tag:blogger.com,1999:blog-3176737681583887882024-02-07T23:39:18.561-05:00BME Summer Immersion 2007Cornell BME Summer Immersion 2007 - The Greatest Blog...Ever?Unknownnoreply@blogger.comBlogger97125tag:blogger.com,1999:blog-317673768158388788.post-75922159735415649582007-08-11T23:09:00.001-04:002007-08-11T23:09:37.418-04:00Bye bye and ThanksAs my last post of the summer, I would just like to comment on the program and say goodbye. <br /><br />First, I would like to thank Drs. Wang and Frayer for instituting such a program – I absolutely loved my experience this summer. There was so much I learned about medicine, surgery, health care, how engineers fit into health care, human dynamics, myself, etc., etc… not to mention, being able to enjoy New York City in the summertime. If you haven’t noticed…this summer was priceless for me and I am very grateful to have had this opportunity. I also would like to thank Dr. Grant for being my mentor. Although, I enjoyed surgery in general, I found a special enjoyment out of plastic surgery and I think that can be attributed to having a great mentor and plastics squad.<br /><br />I hope everyone else had as great of a time as I did this summer and best of luck to all of the future participants in the program. Get involved and enjoy the experience, you will probably never do anything like it again. That’s it all...for now...Markhttp://www.blogger.com/profile/13453738151045969828noreply@blogger.com1tag:blogger.com,1999:blog-317673768158388788.post-39599778668213398532007-08-07T17:21:00.000-04:002007-08-07T17:30:43.592-04:00Final Week of Summer Immersion...TearSo the final week of the program was unfortunately spent mostly working on my presentation which I had to give on Thursday.<span style=""> </span>However, I did get to observe two more cranioplasty cases which were awesome as usual.<span style=""> </span>Dr. Spinelli, the main plastic surgeon that works on these cases is becoming acclimated to my presence in the OR now.<span style=""> </span>As such, he showed me some of the facial/cranial skeletal anatomy, such as the maxilla, zygomatic arches, orbital floor, and probably some others I don’t remember.<span style=""> </span>One of the cases was kind of sad; it was a two-year-old girl that was born lacking the proper fusion of her skull.<span style=""> </span>Dr. Spinelli had previously operated on her several times in the past, reconstructing various parts of her cranium; however, this time he was simply adding a titanium mesh and his favorite Medpor hydroxyapatite bone cement to cover the final remaining area lacking skull bone.<span style=""> </span>When the girl finally awoke she couldn’t stop crying and looked terribly unhappy.<span style=""> </span>Poor girl…at least, her brain will be somewhat more protected now. <p class="MsoNormal">Anyway, as I showed in my presentation my research project basically consisted of a literature review and case study analysis to form the foundation for a prospective investigation of Dr. Grant’s.<span style=""> </span>He wants to assess the effect short pulsed electromagnetic fields have on post-op breast augmentation patients.<span style=""> </span>I won’t go into everything that I presented on; however, some of the more interesting findings were as follows. First, was a meta-analysis of over 30 years and 50 clinical trials on both bone and soft tissue revealing that ALL studies were methodologically flawed…awesome.<span style=""> </span>I’m glad published research is so well reviewed…and carried out for that matter.<span style=""> </span>Some of the flaws were huge, too – like no control groups or errors in the protocols.<span style=""> </span>Honestly, I thought that was outrageous.<span style=""> </span>Nonetheless, these were studies from years ago, and a lot of the newer studies are much better designed.<span style=""> </span>Several of the better, more recent articles showed that <i style="">in vitro</i> and <i style="">in vivo</i> PEMF stimulated the synthesis and upregulation of various growth factors, such as, platelet-derived growth factor (PDGF), vascular endothelial growth factor (VEGF), and transforming growth factor (TGF).<span style=""> </span>These growth factors then act to induce cellular proliferation, angiogenesis, stimulation of an immune response, deposition of ECM and wound contraction.<span style=""> </span>In other words, they aid in wound healing and in turn should also help reduce pain in human subjects by speeding up the healing process.<span style=""> </span>The chart below illustrates an increase in tensile strength of rat wounds treated with PEMF for 21 days post-op as compared to the negative controls. Signal I, II, III, and IV are simply varying doses of PEMF; whereas the "Sham" is the negative control.