Term
THE CALCIUM THAT IS RELEASED INSIDE THE CYTOSOL OF THE CELL FROM THE SARCOPLASMIC RETICULUM AFTER DHP CAUSES A CONFORMATION CHANGE TO RYANODINE WORKS HOW? |
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Definition
IT CAUSES MUSCLE CONTRACTION BY BINDING TO TROPONIN. |
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Term
WHERE ARE THE ACTIVE BINDINGS SITES ON THE F ACTIN? |
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Definition
IN THE TROTH FROM WHERE 2 F ACTIN FILAMENTS WERE WRAPPED AROUND EACH OTHER. |
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Term
WHAT DOES TROPOMYOSIN DO? |
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Definition
IT COVERS THE ACTIVE BINDING SITES AND PREVENTS THE MYOSIN HEADS FROM BINDING TO THE ACTIVE SITES ON THE ACTIN. |
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Term
CALCIUM BINDS TO 1 OF THE __ SUBUNITS? WHICH ONE? |
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Definition
3. IT BINDS TO TROPONIN C. WHEN CA BIND TO TROPONIN C IT CAUSES A CONFORMATION CHANGE OF THE CIT TROPONIN SUBUNITS. TROPONIN IS ACTUALLY LINKED TO TROPOMYOSIN. SO WHEN I CHANGE THE SHAPE OF TROPONIN IT PULLS THE TROPOMYOSIN OUT OF THE WAY. |
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Term
WHAT HAPPENS AFTER YOU PUT TROPOMYSIN OUT OF THE WAY? |
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Definition
THE MYOSIN HEADS CAN NOW STICK AND CAUSE CONTRACTION. SO AS LONG AS CALCIUM IS PRESENT THE ACTIVE BINDING SITES ARE EXPOSED. |
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Term
WHAT HAPPENS DURING THE CONTRACTION IF YOU PUT THE CALCIUM BACK INTO THE SR? |
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Definition
CALCIUM COMES OFF OF THE TROPONIN C AND THE SARAN WRAP GOES BACK INTO PLACE AND THE MUSCLE RELAXES. SO WHAT WE HAVE IS REGULATION OF SKELETAL MUSCLE CONTRACTION TO THE INTERACTIONS OF TROPONIN AND TROPOMYOSIN COMPLEX. CALCIUM BINDS TO TROPONIN COMPLEX ALTHOUGH SPECIFICALLY BINDS TO TROPONIN C. |
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Term
WHAT DOES TROPOIN I AND TROPONIN T DO? |
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Definition
TROPONIN I IS CALLED THE INHIBITORY SITE AND TROPONIN T BINDS TO THE TROPOMYOSIN. SO THE TROPONIN COMPLEX AND THE TROPOMYOSIN ARE BOUND TO EACH OTHER THROUGH TROPONIN T. |
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Term
DESCRIBE CROSS-BRIDGE CYCLING. |
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Definition
WHEN CALCIUM BINDS WITH TROPONIN C WHICH CAUSES A CONFORMATION CHANGE IN THE TROPOMYCIN WHICH OPENS UP TO ACTIVE SITES FOR THE MYOSIN HEADS THE BIND TO. |
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Term
DOES MYOSIN HAVE A HIGH AFFINITY FOR ACTIN? |
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Definition
YES. IF THERE IS ACTIN IN FRONT OF THAT MYOSIN, THE MYOSIN WILL GRAB THAT ACTIN IF IT'S ALLOWED TO. |
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Term
DOES THE MYOSIN HEADS HAVE ADP OR ATP BOUNDED TO THEM? |
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Definition
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Term
WHAT HAPPENS WITH THE MYOSINE PROTEIN BINDS TO THE ACTIVE PROTEIN? |
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Definition
THAT CAUSES THE HINGE REGION AKA MY WRIST TO BEND. SO FOR A CONTRACTION TO OCCUR I HAVE TO PULL, RELEASE, GRAB, PULL ETC.. THIS IS CALLED CYCLING |
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Term
WHEN WOULD YOU SAY THAT YOU WOULD BE IN RIGOR? |
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Definition
ONCE I LAY THAT POWERSTROKE, OR ONCE I STUCK AND BENT THAT HINDGE REGION. |
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Term
WHAT HAPPENS AFTER YOU MAKE A POWERSTROKE? |
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Definition
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Term
TO CAUSE THE MYOSIN TO COME OFF THE ACTIN WHAT HAS TO BIND. |
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Definition
