamics , Humans , Myocardial Contraction/physiology , Stroke Volume/physiology
8.
Acta Naturae ; 5(3): 126-9, 2013 Jul.
Article in English | MEDLINE | ID: mdl-24303208

ABSTRACT

We show that the mutations D137L and G126R, which stabilize the central part of the tropomyosin (Tm) molecule, increase both the maximal sliding velocity of the regulated actin filaments in the in vitro motility assay at high Са(2+) concentrations and the Са(2+)-sensitivity of the actin-myosin interaction underlying this sliding. Based on an analysis of the recently published data on the structure of the actin-Tm-myosin complex, we suppose that the physiological effects of these mutations in Tm can be accounted for by their influence on the interactions between the central part of Tm and certain sites of the myosin head.

9.
Biochemistry (Mosc) ; 76(13): 1484-506, 2011 Dec.
Article in English | MEDLINE | ID: mdl-22339600

ABSTRACT

The interaction of actin and myosin powers striated and smooth muscles and some other types of cell motility. Due to its highly ordered structure, skeletal muscle is a very convenient object for studying the general mechanism of the actin-myosin molecular motor. The history of investigation of the actin-myosin motor is briefly described. Modern concepts and data obtained with different techniques including protein crystallography, electron microscopy, biochemistry, and protein engineering are reviewed. Particular attention is given to X-ray diffraction studies of intact muscles and single muscle fibers with permeabilized membrane as they give insight into structural changes that underlie force generation and work production by the motor. Time-resolved low-angle X-ray diffraction on contracting muscle fibers using modern synchrotron radiation sources is used to follow movement of myosin heads with unique time and spatial resolution under near physiological conditions.


Subject(s)
Actins/physiology , Muscle, Skeletal/physiology , Myosins/physiology , Actin Cytoskeleton/chemistry , Actin Cytoskeleton/metabolism , Actin Cytoskeleton/physiology , Actins/chemistry , Actins/metabolism , Animals , Humans , Models, Molecular , Muscle Contraction , Muscle, Skeletal/cytology , Muscle, Skeletal/metabolism , Myofibrils/chemistry , Myofibrils/metabolism , Myofibrils/physiology , Myosins/chemistry , Myosins/metabolism , Protein Binding , Protein Conformation , X-Ray Diffraction
10.
Biophys J ; 83(2): 1082-97, 2002 Aug.
Article in English | MEDLINE | ID: mdl-12124288

ABSTRACT

Available high-resolution structures of F-actin, myosin subfragment 1 (S1), and their complex, actin-S1, were used to calculate a 2D x-ray diffraction pattern from skeletal muscle in rigor. Actin sites occupied by myosin heads were chosen using a "principle of minimal elastic distortion energy" so that the 3D actin labeling pattern in the A-band of a sarcomere was determined by a single parameter. Computer calculations demonstrate that the total off-meridional intensity of a layer line does not depend on disorder of the filament lattice. The intensity of the first actin layer A1 line is independent of tilting of the "lever arm" region of the myosin heads. Myosin-based modulation of actin labeling pattern leads not only to the appearance of the myosin and "beating" actin-myosin layer lines in rigor diffraction patterns, but also to changes in the intensities of some actin layer lines compared to random labeling. Results of the modeling were compared to experimental data obtained from small bundles of rabbit muscle fibers. A good fit of the data was obtained without recourse to global parameter search. The approach developed here provides a background for quantitative interpretation of the x-ray diffraction data from contracting muscle and understanding structural changes underlying muscle contraction.


Subject(s)
Muscle, Skeletal/ultrastructure , X-Ray Diffraction/methods , Actins/chemistry , Actins/metabolism , Animals , Biophysical Phenomena , Biophysics , Fishes , Fourier Analysis , Models, Molecular , Models, Statistical , Muscle Contraction , Myosins/chemistry , Protein Structure, Tertiary , Rabbits , Software
11.
J Microsc ; 206(Pt 2): 152-60, 2002 May.
Article in English | MEDLINE | ID: mdl-12000555

