• King Isaacs
    King Isaacs

    Shocking: GMC says 60% of European Doctors are Considering Leaving UK

    The greater part of the doctors from Europe working in the UK are thinking about leaving the country as a result of Brexit, a survey by the General Medical Council shows. Charlie Massey, the chief executive of the GMC, told the health select committee that while a survey was "not really prescient of future behavior" the outcomes showed a potential genuine depletion in the workforce. The doctors' disciplinary body surveyed 2,115 doctors from the European Economic Area (EEA), comprising the EU countries in addition to Norway, Iceland and Liechtenstein, and found that 1,171 - 55 percent - were considering leaving the UK, with the Brexit vote "a factor for their consideration".

    With EU or EEA nationals representing around 10,200 – or about nine percent – of NHS doctors, as per NHS Digital statistics, if over half of them left the UK, it could highly affect the health service which is as of now enduring staff shortages in some areas. Of the 1,171 doctors who were considering leaving, 596 (45 percent) said they were thinking about a departure in the following two years, and 312 (24 percent), were toying with leaving in the next three to five years.

    More than 1,000 of the EU and EEA doctors included remarks enlightening the GMC how they felt regarding Brexit and the impact on their practice. The GMC said two common themes emerged: the emotional impact of Brexit - with many doctors saying they felt undesirable and disheartened - and an uncertainty about their future residence status. Such vulnerability is unlikely to have been helped by Theresa May's ongoing refusal to confirm the privileges of EU nationals to remain in the UK after Brexit.

    Charlie Massey, Chief Executive and Registrar of the General Medical Council, stated: "EEA doctors make a colossal and vital commitment to health services over the UK. It's profoundly stressing that some are thinking about leaving the UK in the following couple of years. In the event that they leave this would seriously affect patient care and would put whatever remains of the UK medical profession under much more pressure."

    "You have GP practices in this country where simply just the loss of a single doctor could bring the collapsing of the practice. Individuals leaving will enormously affect the arrangement of safe healthcare services in this country." BMA council seat Mark Porter stated: "It's extremely concerning that such a large number of doctors are thinking about leaving. "When the NHS close to breaking point and facing crippling staff shortages, this would be a disaster for our health benefit and would potentially undermine the conveyance of high-quality patient care."

    ImageCredit: Independant.co.uk

    News Info: Independant UK, The Guardian

    Sign in to follow this  
    Followers 0

    Sign in to follow this  
    Followers 0

    User Feedback

    There are no comments to display.

    Create an account or sign in to comment

    You need to be a member in order to leave a comment

    Create an account

    Sign up for a new account in our community. It's easy!

    Register a new account

    Sign in

    Already have an account? Sign in here.

    Sign In Now

  • Articles
      Medical Students Guide: How to Study Less by Learning Things Once