<br /></p><p class="MsoNormal"><a onblur="try {parent.deselectBloggerImageGracefully();} catch(e) {}" href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEgmiUoPwbAeBVztcoLgBUPcR2Qaq-GrBZ1KDyLyfXEQKcGuU3gSf8pjXMU2P40Xq8NVdxQ_Q_CJihMM4bHfzKjeIQ9bCxQCflIyDrcg1FvZWIhVEfc_6ZSH6w6yJ73IBIK-RUwqR5HuDQus/s1600-h/ovidweb.cgi.jpg"><img style="margin: 0px auto 10px; display: block; text-align: center; cursor: pointer;" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEgmiUoPwbAeBVztcoLgBUPcR2Qaq-GrBZ1KDyLyfXEQKcGuU3gSf8pjXMU2P40Xq8NVdxQ_Q_CJihMM4bHfzKjeIQ9bCxQCflIyDrcg1FvZWIhVEfc_6ZSH6w6yJ73IBIK-RUwqR5HuDQus/s400/ovidweb.cgi.jpg" alt="" id="BLOGGER_PHOTO_ID_5096072289813990738" border="0" /></a></p> <p class="MsoNormal">A company called Ivivi Technologies in <st1:city st="on">Northvale</st1:city>, <st1:state st="on">NJ</st1:state> manufactures devices named <i style="">SofPulse</i> that utilize this PEMF technology. The company collaborates with <st1:place st="on"><st1:placename st="on">Columbia</st1:placename> <st1:placetype st="on">University</st1:placetype></st1:place> to study the effects and applications of PEMF, hence, why Dr. Grant is interested in it pursuing this further.<span style=""> </span>The device is essentially a small electrical device that rapidly turns on and off sending current through a circular coil as shown below.</p><p class="MsoNormal"><a onblur="try {parent.deselectBloggerImageGracefully();} catch(e) {}" href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEjgHcg0hNLUq8xeQH1sxEjy6LbYfCP3_9w3KPYz27RokFSmLoGnuUBv1ALJNFvnCCWEaZavRLigaZfSHZTyFOdysHHDnUdUc28EwCCW-5_xJBOTU9pqC0gUxc8Yha1FlsuD7a47WO2_NsFc/s1600-h/coil_white.gif"><img style="margin: 0px auto 10px; display: block; text-align: center; cursor: pointer;" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEjgHcg0hNLUq8xeQH1sxEjy6LbYfCP3_9w3KPYz27RokFSmLoGnuUBv1ALJNFvnCCWEaZavRLigaZfSHZTyFOdysHHDnUdUc28EwCCW-5_xJBOTU9pqC0gUxc8Yha1FlsuD7a47WO2_NsFc/s400/coil_white.gif" alt="" id="BLOGGER_PHOTO_ID_5096072118015298882" border="0" /></a></p> <p class="MsoNormal">The electric field induces a magnetic field and the device is laid on the wounded area, applying the desired PEMF therapy directly onto the patient’s wounds.<span style=""> </span>It’s a non-invasive therapy that allegedly reduces pain and speeds along the healing process, allowing for an earlier discharge, and thus, cutting costs, too…that is if it actually works.<span style=""> </span>A cool idea.<span style=""> </span>But, it just looks so bogus to me.<span style=""> </span>Anyway, the company has just released news that they have an IRB-approved, randomized, double-blind, placebo-controlled clinical trial on 30 ischemic cardiomyopathy patients (decreased blood flow to the heart) who are not candidates for surgical procedures.<span style=""> </span>If it works in these cases, that would be absolutely great…it could reduce the number of many invasive, difficult cardiac surgeries.<span style=""> </span>Personally, I think the biggest obstacle with this technology will be convincing the general population that a stupid wire with a flashy LED on it will actually save you…</p>Markhttp://www.blogger.com/profile/13453738151045969828noreply@blogger.com0tag:blogger.com,1999:blog-317673768158388788.post-37121019308684723902007-08-05T12:19:00.000-04:002007-08-05T12:29:19.774-04:00Some thoughts about surgical staplersAs a biomedical engineering student, I am interested in the biomedical devices used in the clinic and operating room. During the summer immersion, I was impressed the state-of-the-art surgical staplers.<br /><br />Surgical staplers and clip appliers are complex mechanical medical devices that have been on the market for years and are mature in their technology. These devices are used in gastrointestinal, gynecologic, thoracic, and many other surgeries to remove part of an organ, to cut through organs and tissues and to create connections between structures. The benefit of using these devices allows for more complex procedures and shorter surgical procedure time.<br /><br />However, Each year over the past 5 years there have been 8,000 to 9,000 adverse event reports related to surgical staplers. The most common problems with the device are: staples don't form, staplers misfire or don't fire. The most common problem with the patient is anastomosis failure. This is also where my research project originally arise from. Solving the anastomosis problem is meaningful.<br /><br />In the OR, I also saw electronic surgical staplers. Compared to mechanical stapler, it provides improvements such as, removes force from the anastomotic site; digitally senses tissue compression levels; digitally selects staple heights; prompts surgeon via LCD and voice message.