ABSTRACT

We describe a procedure whereby structural changes that occur in muscle fibres after a rapid temperature jump can be captured by cryofixation. In the thick filament from rabbit and other mammalian skeletal muscles there is a rapid transition from a non-helical to a helical structure as the temperature is raised from 273 K towards physiological levels. This transition is accompanied by characteristic intensity changes in the X-ray diffraction pattern of the muscle. In our experiments to capture these changes, single fibres of glycerinated psoas muscle were subjected to a Joule temperature jump of 15-30 K from approximately 278 K in air. We have developed a freezing method using a modified Gatan cryosnapper in which a pair of liquid nitrogen-cooled copper jaws were projected under pressure and closed on the fibre between 50 and 100 ms after the temperature jump. The frozen fibres were freeze-substituted and embedded for electron microscopy. Transverse and longitudinal sections of relaxed 'cold' (approximately 278 K) and temperature-jumped fibres as well as rigor fibres were obtained. Fourier transforms of the images from the three preparations showed differences in the relative intensities of the reflections from the hexagonal filament lattice and in those of the helix-based layer lines, similar to the differences seen by X-ray diffraction. We conclude that we have preserved the 'hot' structure and that cryofixation is sufficiently fast to prevent the transition back to the 'cold' state.


Subject(s)
Cryopreservation , Muscle Fibers, Skeletal , Animals , Cryopreservation/instrumentation , Microscopy, Electron , Muscle Fibers, Skeletal/ultrastructure , Psoas Muscles/ultrastructure , Rabbits , Tissue Fixation
12.
J Physiol ; 520 Pt 3: 681-96, 1999 Nov 01.
Article in English | MEDLINE | ID: mdl-10545136

ABSTRACT

1. Structural changes following the photolytic release of ATP were observed in single, permeabilised fibres of frog skeletal muscle at 5-6 C, using time-resolved, low-angle X-ray diffraction. The structural order in the fibres and their isometric function were preserved by cross-linking 10-20 % of the myosin cross-bridges to the thin filaments. 2. The time courses of the change in force, stiffness and in intensity of the main equatorial reflections (1,0) and (1,1), of the third myosin layer line (M3) at a reciprocal spacing of (14.5 nm)-1 on the meridian and of the first myosin-actin layer line (LL1) were measured with 1 ms time resolution. 3. In the absence of Ca2+, photolytic release of ATP in muscle fibres initially in the rigor state caused the force and stiffness to decrease monotonically towards their values in relaxed muscle fibres. 4. In the presence of Ca2+, photolytic release of ATP resulted in an initial rapid decrease in force, followed by a slower increase to the isometric plateau. Muscle fibre stiffness decreased rapidly to approximately 65 % of its value in rigor. 5. In the absence of Ca2+, changes on the equator, in LL1 and in M3 occurred with a time scale comparable to that of the changes in tension and stiffness. 6. In the presence of Ca2+, the changes on the equator and LL1 occurred simultaneously with the early phase of tension decrease. The changes in the intensity of M3 (IM3) occurred on the time scale of the subsequent increase in force. The time courses of the changes in tension and IM3 were similar following the photolytic release of 0. 33 or 1.1 mM ATP. However the gradual return towards the rigor state began earlier when only 0.33 mM ATP was released. 7. In the presence of Ca2+, the time course of changes in IM3 closely mimicked that of force development following photolytic release of ATP. This is consistent with models that propose that force development results from a change in the average orientation of cross-bridges, although other factors, such as their redistribution, may also be involved.


Subject(s)
Adenosine Triphosphate/metabolism , Muscle Fibers, Skeletal/metabolism , Photolysis , Animals , Calcium/metabolism , Elasticity , Electron Probe Microanalysis , Heart/physiology , Heart/radiation effects , Lasers , Male , Muscle Contraction/physiology , Myocardium/metabolism , Rana temporaria , Time Factors
13.
Biophys J ; 77(1): 354-72, 1999 Jul.
Article in English | MEDLINE | ID: mdl-10388763