    • You read over your notes. Then you read them over again. Then you read them over a third time. Then you take the test and are surprised at just how much you missed. Despite reading everything three times!   A lot of study time is wasted because of one problem: you fail to learn things the first time around. Repeatedly going over the same information like putting a band-aid over a sieve. It may reduce the water that slips through, but it doesn’t solve the fundamental problem: that you have too many holes. The key to reducing the amount of time you study is simple: learn things the first time you see them, instead of after dozens of repetitions. This is all easier said than done. I’m sure if your mind was without holes you could easily capture any information that slipped into it. The real question is how can you do this? I don’t believe it is just a matter of being a genius or chance, but based on how you study. Step One: Find the Holes If you want to repair a leaky brain, you need to figure out where the holes are. Identify what type of information you have trouble remembering. Recognize when you’ve just gone over information you don’t quite understand. Here’s a few questions to ask yourself after every chunk of ideas to find your holes: What from this section am I most likely to forget? What concepts are completely new to me? (Rather than ones that feel familiar) Which ideas am I having the most difficulty grasping? When you identify weak points, you can invest more time in fixing those instead of wasting time with a blanket studying technique of all information. Step Two: Repair Weak Points Once you’ve identified potential weak-points, you should immediately seek to fix them. Drop everything your doing and seek out a fix for the problem. Programmers understand that a bug left in the system can create several hundred times the cost to fix it later. As a learner, you need to understand that the same principle of fixing problems quickly also applies. There are hundreds of books written on various strategies to fix weak points, which is a bit outside the scope of this quick article. But here are a few starting points: Memorizing? If you need to store arbitrary information, try using the link method. This is where you visualize an exaggerated image that combines the two things you want to associate. You can memorize formula’s this way by linking vivid pictures to the different symbols. A formula such as F = C/A, could become a scale with hundreds of (F)eathers on side and a giant (C)aterpillar sitting over millions of (A)nts. Conceptualizing? If you need to understand information try drawing a picture or diagram to combine the ideas. Retaining? If you need to retain a complicated mass of information try using metaphors and vivid examples to connect the abstract information into something you can easily relate to. Repairing weak points in your understanding isn’t that difficult – if you first know where they are. Simply focusing on a piece of information can help you understand it. But if you don’t know which parts you’re missing, it is easy to skim over everything and not realize what you’ve missed. Step Three: Check Your Understanding Do you “get” it. Does the information make sense to you at a deeper level, or does it seem arbitrary, meaningless or difficult to derive? Most school tests and virtually all real-life tests are designed to answer a single question: do you understand what you’re studying? If you aren’t sure, that’s when you need to start working deeper. Keep asking yourself “why” until you reach a point where the subject makes sense. Here are some tips for improving your understanding: Look for sensory descriptions.Your brain isn’t a computer. It’s designed to retain emotional, vivid and sensory information better than abstract or dry details. Link a sensation, picture or story to the abstract details. When learning how to do determinants (a form of math using matrices) I imagined my hands moving through the diagonals, one adding and one taking away. Get the background. A lot of information that seems meaningless makes more sense when given a context. If your stuck on trying to wrap your head around a particular point, do some research into it’s origins. This may take more time up-front, but can save hours as future concepts are built upon it. Step Four: Test Yourself Whenever you’re experimenting with new learning methods, you need to measure the results. Check to see whether your new system is actually helping you remember more. Once you get familiar with a system, you can more accurately judge the extent of your knowledge. But until then, test regularly so you can tweak the system to fix errors. The best tests are objective ones. If you’re in school, look for past exams, tests or textbook questions to check your understanding. If you’re teaching yourself, come up with short exercises that can prove to you conclusively you know what you’re doing. The most important piece of advice I can give is this: treat study time as being sacred. Go in with the expectation that you will either learn everything through the first go, or you will identify areas that need further clarification. Focus and become aware of any potential holes so you can learn things once.
      Best Handheld Ultrasound Devices Compared