<br /><br />By talking to the doctors and the engineers from the vendors, I feel that the research in a medical device company is somewhat different from research in the school. In the school, the research is more focused on the basic science, but in a company, it must be application oriented. For example, the physical principles inside a stapler have been well established since Newton and Maxwell. However, such a device is still innovative because it facilitates doctor’s procedures, and it fundamentally changed suturing process. The research is a designing process. Instead of incorporating a lot of high technologies, a device that best meets the doctor’s need might be more useful.Tian Liuhttp://www.blogger.com/profile/03741775805826288565noreply@blogger.com0tag:blogger.com,1999:blog-317673768158388788.post-48145578031197621832007-08-03T12:45:00.000-04:002007-08-03T12:46:27.266-04:00Neurological Surgery<p class="MsoNormal">Neurological Surgery</p> <p class="MsoNormal"><o:p></o:p>During the course of this program, I have had the opportunity observe several different treatments for the same illness. I was able to observe a carotid endarterectomy and brain tumor resection, which were particularly interesting because I have observed the alternative endovascular treatments for each, carotid artery stenting (CAS) and embolizing the vessels feeding the tumors. Though I have written about the advantages of CAS over endarterectomies in the past, I was able to directly observe the vast improvement that CAS provides in terms of time and invasiveness - unlike in carotid endarterectomies where blood flow is cut off through one of the carotid arteries that feeds the brain for close to 40 minutes, CAS does not require blood flow to be cut off at all. Similarly, the endovascular method to deprive tumors of blood is much less invasive than the surgical technique which requires a craniotomy. In the case I observed, the doctors had to be very careful about avoiding damage to a major artery and the optic nerve while removing the tumor. <span style=""> </span>In terms of biomedical engineering contributions, technology that could decrease invasiveness and improve precision in treatments would be very useful.<br /></p><p class="MsoNormal">I also have been working on my clinical research project evaluating effectiveness of two different treatments for aneurysms, and have obtained some interesting results. I will be presenting my research project in the seminar meeting in <st1:place st="on"><st1:city st="on">Ithaca</st1:City></st1:place> in the fall. </p> <p class="MsoNormal">Overall, I gained a lot from this experience, especially in terms of realizing that there are many areas that still need technological improvements. I would like to thank my clinician mentor, Dr. Riina, and also Dr. Gobin and Dr. Chapple. <span style=""> </span></p>Janethttp://www.blogger.com/profile/11114630433700872809noreply@blogger.com0tag:blogger.com,1999:blog-317673768158388788.post-39410946139295258862007-08-02T14:27:00.000-04:002007-08-02T14:30:08.373-04:00Vascular Wrap-up<div align="justify"><strong>Vascular Surgery<br />Week 7</strong><br /><br /><strong><span style="color:#990000;">The Last Post<br /></span></strong><br />Last time I left a taunting message about my research—now it’s time for some results! It turned out that the average age of the last menses was 48 and that surgery would occur within 20-29 years after this age with 99% statistical confidence. This identified the patient population with ages 68-77. The HRT data revealed that there was no significant difference between patients on HRT vs. not for primary patency while patients with osteoporosis were worse-off than those without osteoporosis. This is interesting data that may suggest that patients with osteoporosis who undergo vascular procedures should have more frequent patency check-ups.<br /><br />This is the last post for me! One thing that I pulled away from this experience is that I do not want to be a doctor, at least not a surgeon! They have an intense lifestyle to say the least, and they basically live at the hospital. Otherwise I had a chance to see some great technology and procedures that I wouldn’t be exposed to anywhere else, and living on the Upper East Side rent-free was unbeatable. Thanks to Dr. Vouyouka, and thanks for reading! </div>Joehttp://www.blogger.com/profile/09273230669132134374noreply@blogger.com0tag:blogger.com,1999:blog-317673768158388788.post-5294052032513451202007-08-02T13:27:00.000-04:002007-08-02T13:28:16.396-04:00Surgery and AdiosThis past week I spent time observing thoracic surgery. This was the first time I saw surgery, as I found other topics more interesting/relevant for me, my research, and my personal goals for the program. However, one surgery in particular was very interesting. It was a bi-lobectomy. In this surgery, the 2 lower lobes from the right lung were removed. As a note, the right lung has 3 lobes, the left two (because the heart is in the way. The patient had lung cancer and resection (removal) was deemed to be the method with the highest chance of success. The reason two lobes were removed is because it was felt the cancer was large enough and was invading/compromising the second lobe. What I found interesting was that this decision was made in the OR and not before hand, which shows the adaptive nature of the OR. I did have to get used to the cauterization though. It looked like they were soldering the patient, and it threw me the first time I saw it. <br /><br /> The summer immersion program is almost over now, and I think that I did gain a better understanding of clinical practice. I am fairly sure this experience will spill over into my current collaborations, and will benefit me. It also gave me a better understanding of the need to be assertive. The programs structure does need refinement, however, but it is not a loss, especially if one tries to gain specific insight on one’s own. It would have been nice if the exact clinical experiences we were expected to have (and it did feel as if there explicit expectations) would have been spelled out clearly before hand.