ABSTRACT

Structural changes induced by Joule temperature jumps (T-jumps) in frog muscle fibers were monitored using time-resolved x-ray diffraction. Experiments made use of single, permeabilized fibers that were fully activated after slight cross-linking with 1-ethyl-3-[3-dimethylamino)propyl]carbodiimide to preserve their structural order. After T-jumps from 5-6 to approximately 17 degrees C and then on to approximately 30 degrees C, tension increased by a factor of 1.51 and 1.84, respectively, whereas fiber stiffness did not change with temperature. The tension rise was accompanied by a decrease in the intensity of the (1, 0) equatorial x-ray reflection by 15 and 26% (at approximately 17 and approximately 30 degrees C) and by an increase in the intensity of the M3 myosin reflection by 20% and 41%, respectively. The intensity of the (1,1) equatorial reflection increased slightly. The peak of the intensity on the 6th actin layer line shifted toward the meridian with temperature. The intensity of the 1st actin layer line increased from 12% (of its rigor value) at 5-6 degrees C to 36% at approximately 30 degrees C, so that the fraction of the cross-bridges labeling the actin helix estimated from this intensity increased proportionally to tension from approximately 35% at 5-6 degrees C to approximately 60% at approximately 30 degrees C. This suggests that force is generated during a transition of nonstereo-specifically attached myosin cross-bridges to a stereo-specific binding state.


Subject(s)
Actomyosin/chemistry , Muscle Contraction , Muscle Fibers, Skeletal/chemistry , Actomyosin/ultrastructure , Animals , Calcium/chemistry , Cell Membrane Permeability , Cross-Linking Reagents/chemistry , Ethyldimethylaminopropyl Carbodiimide/analogs & derivatives , Ethyldimethylaminopropyl Carbodiimide/chemistry , Kinetics , Muscle Fibers, Skeletal/ultrastructure , Rana temporaria , Temperature , X-Ray Diffraction
14.
Nature ; 388(6638): 186-90, 1997 Jul 10.
Article in English | MEDLINE | ID: mdl-9217160

ABSTRACT

Muscle force is generated by myosin crossbridges interacting with actin. As estimated from stiffness and equatorial X-ray diffraction of muscle and muscle fibres, most myosin crossbridges are attached to actin during isometric contraction, but a much smaller fraction is bound stereospecifically. To determine the fraction of crossbridges contributing to tension and the structural changes that attached crossbridges undergo when generating force, we monitored the X-ray diffraction pattern during temperature-induced tension rise in fully activated permeabilized frog muscle fibres. Temperature jumps from 5-6 degrees C to 16-19 degrees C initiated a 1.7-fold increase in tension without significantly changing fibre stiffness or the intensities of the (1,1) equatorial and (14.5 nm)(-1) meridional X-ray reflections. However, tension rise was accompanied by a 20% decrease in the intensity of the (1,0) equatorial reflection and an increase in the intensity of the first actin layer line by approximately 13% of that in rigor. Our results show that muscle force is associated with a transition of the crossbridges from a state in which they are nonspecifically attached to actin to one in which stereospecifically bound myosin crossbridges label the actin helix.


Subject(s)
Actins/physiology , Muscles/physiology , Myosins/physiology , Animals , Biomechanical Phenomena , In Vitro Techniques , Muscle Contraction , Muscle Fibers, Skeletal/physiology , Rana temporaria , Temperature , X-Ray Diffraction
15.
Biophys J ; 71(3): 1462-74, 1996 Sep.
Article in English | MEDLINE | ID: mdl-8874020

ABSTRACT

We show prolonged contraction of permeabilized muscle fibers of the frog during which structural order, as judged from low-angle x-ray diffraction, was preserved by means of partial cross-linking of the fibers using the zero-length cross-linker 1-ethyl-3-[3-dimethylamino)propyl]carbodiimide. Ten to twenty percent of the myosin cross-bridges were cross-linked, allowing the remaining 80-90% to cycle and generate force. These fibers displayed a well-preserved sarcomeric order and mechanical characteristics similar to those of intact muscle fibers. The intensity of the brightest meridional reflection at 14.5 nm, resulting from the projection of cross-bridges evenly spaced along the myofilament length, decreased by 60% as a relaxed fiber was deprived of ATP and entered the rigor state. Upon activation of a rigorized fiber by the addition of ATP, the intensity of this reflection returned to 97% of the relaxed value, suggesting that the overall orientation of cross-bridges in the active muscle was more perpendicular to the filament axis than in rigor. Following a small-amplitude length step applied to the active fibers, the reflection intensity decreased for both releases and stretches. In rigor, however, a small stretch increased the amplitude of the reflection by 35%. These findings show the close link between cross-bridge orientation and tension changes.