ATP. SO ATP COMES IN, BINDS TO THE MYOSIN HEAD, I RELEASE THE ACTIN FILAMENT. WHEN ATP IS HYDROLYZED WE MEAN THAT IT GIVE OFF ENERGY. ATP YEILDS ADP + Pi = ENERGY. THAT ENERGY IS USED TO RESET THE HAND. TO CAUSE THE MYOSIN HEAD TO DETACH FROM THE ACTIN REQUIRES ATP BINDING. TO CAUSE THE HINDGE REGION TO RESET REQUIRES ATP HYDROLYSIS. |
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Term
WHY IS RIGOR MORTIS SEEN? |
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Definition
THE CAUSE THE MYOSIN HEAD TO DETACH FROM THE ACTIN REQUIRES ATP. DURING DEATH THERE IS NO ATP GENERATION RELATED TO NO OXYGEN. |
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Term
WHAT CAUSES RESETTING OF ACTIN BINDING TO MYOSIN? |
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Definition
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Term
WHAT IS CONSIDERED A MAXIMAL CONTRACTION? |
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Definition
WHEN YOU MAINTAIN ATP AND CACLIUM LEVELS AND THEY ARE SUFFICIENT ENOUGH THAT THOSE MYOSIN HEADS WILL RUN ALL THE WAY TO THE Z LINE. |
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Term
WHAT HAPPENS WHEN CALCIUM LEVELS START TO FALL IN RELATION TO BINDING TO MYOSIN AND ACTIN? |
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Definition
THE MYOSIN HEADS CAN'T REBIND BECAUSE THE CALCIUM BINDS TO TROPONIN, THE TROPONIN BINDS TO TROPOMYOSIN. NO CALCIUM, TROPOMYSIN IS BACK IN THE WAY. I PUT THE SARAN WRAP BACK OVER MY ACTIN AND AS MUCH AS THE MYOSIN WANTS TO GRAB ON, I CAN HAVE PLENTY OF ATP BUT I'M COVERED WITH MY TROPOMYOSIN SARAN WRAP I'M NOT GOING TO HAVE A CONTRACTION. |
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Term
TO CAUSES RELAXATION OF THE MUSCLE ACH DOES WHAT? |
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Definition
ACH GOES AWAY WHICH CAUSE ACH RECEPTOR CLOSURE WHEN MEANS THAT DNP RECEPTOR IS NO LONGER GOING TO BE ACTIVATED. THE RYANODINE RECEPTOR IS PLUGGED BACK UP SO CALCIUM CAN'T LEAVE THE SR. THIS WILL REDUCE THE INTRACELLULAR CALCIUM LEVEL. |
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Term
HOW CAN CALCIUM GO BACK INTO EQUILIBRIUM? |
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Definition
I CAN EITHER PUMP THE CALCIUM BACK INTO THE SE OR I CAN PUMP THE CA OUT OF THE CELL AND INTO THE EXTRACELLULAR FLUID. BOTH OF THESE REQUIRE ATPASES. |
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Term
WHAT TYPES OF MUSCLE FIBERS ARE THERE? |
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Definition
FAST MUSCLE FIBERS (TWITCH FAST) AND SLOW FIBERS WHICH TAKE A LONG TIME TO TENSION AND THEY TAKE A LONG TIME TO RELAX. |
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Term
IS A FAST TWITCH FIBER OR SLOW TWITCH FIBER BIGGER? |
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Definition
FAST TWITCH FIBER A GENERALLY LARGER. |
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Term
WHICH FIBER IS BEING DESCRIBED. A LOT OF SR, LARGE AMOUNT OF GLYCOLYTIC ENZYMES, LESS EXTENSIVE BLOOD SUPPLY AND FEWER MITOCHONDRIA. |
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Definition
FAST TWITCH. THESE WILL FATIGUE EASILY. FEWER MITOCHOINDRIA MEANS THAT LESS ABILITY TO PRODUCE ATP SO I WOULD USE UP MY ENERGY QUICKLY. |
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Term
WHICH FIBER IS BEING DESCRIBED? HAVE EXTENSIVE BLOOD SUPPLY,CONTAIN MYOGLOBIN WHICH IS AN EXTRA OXYGEN STORAGE SITE, THEY HAVE A LARGER NUMBER OF MITOCHONDRIA. |
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Definition
SLOW TWITCH. THEY FATIGUE MORE SLOWLY |
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Term
HOW WOULD YOU DESICRBE A TWITCH? |
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Definition
A TWITCH IS A TWITCH. IT IS NOT A SUSTAINED CONTRACTION. |
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Term
HOW DO YOU GET A SUSTAINED CONTRACTION FROM A TWITCH? |
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Definition
I HAVE TO HAVE A SERIES OF TWITCHES. |
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Term
HOW DO YOU GENERATE A TETANAZATION? |
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Definition