<br /><br /> I’m looking forward to returning home to my wife and child tomorrow. Happy 1st birthday, Aiden!Bradhttp://www.blogger.com/profile/15243527840908535539noreply@blogger.com0tag:blogger.com,1999:blog-317673768158388788.post-22955163548567193742007-08-02T12:52:00.000-04:002007-08-02T13:23:57.865-04:00Mitral Valve Replacement (MVR)<p><span>Finally, I convinced myself to watch at least one open heart surgery. I was surprised at how invasive the whole procedure was. The doctors’ basically sedated the patient, sliced his chest open, and then pulled his ribs apart using their bare hands or a crude mechanical device. It was almost like watching a scene out of a movie with hygienic zombies in scrubs trying to carefully eat the victim’s heart. Okay, maybe that’s an exaggeration. What followed was a bit more impressive. They bypassed the patient’s arteries, immobilized the heart using high concentration of potassium chloride, and then made an incision in the heart in order to replace the mitral valve. The following picture is borrowed from its.med.yale.edu. It depicts a mitral valve replacement.</span><img id="BLOGGER_PHOTO_ID_5094147354837278498" style="DISPLAY: block; MARGIN: 0px auto 10px; CURSOR: hand; TEXT-ALIGN: center" alt="" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEh8DWnmxA_0DEJX19pXYvfICSFK9ezvJrNgWNJCabVdvaoVnHyJNODY1-OEVTsbsr57TvcrTP8GS5kno_adwU_pAhDlSZO-YxXfYPshdeRqhBz7BsQ9HoxaHGboEJzynZzk5AIEqmOb7OIe/s400/MVR1.jpg" border="0" /><span>Apparently, this particular patient had mitral valve regurgitation. This was evident from his transesophogeal echocardiogram or the ultrasound measurements. One could see that the oxygenated blood that entered the left ventricle through the mitral valve periodically reentered the left atrium. In most cases, a patient’s valve is irreversibly compromised due to either ischemia, stenosis, or infection. These problems are usually onset due to coronary artery disease, age, or rheumatic fever, respectively. However, congenital defects are not rare.</span><span style="font-size:0;"><span style="font-size:0;"><span style="font-size:0;"><span style="font-size:0;"><span style="font-size:0;"> </span></span></span></span></span></p><p><span><span>In the patient’s case, the problem was caused by ischemia through coronary artery disease. As a result, the doctor had decided to replace his valve with a bovine valve - the reasons for choosing a bovine valve or a mechanical valve were explained previously by Dickinson. It seemed as though the stitching of the valve required great dexterity. One of the more skilled residents tried to stitch the valve but it seemed as though he could not make the more difficult 10-12 o’clock stitches. As a result, the primary surgeon took over and showed him how it should be done. </span></span></p><p><span><span>One could definitely make it easier for these doctors by developing an innovative device for sewing. In fact, I don’t really know why a big hospital like NYP still uses open heart surgery for such cases. There are hospitals that are performing these types of procedures percutaneously using the da Vinci surgical system. I think that’s the way to go. If not, the least one should do is make something that replaces the “needle and string.” </span></span></p>Unknownnoreply@blogger.com0tag:blogger.com,1999:blog-317673768158388788.post-6014678105582171162007-08-02T08:50:00.001-04:002007-08-02T09:44:26.792-04:00My Last Week in PlasticsThis last week has been very eventful. On Monday at the residents discussion the talk was on Breast Reductions. <br />First the discussion was on different types of reductions, mainly different types of incisions and techniques used to reduce the breast size. Then there was a good discussion of how to decide what type of reduction the patient will receive. Specific cases are discussed and the idea of what is realistic and what is not was gone over. Many of the scars after the surgeries are quite noticeable. Images from : www.aboardcertifiedplasticsurgeonresource.com.