Subject(s)
Muscle Contraction/physiology , Muscle, Skeletal/physiology , Actins/chemistry , Animals , Biomechanical Phenomena , Biophysical Phenomena , Biophysics , Chickens , Creatine Kinase/metabolism , Cross-Linking Reagents , Ethyldimethylaminopropyl Carbodiimide , In Vitro Techniques , Molecular Structure , Muscle Fibers, Skeletal/chemistry , Muscle Fibers, Skeletal/physiology , Muscle, Skeletal/chemistry , Myosins/chemistry , Rana temporaria , X-Ray Diffraction
16.
Biophys J ; 69(3): 1011-21, 1995 Sep.
Article in English | MEDLINE | ID: mdl-8519956

ABSTRACT

To separate a fraction of the myosin cross-bridges that are attached to the thin filaments and that participate in the mechanical responses, muscle fibers were cross-linked with 1-(3-dimethylaminopropyl)-3-ethylcarbodiimide and then immersed in high-salt relaxing solution (HSRS) of 0.6 M ionic strength for detaching the unlinked myosin heads. The mechanical properties and force-generating ability of the cross-linked cross-bridges were tested with step length changes (L-steps) and temperature jumps (T-jumps) from 6-10 degrees C to 30-40 degrees C. After partial cross-linking, when instantaneous stiffness in HSRS was 25-40% of that in rigor, the mechanical behavior of the fibers was similar to that during active contraction. The kinetics of the T-jump-induced tension transients as well as the rate of the fast phase of tension recovery after length steps were close to those in unlinked fibers during activation. Under feedback force control, the T-jump initiated fiber shortening by up to 4 nm/half-sarcomere. Work produced by a cross-linked myosin head after the T-jump was up to 30 x 10(-21) J. When the extent of cross-linking was increased and fiber stiffness in HSRS approached that in rigor, the fibers lost their viscoelastic properties and ability to generate force with a rise in temperature.


Subject(s)
Actins/physiology , Cross-Linking Reagents/pharmacology , Ethyldimethylaminopropyl Carbodiimide/pharmacology , Muscle Contraction , Muscle Fibers, Skeletal/physiology , Muscle, Skeletal/physiology , Myosins/physiology , Sarcomeres/physiology , Actins/chemistry , Actins/drug effects , Animals , In Vitro Techniques , Kinetics , Myosins/chemistry , Myosins/drug effects , Rabbits , Sarcomeres/drug effects , Sarcomeres/ultrastructure , Temperature , Time Factors
17.
J Physiol ; 447: 425-48, 1992 Feb.
Article in English | MEDLINE | ID: mdl-1593453

ABSTRACT

1. Joule temperature jumps (T-jumps) from 5-9 degrees C up to 40 degrees C were used to study the cross-bridge kinetics and thermodynamics in skinned rabbit muscle fibres. To produce a T-jump, an alternating current pulse was passed through a fibre 5 s after removing the activating solution (pCa congruent to 4.5) from the experimental trough. The pulse frequency was congruent to 30 kHz, amplitude less than or equal to 3 kV, and duration 0.2 ms. The pulse energy liberated in the fibre was calculated using a special analog circuit and then used for estimation of the T-jump amplitude. 2. The T-jump induced a tri-exponential tension transient. Phases 1 and 2 had rate constants k1 = 450-1750 s-1 and k2 = 60-250 s-1 respectively, characterizing the tension rise, whereas phase 3 had a rate constant k3 = 5-10 s-1 representing tension recovery due to the fibre cooling. 3. An increase from 13 to 40 degrees C for the final temperature achieved by the T-jump led to an increase in the amplitudes of phases 1 and 2. After T-jumps to 30-40 degrees C during phase 1, tension increased by 50-80%. During phase 2 an approximately 2-fold tension increase continued. Rate constants k1 and k2 increased with temperature and temperature coefficients (Q10) were 1.6 and 1.7, respectively. 4. To study which processes in the cross-bridges are involved in phases 1 and 2, a series of experiments were made where step length changes of -9 to +3 nm (hs)-1 (nanometres per half-sarcomere length) were applied to the fibre 4 ms before the T-jump. 5. After the step shortening, the rate constant of phase 1 increased, whereas its amplitude decreased compared to those without a length change. This indicates that phase 1 is determined by some force-generating process in the cross-bridges attached to the thin filaments. This process is, most probably, the same as that producing the early tension recovery following the length change. The enthalpy change (delta H) associated with the reaction controlling this process was estimated to be positive (15-30 kJ mol-1). 6. Both the rate constant k2 and the maximal tension achieved at the end of phase 2 were practically independent of the preceding length changes. This means that phase 2 is accompanied by the cross-bridge detachment and reattachment to new sites on the thin filaments.(ABSTRACT TRUNCATED AT 400 WORDS)