    • Handheld ultrasound device is the future of all USG scanners. No wires, no more clutters. These devices are so user friendly, cozy and portable that any radiologist can hardly resist from getting one. We compare the best of them available in today.  1   Clarius Wireless Handheld Ultrasound Device Clarius manufactures one of the most advanced handheld ultrasound device, which wirelessly streams data to most iOS and Android devices. You can see view live view on your iPad or Android screen with the help of a simple app. There is a cloud storage option also, and a digital library is just a touch away. It has passed recently CE Mark approval for the commercial sale of the C3 and L7 Clarius Wireless Ultrasound Scanners for use by medical professionals.  C3 Scanner is capable of multipurpose scanning of all parts of the patient’s torso, including the heart. The devices exhibit outstanding resolution with its convex array for abdominal and lung images. L7 is Linear Array Ultrasound Scanner and ideal for guiding procedures. Easy to sterilize and keep clean. One can easily get fine detail from 1 to 7 cms from L7. Both the devices come with full body metal jacket which gives a premium look. These devices have 45 minutes of active battery life and 7 plus hrs standby time. Approx Cost                              $‎6,900.00 for BW / $‎9,900.00 with Color Doppler Official Page Product Page For Ultimate Portability, User friendliness, Premium Look and feel, Cloud Storage, FDA CE Approved, Included Warranty Against Price    2  Philips Lumify App Based Handheld Ultrasound Device Phillips Lumify handheld ultrasound probes are time tested device and connects to your tab or smartphone with a micro USB port. Its got a simple interface to manipulate and requires just an installation of the Lumify App. Lumify goes where you go, so you can start scanning without searching for equipment in the emergency department. It looks more or less like a standard ultrasound probe with a micro USB on the far end. Lumify doesn't need to be charged. Once connected, It is powered by your Android device. The Lumify app enables users to store scans, images and has the ability to share via email. It also has cloud based storage ability. The app only recognizes Lumify probes, and during first set up device registration is required. Unfortunately Lumify doesn't support iOS. Lumify has three types of probes, S4-1, L12-4 and C5-2. Lumify S4-1 is suitable for Lung, Echo, Abdomen, Ob Gynae and FAST. Lumify L12-4 is meant for soft tissue, superficial, MSK and Vascular in addition to Lungs. Approx Cost                      Flexible pricing options starting at $199/month, with 12 & 24 month subscriptions Official Page Product Page For Portable Design, Flexible Pricing Against Wired Connectivity, No support for iOS, Only available for distribution in the USA    3   Healcerion SONON 300L Handheld Ultrasound Machine Healcerion’s SONON 300L, 300C and 300MC are both CE and FDA approved product line in mobile ultrasound device compatible with iOS and Android technology. Quite a small to fit in your pocket and light enough to operate with two fingers. With a weight of 369g and 78(W) x 229(L) x 38(H)mm dimension, it's one of the best devices to carry around. Just like Clarius it has  Wifi (2.4GHz)  connectivity and can be paired  with an existing smartphone or tablet to conduct scans. The device has a 2600 mAh Li ion Rechargeable battery, which delivers amazing scan time of 3 hrs. The SONON mobile application supports both iOS and Android device and providers can scan patients and transmit images and recordings securely to any hospital via Wi-Fi, 3G, or LTE networks. SONON 300L is for  MSK(Muscular-skeletal), Orthopedics, Vascular, Pediatrics, Sports medicine, Point of care, Ultrasound-guided procedures and color doppler. 300MC is basically designed for Veterinary, Pediatrics, Neonatal, Point of care, while 300C is only suitable for general and Ob Gyne. Approx  Cost                                                 SONON 300L: 8,000USD, SONON 300C: 6,000USD Official Page Product Page For High Resolution, Color Doppler, Wireless Connectivity, Portable and Sleek Design, Compatible with any Smartphone or Tab, CE and FDA approved Against No Cloud    4  Fujifilms Sonosite iViz Handheld Ultrasound Device Unlike Claurius and Lumify,  Fujifilm Sonosite is not compatible to Tab or Smartphones via apps. It comes with a 7 inch display system. The high-resolution touch screen and innovative thumb operated user interface helps the doctor quickly go through various modes and enables quick diagnosis.  iViz supports a range of clinical applications, interchangeable transducers, and optimization controls allowing accurate assessment. The display unit can be easily held on left hand enabling the user operate with his thumb, while his right hand scans through the transducer.  Integrated Wi-Fi and Bluetooth connectivity allows iViz to connect to Hospital Medical IT Systems, Cloud Solutions or Patient Vital Sensors. There is a remotely diagnosing capability via secure cloud-based telemedicine solutions where patient information can be accessed iViz and send reports to the EMR, Other connectivity like Micro USB, HDMI ports, and audio ports allow iViz fully compatible to any other medical Info systems. Approx Cost                                                                                Official Page Product Page For Cloud Strage,Connectivity,  Flexible Pricing, Telemedicine Functionality Against Comes with a display unit, cannot go really mobile    5   Mobisante MobiUS SP1 System Handheld Ultrasound Mobile Mobisante's MobiUS is an irresistible deal when it comes to appearance and feel. MobiUS SP1 System comes with a 800×480 WVGA touchscreen that easily slips in pockets. Along with the probe it weighs 11.6 oz. only. It has 8GB internal storage and connects to PC or other devices via WiFi or PC sync. There is another option for 3G connectivity. The in built battery allows continuous scan time over 60 min. It supports two types of transducers 3.5 and 5.0 MHz which is for  Abdominal, OB/Gyn and guidance procedures. The Second type is 7.5 and 12 MHz and  suitable for vascular, guidance procedures, small organs. The product is FDA approved. Approx Cost                                              $7495.00 Official Page Product Page For Wireless Connectivity, Size, FDA approved Against Low resolution display, No Cloud, Non compatible with other Smartphone or Tab, 
      Who can go for LASIK eye Surgery?