<br /><a onblur="try {parent.deselectBloggerImageGracefully();} catch(e) {}" href="http://www.aboardcertifiedplasticsurgeonresource.com/images/breast_reduction_photos/bred1bef.jpg"><img style="margin: 0pt 10px 10px 0pt; float: left; cursor: pointer; width: 200px;" src="http://www.aboardcertifiedplasticsurgeonresource.com/images/breast_reduction_photos/bred1bef.jpg" alt="" border="0" /></a> <a onblur="try {parent.deselectBloggerImageGracefully();} catch(e) {}" href="http://www.aboardcertifiedplasticsurgeonresource.com/images/breast_reduction_photos/bred1aft.jpg"><img style="margin: 0pt 0pt 10px 10px; float: left; cursor: pointer; width: 200px; height: 171px;" src="http://www.aboardcertifiedplasticsurgeonresource.com/images/breast_reduction_photos/bred1aft.jpg" alt="" border="0" /></a>Generally, an incision is made around the nipple and the nipple is then removed and a new nipple relocation is added to raise the nipple site to fit with the new smaller breast. Tissue is removed along with skin and then brought in downward to close over and shape the new breast. Scars will remain around the nipple, extended to the crease, and through the crease as seen in the pictures. Later that day, a patient came to office hours to be consulted for a breast reduction. Mistakes were also discussed where the reduction produced breasts that were very asymmetric and occasionally with nipples that were misplaced. Many of these complications arise because the doctor works with an assistant on one side or because of shifts from laying on teh operating bed to getting up. This really brought the talk together because I went from the academic discussion to the patient doctor interactions. <br /><br />Additionally, I attended the M&M meeting Monday evening were complications for the past month in the plastics department were discussed. No patients died of complications, but additionally surgeries were required. In one case a tissue expander became infected after only a week and after taking intravenous antibiotics the patient opted to have the expander removed.<br /><br />At office hours I was able to the progress of the patient I spoke about last entry and the V.A.C. has continued to help in wound closure progress. I also helped to remove sutures. The patient had a cut that ran down the side of the face and a second cut on the upper back. A running stitch was used to close the face face wound.<br /><br />I also attended a butt flap surgery where a patient had gotten a bed ulcer after lying on their back for an extended amount of time. In order to close the wound the muscle above the wound was mobilized and swung down to close over the wound.<br /><br />I have also spent time working on the Case Report that I am writing up. I have submitted a draft to the Chief Resident that I am working with to get feedback on format and wording.Emilyhttp://www.blogger.com/profile/06900434177337546502noreply@blogger.com0tag:blogger.com,1999:blog-317673768158388788.post-37003841650333728682007-08-02T08:36:00.000-04:002007-08-02T08:37:43.321-04:00Code Blue in the OR<p class="MsoNormal">During this week I was able to observe a few more surgeries and attend a few more rounds.<span style=""> </span>I was luckily able to scrub into another tracheaesophageal fistula.<span style=""> </span>The patient was two days old and had a type C fistula which consists of an upper esophagus ending in a blind pouch and a connection between trachea and fistula.<span style=""> </span>Dr. Spigland was able to occlude the fistula and connect the esophagus back together.<span style=""> </span></p> <p class="MsoNormal">However, during the esophageoesophagus connection the patient’s lung did not infant.<span style=""> </span>The lung appear very deflated and small.<span style=""> </span>A code blue was called and within 1-2 minutes a barrage of nurses, residents, and attendings came to help out.<span style=""> </span>They ran into the room with concern expressions and eagerness to help out.<span style=""> </span>The attendees quickly got the patient to start breathing again using manual ventilation.<span style=""> </span>There was a pediatric cart in the room in case the use of a defiberator was needed.<span style=""> </span>In actuality, most of the people who rushed in for the code blue just stood around watching while 1-2 attendees did all the work.<span style=""> </span>But it’s a good sign when over a dozen people rush into the room minutes after a code was called.<span style=""><br /></span></p><p class="MsoNormal"> </p><p class="MsoNormal">I was able to make progress on my research and conclude some aspects of the project.<span style=""> </span>I will continue to collaborate with Dr. Spigland on the research project dealing with esophageal atresia and hopefully write something up in the near future.</p>Unknownnoreply@blogger.com0tag:blogger.com,1999:blog-317673768158388788.post-81782173414980018722007-08-01T00:04:00.000-04:002007-08-01T14:38:00.946-04:00Calcium Score: Part 2<span>Okay… I think I promised you that I would upload something on a new GE software, which I was supposed to use this past week to measure calcium score. Apparently, there are some legal issues in distributing the software so I don’t think I’ll be using it before we all leave for Ithaca. In a perfect world, I would have compared the calcium score measurements made by Smart Score (discussed last time) to those made by VCAR (the new GE software). Instead, I will only have the Smart Score measurements done and my mentor, Dr. Min, will finish the VCAR measurements whenever he gets the software. I think I will still get my name on a paper since he plans to send out a manuscript highlighting the results of the