Subject(s)
Hot Temperature , Muscle Contraction/physiology , Animals , Electric Stimulation , Kinetics , Rabbits , Stress, Mechanical
18.
Biophys J ; 56(5): 809-16, 1989 Nov.
Article in English | MEDLINE | ID: mdl-2605297

ABSTRACT

The effects of a temperature jump (T-jump) from 5-7 degrees C to 26-33 degrees C were studied on tension and stiffness of glycerol-extracted fibers from rabbit psoas muscle in rigor and during maximal Ca2+ activation. The T-jump was initiated by passing an alternating current pulse (30 kHz, up to 2.5 kV, duration 0.2 ms) through a fiber suspended in air. In rigor the T-jump induces a drop of both tension and stiffness. During maximal activation, the immediate stiffness dropped by (4.4 +/- 1.6) x 10(-3)/1 degree C (mean + SD) in response to the T-jump, and this was followed by a monoexponential stiffness rise by a factor of 1.59 +/- 0.14 with a rate constant ks = 174 +/- 42 s-1 (mean +/- SD, n = 8). The data show that the fiber stiffness, determined by the cross-bridge elasticity, in both rigor and maximal activation is not rubber-like. In the activated fibers the T-jump induced a biexponential tension rise by a factor of 3.45 +/- 0.76 (mean +/- SD, n = 8) with the rate constants 500-1,000 s-1 for the first exponent and 167 +/- 39 s-1 (mean +/- SD, n = 8) for the second exponent. The data are in accordance with the assumption that the first phase of the tension transient after the T-jump is due to a force-generating step in the attached cross-bridges, whereas the second one is related to detachment and reattachment of cross-bridges.


Subject(s)
Muscle Contraction , Muscles/physiology , Animals , Calcium/pharmacology , Elasticity , Electrophysiology/instrumentation , Electrophysiology/methods , In Vitro Techniques , Kinetics , Muscle Contraction/drug effects , Rabbits , Temperature
19.
J Biomech ; 17(10): 749-55, 1984.
Article in English | MEDLINE | ID: mdl-6526833

ABSTRACT

The experimental results are described confirming the hypothesis that the viscous properties of the passive cardiac muscle are connected with the extracellular fluid filtration in the elastic medium formed by the connective tissue network and myocytes. It is shown that the relaxation properties are more pronounced in cold-blooded animals myocardium (frog, turtle) than in that of warm-blooded (cat, rabbit), which correlates with the smaller connective tissue content and larger porosity of myocardium in cold-blooded animals. The decrease in porosity of the cardiac muscle samples by reducing the osmosis of the surrounding solution or squeezing the fluid out of the samples by mechanical torsion results in the slowing down of the stress relaxation, the increase in porosity of the muscle in the hyperosmotic solution results in its speeding up. The increase of the surrounding solution viscosity by adding saccharose to it leads to the proportional stress relaxation deceleration, which agrees quantitatively and qualitatively with the advanced hypothesis.


Subject(s)
Elastic Tissue/physiology , Extracellular Space/physiology , Heart/physiology , Animals , Cats , Mathematics , Myocardial Contraction , Papillary Muscles/physiology , Rabbits , Ranidae , Stress, Mechanical , Turtles , Viscosity
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