    • LASIK is a surgical methodology that uses a laser to correct partial blindness, farsightedness and astigmatism. The LASIK surgery is done by an ophthalmologist who utilizes a laser to reshape the eye's cornea, keeping in mind the end goal to enhance visual acuity. For most patients, LASIK gives a lasting alternative to contact lenses or eyeglasses. LASIK can likewise adjust astigmatism by smoothing an irregular cornea into a more usual shape. If you are thinking about LASIK eye surgery, your initial step is to pick a decent LASIK specialist who can assess whether LASIK is appropriate for you. Your LASIK specialist will analyze your eyes to decide their health, what sort of vision revision you need, and how much laser ablation is required. LASIK is most like any other surgical remedial methodology, photo-refractive keratectomy (PRK). As per the year 2011, more than 11 million LASIK methods had been performed in the United States in 2009 more than 28 million have been performed around the world. ELIGIBILITY FOR A LASIK EYE SURGERY: LASIK surgery is a kind of refractive eye surgery. Amid the strategy, an eye specialist makes a flap in the cornea and later on uses a laser to reshape the cornea and correct the refractive issues in the eye. LASIK surgery is suitable for the individuals, who have a direct level of refractive error, causing: Astigmatism, in which you see nearby objects, yet far off objects are hazy. Farsightedness (hyperopia), in which you can see far things easily but nearby things is blurry. A decent surgical result relies upon cautious assessment of your eyes before the surgery. To be qualified for LASIK surgery, potential applicants must meet the accompanying criteria: AGE - Candidates must be no less than 18 years of age. GENERAL HEALTH - LASIK applicants must be in good health and should not have certain medical issues, including uncontrolled diabetes, collagen vascular illness, or take any pharmaceutical. EYE HEALTH - Candidates ought to be free of eye ailments including keratoconus, glaucoma and certain retinal and optic nerve diseases. EYE INJURY - Patients should not have any eye diseases. DRY EYE CONDITION - Patients should not persistently experience the ill effects of dry eyes. STABLE VISION - The vision of the candidates must be steady for no less than one year prior to the procedure date. CONTACTS - Prior to your LASIK surgery consultation and LASIK strategy, you should not wear contact lenses for a specific time. The exact length will be controlled by your specialist on an individual basis. This guarantees corneal soundness and precise evaluation of your prescription prior to the LASIK surgery methodology. NURSING/PREGNANCY - Candidates should not be pregnant or nursing while experiencing the LASIK procedure. Hormones may influence the strength of your prescription, so pregnant or nursing ladies are not qualified to seek LASIK surgery until three menstrual cycles in the wake of nursing has been ceased. These are some of the points which show if you can go for a LASIK eye surgery or not. Via Lasik Eyes Surgery 
      High Numbers of MRI Machine accidents :Are we defaulters?