comparison. </span><span style="font-size:0;"><br /></span><span style="font-size:0;"><br /></span><span style="font-size:0;"></span><img id="BLOGGER_PHOTO_ID_5093579276692905746" style="DISPLAY: block; MARGIN: 0px auto 10px; CURSOR: hand; TEXT-ALIGN: center" alt="" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEg11308d4UeTvU__ZtUpYOZVU1RYWCsBNpdj6SZs5FLGwsMRpa2wdUBoHjlk4D2pahTqiUCmtdfLAJ5vLYc69ZNEu87VKaRnCdKwE1EUjLFIwj0Sc68Dt3XvLb-TFB37P_ZyrH_vDrZf6cN/s400/vcar.png" border="0" /> <span>Maybe it is better in a certain way that I will not be collecting scores using VCAR. According to my mentor, although the software is more advanced than Smart Score, it is just as tedious to use. If you recall, the Smart Score software forced one to highlight the calcium in transverse CTA slices. It, thereby, was able to deduce a calcium score based on just volume (volumetric score) or area and average Hounsfield value (agatson number) for the overall calcium in the arteries. VCAR calculates the score in a similar fashion, but it does not need the user to highlight the calcium. Instead, it is designed to automatically segment the calcium in the arteries. However, before the algorithm is capable of doing this, one must click along the centerline of an artery so that the algorithm can basically fit a curve to the selected points and subsequently subtract it from the image to straighten out the artery. Then it presents the artery of interest in a longitudinal format so that one is better able to view the calcium deposits (figure). I’m not certain why this step is necessary. Nevertheless, the software seems very user friendly so I think it would have been fun to work with. </span>Unknownnoreply@blogger.com0tag:blogger.com,1999:blog-317673768158388788.post-12124899509547544362007-07-31T20:49:00.000-04:002007-07-31T21:26:28.432-04:00Neurological Surgery<span style="font-weight: bold;">Neonatal ICU rounds</span><p class="MsoNormal">I was able to go to NICU (neonatal ICU) rounds this past week. Unlike neurological surgery rounds, which only last about 30 minutes, the NICU rounds lasted more than 2 hours. The two were quite different not only because of the age of patients, but also it seemed that in the NICU, rounds were focused on determining the day’s treatment for the patient as well as assessing each patient’s day to day progress, whereas in neurological surgery rounds were focused on just assessing progress. The cases in the NICU were striking in demonstrating the fragility of life, and how important treatment in the beginning of life is. </p> <p class="MsoNormal"><span style="font-weight: bold;">Neurological Surgery</span><br /></p><p class="MsoNormal">One surgical procedure I observed this week which was particularly interesting was an endoscopic resection of a colloid cyst. First, some definitions are needed – a colloid cyst is a slow-growing non-malignant tumor that is usually located in the third ventricle of the brain. The cysts are composed of a cell layer on the outside of the cyst and a creamy-like colloid in the center. The colloid cyst can block drainage of the cerebrospinal fluid (CSF) and cause hydrocephalus.<br /></p><p class="MsoNormal"><a onblur="try {parent.deselectBloggerImageGracefully();} catch(e) {}" href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEiNkbLmPXWqm_P3iDPzOBIRpvDOxAjV8cIhjRpa6jZm3N3NvtEaitAGCCpN8Ur0wmfqKK5Nh27irs2oqURduc6t_0Ocf3jEzmRq6eVfKZfTZ8RwLerkeXSUSbxn0JwExAONROP4ktq409c/s1600-h/MRI_colloid.jpg"><img style="margin: 0px auto 10px; display: block; text-align: center; cursor: pointer;" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEiNkbLmPXWqm_P3iDPzOBIRpvDOxAjV8cIhjRpa6jZm3N3NvtEaitAGCCpN8Ur0wmfqKK5Nh27irs2oqURduc6t_0Ocf3jEzmRq6eVfKZfTZ8RwLerkeXSUSbxn0JwExAONROP4ktq409c/s320/MRI_colloid.jpg" alt="" id="BLOGGER_PHOTO_ID_5093528574915276210" border="0" /></a></p><p style="text-align: center;" class="MsoNormal">MRI image of colloid cyst in the third ventricle. http://neurosurgery.ucla.edu</p><p class="MsoNormal">The treatment options for a colloid cyst include putting in a shunt to drain the CSF or surgery to remove the cyst. Surgery can either be done by a craniotomy or through the less invasive endoscopic technique that I observed. The endoscopic resection technique involves drilling a small centimeter diameter burr hole in the skull, then putting an endoscope with a camera through the hole (see picture). The cyst location is constantly irrigated from outside to maintain a clear view. Several small instruments are guided through the tubes in the endoscope to cut and burn the tissue. Then, several holes are made in the cyst cell wall. A suction catheter is used to suck away the colloid material from the cyst. A balloon catheter is inserted inside the cyst and inflated. The catheter is removed, taking cyst wall material with it. At the end of the procedure, the doctor then uses the bipolars to burn any remaining cyst which may not have been removed. I found the suction procedure quite interesting because sometimes, the doctor would start to suck non-colloidal material into the suction tube, and then would immediately stop the suction. It seems that it would be quite easy to make mistakes with this technique if the doctor is not well-trained, which is why this procedure is only performed at select hospitals.