INCREASE THE FREQUENCY OF STIMULATION. A SINGLE ACTION POTENTIAL WILL RELEASE ONLY A SMALL AMOUNT OF CA, WHICH WILL QUICKLY RESQUESTERED RESULTS IN A TWITCH. YOU END UP WITH A MUSCLE CONTRACTION THAT IS NOTHING MORE THAN A FREQUENCY SUMMATION ON THAT MUSCLE FIBER. |
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Term
THE STRENGTH OF A MUSCLE CONTRATION CAN ALSO BE LABELED AS WHAT? |
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Definition
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Term
WHAT IS THE DEFINITION OF A MOTOR UNIT? |
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Definition
A MOTOR UNIT IS 1 ALPHA MOTOR NEURON AND ALL OF THE SKELETAL MUSCLE FIBERS THAT THE ALPHA MOTOR NEURON INNERVATES. |
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Term
IF YOU USE ONLY 1 MOTOR UNIT WITH COORELATES WITH 5 MUSCLE FIBERS THAT THOSE FIBERS ARE IN CONTRACTION WHAT HAPPENS TO THE REMAINDER? |
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Definition
THEY ARE AT REST BECAUSE ALL OF THE OTHER MOTOR UNITS AREN'T BEING ACTIVATE YET. THEY HAVEN'T BEEN RECRUITED. |
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Term
WHAT HAPPENS IF YOU WANT TO PICK UP A CAR? |
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Definition
I DON'T HAVE ENOUGH MOTOR UNITS OT PICK IT UP. THE LOAD EXCEEDS THE MAXIMAL FORCE THAT IS BEING CAPABLE OF BEING GENERATED BY THAT MUSCLE GROUP. |
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Term
HOW DO YOU PICK UP HEAVIER LOADS? |
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Definition
THROUGH THE RECRUITMENT OF MOTOR UNITS. A STRONGER CONTRACTION TO GENERATE MORE FORCE IN A SKELETAL MUSCLE REQUIRES RECRUITMENT. |
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Term
IS THERE RECRUITMENT IN CARDIAC MUSCLE? |
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Definition
NO BECAUSE WHEN ONE CARDIAC MUSCLE CONTRACTS THEY ALL CONTRACT. EVERY TIME YOUR HEART BEATS EVERY CARDIAC MUSCLE CONTRACTS. THEREFORE WE DON'T HAVE RECRUITMENT IN CARDIAC MUSCLE. |
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Term
NAME 2 REASONS WHY CARDIAC MUSCLE DOESN'T HAVE RECRUITMENT? |
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Definition
1) THEY ALL CONTRACT. 2)THE CARDIAC MUSCLE IS NOT INNERVATED BY ALPHA MOTOR NEURONS. SO FREQUENCY OF SUMMATION AND RECRUITMENT OF MOTOR UNITS ARE 2 COMPLETELY DIFFERENT THINGS. |
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Term
THE LENGTH-TENSION RELATIONSHIP IS ALSO KNOWN AS WHAT? |
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Definition
THE FRANK-STARLING MECHANISM |
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Term
WHAT DOES THE FRANK-STARLING MECHANISM STATE? |
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Definition
THE AMOUNT OF FORCE GENERATED BY A MUSCLE UNIT IS DEPENDENT UPON THE STARTING LENGTH OF THAT MUSCLE OF MOTOR UNIT. |
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Term
DESCRIBE A IN RELATION TO LENGHT-TENSION RELATIONSHIP. |
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Definition
THE MYOSIN HEAD CAN'T JOIN ON TO THE ACTIN BECAUSE I'VE ALREADY JAMMED IT ALL TOGETHER (FINGERS WITH BOTH HANDS). SO I HAVE A LOW AMOUNT OF FORCE. IF I PULL IT OUT JUST A LITTLE BIT THIS IS TERMED A. I'M NOT JAMMED IN ALL TOGETHER BUT I AM ALMOST JAMMED IN ALL TOGETHER. |
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Term
DESCRIBE B AND C IN RELATION TO LENGTH-TENSION RELATIONSHIP. |
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Definition
B AND C CAN BE DESCRIBED AS GETTING THE MOST AMOUNT OF FORCE BECAUSE ALL OF MY FILAMENTS ARE OVERLAPPING AND I HAVE A LONG DISTANCE TO GO. SO I CAUSE THIS MUSCLE OR SARCOMERE TO CONTRACT. I GET THE PERFECT AMOUNT OF TENSION GENERATION BECAUSE MY FINGERS ARE LIGNED UP (ILLUSTRATION). MY PINKIES ARE OVERLAPPING, MY INDEX FINGERS ARE OVERLAPPING, MY MIDDLE FINGERS ARE OVERLAPPING. |
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Term
DESCRIBE WHAT HAPPENS BETWEEN C AND D. |
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Definition