    •                  Many operational considerations for MR imaging are similar to those for CT. Differences occur because of fringe magnetic fields, radio frequency shielding, geometry of the magnet bore, and lack of known biological hazard with MR imaging.  The magnet is always on, especially in an MRI that is high-filled 1.5 Tesla or higher. This is so that the cooling of the superconducting magnet can take place and maintain an effective electromagnetic field for image acquisition. If there is some sort of incident or injury that requires a "quench" or purge of the coolant in order to turn off the magnet, the liquid helium must be vented quickly and safely directly into the atmosphere. This is why MRI machines are often on upper floors of hospitals, especially older hospitals. Liquid helium is super expensive and to quench and replenish takes time and lots of money. This is why you can also find videos on YouTube and such of people trying to pry office chairs out of an MRI with two by fours and other non ferrous items.                Ignoring Standard recommendations to setup an MRI machine not only caused malfunctioning or low quality imaging, its a life hazard. There were several instances in the recent past, when people and equipment were stuck inside MRI.                    Nevertheless, a patient’s condition can deteriorate during MR imaging, requiring emergency intervention. MR imaging systems can interfere with both patient monitoring and cardiopulmonary resuscitation. Appropriate architectural and administrative measures can lessen these difficulties. The long, narrow magnet bore makes it difficult to observe the patient. Locating the operating console near the axis of the magnet provides a better, although still limited, view of the patient being scanned. Fringe magnetic fields may require location of the console relatively distant from the magnet. Magnetic shielding of the video display unit in the console can allow placement closer to the magnet. The window between the magnet room and control or console room usually requires RF shielding, which is often two layers of copper screen or perforated sheet. This shielding reduces patient visibility by light attenuation and by the distracting effect of Moire patterns and reflections. These problems can be reduced by appropriate window selection and attention to lighting details. Charge-coupled device (CCD) television cameras can be operated in relatively high magnetic fields and can be quite helpful in patient monitoring. Medical personnel and/or family members can remain near the patient to monitor or reassure the patient. The magnetic field within the scanner can affect or limit the performance of patient monitoring and communication equipment. For example, the magneto-hydrodynamic effect from flowing blood distorts electrocardiograph signals. Various solutions are being developed for these problems, such as using the main magnetic field as the field for a speaker or piping in sound via airline style head phones or providing a pneumatic squeeze bulb as a call button for the patient. Interfacing these devices with external systems is sometimes difficult. The operation of patient support equipment such as respirators, and infusion pumps can be affected near some types of magnets and other equipment such as stretchers, oxygen tanks and intravenous (IV) poles may be subjected to strong attractive forces near the magnet bore. These problems and difficulties with monitoring will make some patients inappropriate candidates for MR imaging until better solutions are found. MR lmager Site Planning Page 17 Cardiopulmonary resuscitation (CPR) is severely limited adjacent to some magnets because of the possible malfunction of CPR equipment in high fringe fields and the danger of ferromagnetic objects brought by the resuscitation team being attracted toward the magnet. The screening of arriving personnel for ferromagnetic objects is, of course, impossible. The usual solution is to remove the patient, by means of a non-ferromagnetic stretcher stationed in the scan room, to an area where CPR can be carried out. This area might be equipped with an emergency cart, monitors, oxygen and suction. Coordination of this phase of the design with the hospital’s CPR committee may be helpful. Means of preventing other personnel, who have responded to the emergency, from wandering into the magnet room during the activity surrounding CPR, should be considered. Useful means include distance, doors, warning signs and administrative procedures, such as training of the CPR team or assigning a member of the MR Imaging staff to close the magnet room door. Such situations necessitate a means of emergency shut down of the magnet. Claustrophobia and other forms of anxiety may interfere with imaging as well as patient comfort. Helpful solutions include good patient preparation, communication during scanning, someone remaining with the patient during scanning, disguising the intimidating appearance of the magnet, hiding the computer room from patient view, use of warm architectural finishes, keeping the magnet room size undramatic, disguising the vault-like appearance of the RF-shielded door, and making safety procedures and warning signs as nonthreatening as possible, consistent with adequate protection. The warm appearance of carpet must be weighed against the durability and maintenance advantages of traditional floors. Controlled access to the MR lmager suite is necessary because of possible harm to people with ferromagnetic medical implants and harm to people and equipment from unrestrained ferromagnetic objects in the vicinity of the magnet. A single entrance to the suite is helpful in this regard. Provision must be made for housekeeping personnel with floor polishers, for security personnel with keys, radios and guns, and for firemen with air tanks and axes. Non-ferromagnetic mops and buckets in a special closet or a built-in vacuum cleaner with plastic implements can be supplemented by direct supervision and/or training. If a special lock on the magnet door, which is not part of the hospital master key system, is used, emergency access to the key will be required.
      Is Substance Abuse Among Anesthesiologists Rising?