<br /></p><p style="text-align: center;" class="MsoNormal"><a onblur="try {parent.deselectBloggerImageGracefully();} catch(e) {}" href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEgT3Kuxz7wqA60G88cvtrxnSgmyT8v874ETBkTjeSC369cLBhkzIdBMrIZtOQdoW9u9a60d30dMonim-ya614MxIXAILXQKrpFX_tZ6JeoDU5DSCJ2HEE7J_T47g6bM-VhmMiodLcWRoo4/s1600-h/Endoscopy.jpg"><img style="margin: 0px auto 10px; display: block; text-align: center; cursor: pointer;" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEgT3Kuxz7wqA60G88cvtrxnSgmyT8v874ETBkTjeSC369cLBhkzIdBMrIZtOQdoW9u9a60d30dMonim-ya614MxIXAILXQKrpFX_tZ6JeoDU5DSCJ2HEE7J_T47g6bM-VhmMiodLcWRoo4/s320/Endoscopy.jpg" alt="" id="BLOGGER_PHOTO_ID_5093532513400286658" border="0" /></a></p><p style="text-align: center;" class="MsoNormal">Image of an endoscope passing through a burr hole in the skull. http://neurosurgery.ucla.edu<br /></p><p class="MsoNormal"><a onblur="try {parent.deselectBloggerImageGracefully();} catch(e) {}" href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEiKIedo5wUvuyjUyKm9-L69NU1v2ZJXFfnEoz86pr-o4G3edCPUzVHRkrKBd6PiXIs71HKjqZjH6-43OLvLiT1CxXA4n5pzI-QlAZ_-pWpnY-B6DkfWBPgJKJiDo8xTflFvIuk-v4gBcSQ/s1600-h/colloid_endoscope.jpg"><img style="margin: 0px auto 10px; display: block; text-align: center; cursor: pointer;" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEiKIedo5wUvuyjUyKm9-L69NU1v2ZJXFfnEoz86pr-o4G3edCPUzVHRkrKBd6PiXIs71HKjqZjH6-43OLvLiT1CxXA4n5pzI-QlAZ_-pWpnY-B6DkfWBPgJKJiDo8xTflFvIuk-v4gBcSQ/s320/colloid_endoscope.jpg" alt="" id="BLOGGER_PHOTO_ID_5093532603594599890" border="0" /></a></p><p style="text-align: center;" class="MsoNormal">Colloid cyst viewed through an endoscope. http://neurosurgery.ucla.edu<br /></p><p class="MsoNormal"></p>Janethttp://www.blogger.com/profile/11114630433700872809noreply@blogger.com0tag:blogger.com,1999:blog-317673768158388788.post-73144012048303910072007-07-31T11:42:00.000-04:002007-07-31T12:34:29.351-04:00The risks associated with ionizing radiation<a href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEix3sIQ8oQcOQ9jWdIRbki2meM2yCo_3YTTuwmUJ8YAxR9OVmnc8x_d8QfcEGoC1TuqYYd6TlxHp5-V7s3lcXX1X_KEAnCaDpiE_rG8tOMeha6htnN1LCIVDljR-fhxAyNCba4jwasuPd1s/s1600-h/Picture2.jpg"></a>This is my 7<span class="blsp-spelling-error" id="SPELLING_ERROR_0"><span class="blsp-spelling-error" id="SPELLING_ERROR_0">th</span></span> post and the final one, and I have been having a dilemma whether to complete what I have written in my first three posts about design of clinical trials or to write about a presentation that I am preparing for tomorrow regarding risks associated with ionizing radiation and in particular CT scans. I will spend time on clinical trials the end of August when we all present for the <span class="blsp-spelling-error" id="SPELLING_ERROR_1"><span class="blsp-spelling-error" id="SPELLING_ERROR_1">BME</span></span> department, so I thought let's devote the final blog to explain how effective-dose for a regular CT scan is calculated and what does this number biologically mean.<br />According to the FDA, there are two categories of risk associated with ionizing radiation: 1)<span class="blsp-spelling-error" id="SPELLING_ERROR_2"><span class="blsp-spelling-error" id="SPELLING_ERROR_2">Overdiagnosis</span></span> of benign incidents and unnecessary followup tests and 2) acute and chronic biological damages associated with radiation. The <span class="blsp-spelling-corrected" id="SPELLING_ERROR_3">excitation</span> and ionization of molecules and atoms in the body can produce free radicals, break chemical bonds, and cross-link <span class="blsp-spelling-corrected" id="SPELLING_ERROR_4">macromolecules</span>. That's why the effects of radiation exposure are not necessarily immediate. In general, radiation sensitivity of bodily tissues depend on two factors: 1) the rate of proliferation and 2) its degree of differentiation. Thus, tissues with a lot of blood supply (i.e. <span class="blsp-spelling-corrected" id="SPELLING_ERROR_5"><span class="blsp-spelling-error" id="SPELLING_ERROR_3">proliferative</span></span> capability) are most radio-sensitive and tissues that are far advanced (i.e. nervous tissue) are the least sensitive. Unfortunately there has not been <span class="blsp-spelling-corrected" id="SPELLING_ERROR_6">extensive</span> studies to evaluate the relationship between radiation exposure and chronic biological effects such as cancer induction. Therefore, any data available in this regard is based on the conservative notion that any amount of ionizing radiation is harmful to the body. Keep in mind that all of the numbers in this post are national estimates.