THE 2 FILAMENTS CAN'T JOIN WITH EACH OTHER. SO AS I CONTINUE TO WAVEN WHAT IS GOING TO HAPPEN. MORE WILL DISSOCIATE. FINALLY WHAT HAPPENS IF I GET TO D? O. THINK OF IT LIKE AS YOU GO FORM C TO D YOUR FINGERS THAT YOU ORIGINALLY HAD STACKED ON TOP OF EACH OTHER SLIP FURTHER AND FURTHER AWAY UNTIL A POINT (D) WHEN THEY ARE NOT TOCHING AND CAN'T CAUSE A CONTRACTION. |
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Term
WHAT DOES LENGTH-TENSION RELATIONSHIP TELL US? |
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Definition
AS THE RESTING LENGTH OF A MUSCLE, AND THIS IS PRELOAD, INCREASES THE FORCE GENERATED BY THE MUSCLE WILL INCREASE UNTIL WE REACH THE OPTIMAL LENGTH. THIS IS WHAT IS KNOWN AS L SUB O WHICH IS OPTIMAL LENGTH. |
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Term
WHAT DO WE MEAN BY OPTIMAL LENGTH? |
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Definition
BY OPTIMAL LENGTH WE MEAN THAT THE RESTING LENGTH THAT WILL CAUSE AN OPTIMAL AMOUNT OF FORCE OR TENSION DEVELOPMENT. |
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Term
WHAT HAPPENS IF YOU GO BEYOND THE L SUB O? |
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Definition
IF I START PULLING THAT MUSCLE MORE AND MORE THEY ARE GOING TO DISSOCIATE AND THE AMOUNT OF TENSION THAT IS GENERATED IS GOING TO FALL OFF. |
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Term
WHAT IS THE RESTING LENGTH OF SKELETAL MUSCLE SET AT? |
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Definition
L SUB O. THIS MEANS THAT WHEN I CONTRACT THE SKELETAL MUSCLE I WILL GET THE MAXIMAL FORCE GENERATTION FOR THAT SARCOMERE. |
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Term
HOW IS THE RESTING LENGTH OF THE CARDIAC MUSCLE IN RELATION TO THE OPTIMAL LENGTH OF CARDIAC MUSCLE? |
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Definition
IT IS SET BELOW. CARDIAC MUSCLE MUST BE SET, AT REST, BELOW THE OPTIMAL LENGTH. |
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Term
WHERE ARE PATIENTS WITH CHF RESIDING IN RELATION TO LENGTH TENSION RELATIONSHIPS? |
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Definition
TO THE RIGHT OF THE OPTIMAL LENGTH. BECAUSE THEY HAVE THESE BIG FILLED UP HEARTS THEY ARE ALREADY PAST THEIR LENGTH SO THEY ARE NOT GENERATING THEIR OPTIMAL TENSION. WHICH MEANS THAT THEY ARE NOT PUMPING ENOUGH BLOOD OUT. |
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Term
IN CARDIAC AND SKELETAL MUSCLE, CARDIAC MUSCLE IN PARTICULAR HOW MANY TENSIONS DO WE HAVE AND WHAT ARE THEY CALLED? |
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Definition
3 PASSIVE, ACTIVE, AND TOTAL |
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Term
DESCRIBE PASSIVE TENSION. |
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Definition
PASSIVE TENSION IS LIKE RUBBER BANDS. TO MORE WE STRETCH THE MORE TENSION WE HAVE. MUSCLE HAS RUBBER BAND LIKE COMPONENTS. THE SARCOLEMMA ITSELF IS A RUBBER BANDED |
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Term
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Definition
IT INCREASES UNTIL WE GET TO OPTIMAL LENGTH AND THEN FALLS. THIS CAN BE THOUGHT OF AS FRANK-STARLING RELATIONSHIP. THE TENSION IS SO LOW ON THE LEFT SIDE BECAUSE EVERYTHING IS BUNCHED UP TOGETHER. TENSION IS LOW ON THE RIGHT SIDE BECAUSE EVERYTHING IS PULLED APART. |
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Term
WHY DO WE HAVE OPTIMAL TENSION IN THE MIDDLE OF ACTIVE TENSION? |
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Definition
BECAUSE I HAVE A PERFECT AMOUNT OF OVERLAP. SO ACTIVE TENSION ISN'T GENERATED BY ELASTIC COMPONENTS. ACTIVE TENSION IS GENERATED BY CONTRACTILE COMPONENTNS, ACTIN AND MYOSIN. |
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Term
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Definition
IT IS EQUAL TO PASSIVE TENSION PLUS ACTIVE TENSION TOTAL TENSION - PASSIVE TENSION= ACTIVE TENSION. |
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Term
FOR A CHF PATIENT HOW DO WE INCREASE THE AMOUNT OF ACTIVE TENSION? |
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Definition
BY DIURESISING THEM AND DECREASING THAT PRELOAD WE ARE TRYING TO INCREASE THE AMOUNT OF ACTIVE TENSION THAT THEY CAN GENERATE. |
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