    • Although it can be difficult to accept, physicians are at risk for the same challenges and illnesses as other people, including drug addiction. Anesthesiologists, in particular, have consistently been shown to have an unusually high rate of drug abuse compared to other physicians. A survey of 260 anesthesiologists from the Medical College of Wisconsin graduating between 1958 and 1988 reported that 32 percent used drugs to “get high” and 15.8 percent had been drug dependent. Physician health programs (PHPs), which are responsible for managing and monitoring addicted physicians, report that anesthesiologists show up in their programs with substance abuse at approximately 2.5 times the rate of other specialties. Anesthesiologists have also been reported to be similarly over-represented in substance abuse treatment centers that specialize in treating physicians. As a result of the high rates of substance abuse among anesthesiologists, some disability insurance companies have even decided to discontinue coverage for anesthesiologists. Why are anesthesiologists particularly vulnerable to drug abuse? Studies point to the following factors: • The proximity to large quantities of addictive drugs • The relative ease of diverting drugs for personal use • A high-stress work environment  • Control-oriented personality • Workplace exposure that sensitizes the brain to substance abuse Drug Abuse Trends Among Anesthesiologists Dr. Gregory Skipper, the former medical director of the Alabama Physician Health Program and current Director of Professional Health Services at Promises Treatment Centers, and colleagues completed a longitudinal cohort study involving 904 physicians consecutively admitted to one of 16 state physician health programs between 1995 and 2001. They analyzed a subset of the data involving 102 anesthesiologists and compared them with other physicians. The main outcome measures included relapse (defined as any unauthorized addictive substance use, including alcohol), return to anesthesiology practice, disciplinary actions, physician death and patient harm. The researchers uncovered a number of drug use trends among anesthesiologists: • The primary drug of choice among anesthesiologists is opioids, such as fentanyl, sufentanil, meperidine and morphine (whereas alcohol is the primary substance of abuse among other physicians). • Anesthesiologists had a higher rate of IV drug use compared to other physicians (41 percent vs. 10 percent). Treatment & Monitoring Help Addicted Anesthesiologists Successfully Return to Work Although anesthesiologists are at increased risk of drug addiction, research suggests that they respond exceedingly well to drug rehabilitation treatment and long-term monitoring. PHPs have achieved remarkable outcomes with physicians and are equally effective for anesthesiologists. Most physicians managed and monitored by PHPs have reported 75 to 90 percent success rates five or more years after completing substance abuse treatment. Despite these statistics, controversy remains surrounding anesthesiologists’ prognoses and ability to return to the operating room. Even with strict monitoring in place, some argue that anesthesiologists should not be permitted to return to anesthesiology practice after receiving substance abuse treatment. These conclusions stem from two poorly designed surveys of training program directors regarding substance-abusing residents, which reported very poor outcomes among addicted anesthesiologists. In contrast, according to Dr. Skipper’s research, which is the first long-term outcome study based on actual data from records of anesthesiologists, most anesthesiologists can safely return to practice if certain safeguards are in place. In his study, anesthesiologists who were treated and monitored for substance use disorders under the supervision of PHPs had excellent outcomes similar to other physicians. At the end of the five-year follow-up period, 71 percent of anesthesiologists and 64 percent of nonanesthesiologists had completed their contracts and were no longer required to be monitored. Although they face greater stigma, the research shows that anesthesiologists: • Were less likely to fail a drug test during monitoring • Were as likely to complete treatment and return to practice • Experienced suicide risks, relapse rates and disciplinary rates that were no higher than other physicians • Did not put their patients at risk of significant harm from relapse Addiction Treatment for Addicted Anesthesiologists Treatment for addicted anesthesiologists typically involves specialized drug rehabilitation programs that provide comprehensive assessments, intensive individual and group therapy for professionals, 12-Step support, and extensive aftercare and relapse prevention planning. Certain long-term monitoring measures have proven particularly effective in deterring substance abuse among anesthesiologists: Long-acting natlrexone administration Regular periodic hair testing (which is more accurate, particularly in detecting opioid abuse, than urine testing) Enhanced security measures in and around the operating room (e.g., using witnesses for drug access and disposal, automated distribution devices, monitoring cameras, and spectrometric scanning of waste) There is a growing body of evidence that the stigma against anesthesiologists returning to work is unwarranted. Although any incidence of overdose, suicide or patient harm is unacceptable, and re-entry must be handled on a case-by-case basis, studies show that addicted anesthesiologists who receive substance abuse treatment and are managed by PHPs have good long-term outcomes, on par with other physicians. Image Source  NurseTogether.com Article: https://www.elementsbehavioralhealth.com
      Meanwhile in India Several Doctors 'Commit Suicide' After watching this

    • Medical Miracles in Indian movies a common appearance. One in every 10 Indian movies patients are cured by super power, miracle medicines and God's blessings. But this one surpassed all the limits. Doctors, please brace yourself, many doctors have already 'committed suicide' and several left medicine forever after watching this. So, watch it at your own risk. The movie Hrudaya Kaleyam is a 2014 Telugu spoof action comedy film directed by Steven Shankar. It stars debutant Sampoornesh Babu in the lead role. The film revolves around Sampoornesh Babu, a petty thief who robs parts in electronic shops and why he robs electronic shops and departmental stores.The movie was considered a hit at Box Office. Learn How to Make an Artificial heart: Yes, you heard me.. An artificial heart is not tough to design. First you have to assess patients vitals by putting the stetho on forehead. Keep your tools ready before proceeding further Human Anatomy Book Physiology Book on Circulatory System An true size heart image for measuring the dimensions Other equipment like hex blade, knives, paints, welder, colors and chemicals Gods blessings   Once you are ready with these please follow the procedure as shown on this video:   Heart Implantation is Easy: Transpiration or more correctly implantation part is rather easy. In the movie, the leading character couldn't perform it himself. However he assisted the doctors by throwing the heart accurately on to patients chest. Doctors did only the suturing and closure of the thorax. Don't miss the suturing procedure.