<br />Radiologists use different <span class="blsp-spelling-corrected" id="SPELLING_ERROR_7">jargon</span> to measure radiation. There is what is called absorbed dose, which is simply amount <span class="blsp-spelling-error" id="SPELLING_ERROR_8">of</span> energy deposited per unit mass of matter with units in Gray (<span class="blsp-spelling-error" id="SPELLING_ERROR_9"><span class="blsp-spelling-error" id="SPELLING_ERROR_4">Gy</span></span>) or <span class="blsp-spelling-error" id="SPELLING_ERROR_10"><span class="blsp-spelling-error" id="SPELLING_ERROR_5">mGy</span></span>. Then is equivalent dose which measures the "biological effects" of the absorbed dose to each tissue of the body. This parameter is a product of absorbed dose and a factor called "radiation weighing factor" which takes into account the radio-sensitivity of different tissues. The final and most important parameter is the effective dose which is the weighted average of absorbed doses to all bodily tissues. For CT, in order to calculate effective dose one has to integrate the dose profile along a line parallel to the axis of rotation of the gantry and <span class="blsp-spelling-error" id="SPELLING_ERROR_11"><span class="blsp-spelling-error" id="SPELLING_ERROR_6">devided</span></span> by the nominal thickness of the slice. However, since this is a bit complicated, physicists introduced a new term called the CT dose index (<span class="blsp-spelling-error" id="SPELLING_ERROR_12"><span class="blsp-spelling-error" id="SPELLING_ERROR_7">CDTI</span></span>) which is measured experimentally. A 100mm ionization chamber will be placed in the center of a head and body phantom and the absorbed dose in measured at the center and periphery. A specific ration of these two values are added up to give a two <span class="blsp-spelling-corrected" id="SPELLING_ERROR_13">dimensional</span> weighted <span class="blsp-spelling-corrected" id="SPELLING_ERROR_14">average</span> of <span class="blsp-spelling-error" id="SPELLING_ERROR_15"><span class="blsp-spelling-error" id="SPELLING_ERROR_8">CTDI</span></span>. When this number is divided by pitch (ratio of the distance the <span class="blsp-spelling-corrected" id="SPELLING_ERROR_16">patient</span> has moved through the scanner per rotation, per slice thickness) then you will have a volumetric absorbed dose. Once you multiply this <span class="blsp-spelling-error" id="SPELLING_ERROR_17"><span class="blsp-spelling-error" id="SPELLING_ERROR_9">CTDI</span></span>(vol) by the length of scan and the radiation weighing factor for the specific tissue you are scanning, you have the effective dose in units of <span class="blsp-spelling-error" id="SPELLING_ERROR_18"><span class="blsp-spelling-error" id="SPELLING_ERROR_10">seivert</span></span> or <span class="blsp-spelling-error" id="SPELLING_ERROR_19"><span class="blsp-spelling-error" id="SPELLING_ERROR_11">mili</span></span>-<span class="blsp-spelling-error" id="SPELLING_ERROR_20"><span class="blsp-spelling-error" id="SPELLING_ERROR_12">seivert</span></span> (<span class="blsp-spelling-error" id="SPELLING_ERROR_21"><span class="blsp-spelling-error" id="SPELLING_ERROR_13">mSv</span></span>).<br />Now some interesting numbers and statistics....<br />The effective dose of a regular chest x-ray is 0.02 <span class="blsp-spelling-error" id="SPELLING_ERROR_22"><span class="blsp-spelling-error" id="SPELLING_ERROR_14">mSv</span></span>, or if you get a dental x-ray your bone marrow is exposed to 0.094 <span class="blsp-spelling-error" id="SPELLING_ERROR_23"><span class="blsp-spelling-error" id="SPELLING_ERROR_15">mSv</span></span>. If you get a regular chest CT (high resolution) you are exposing yourself to 500x more radiation than a chest x-ray (10 <span class="blsp-spelling-error" id="SPELLING_ERROR_24"><span class="blsp-spelling-error" id="SPELLING_ERROR_16">mSv</span></span>) while if you get a head CT you are exposing yourself to 100x more radiation than a chest x-ray.<br />We are all exposed to background radiation due to sources other than medical <span class="blsp-spelling-corrected" id="SPELLING_ERROR_25">imaging</span> modalities (shown bellow). The annual background radiation in the USA is around 3.0 <span class="blsp-spelling-error" id="SPELLING_ERROR_26"><span class="blsp-spelling-error" id="SPELLING_ERROR_17">mSv</span></span>. So a regular chest CT is equivalent to 3.3 years worth of background radiation. This will increase your chances of getting cancer by 0.04% (with natural cancer risk being 20.6%).<br /><a href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEghsYjqk1u-i_npcOWcus9QtsSGGl10CILu8g9YnySUt7L8T007Ipq8g7ff1SwUlffVOrI_LCuGK9BKWxczt8O3g5W1imi7EJwqWesmbGk6QYm4hv6x0wFDmhUjCK7ApqcXhcd1EZEfOKeR/s1600-h/Picture1.png"></a><br /><br /><a href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEjd0JI8pJzZjcEgQ0YKCRtx7q0Rn_or1nTuubfZQIXU-ITzQtf22Hek8BeClQlIrYvn773tpsn1YvAXN0KJq7Tg12SpBxHU6RUE_s1V21OMQ2_FbXdCKFhm6k8CVCz7MFTbpTICwQN4e1J2/s1600-h/piechart.gif"><img id="BLOGGER_PHOTO_ID_5093396878071020850" style="DISPLAY: block; MARGIN: 0px auto 10px; CURSOR: hand; TEXT-ALIGN: center" alt="" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEjd0JI8pJzZjcEgQ0YKCRtx7q0Rn_or1nTuubfZQIXU-ITzQtf22Hek8BeClQlIrYvn773tpsn1YvAXN0KJq7Tg12SpBxHU6RUE_s1V21OMQ2_FbXdCKFhm6k8CVCz7MFTbpTICwQN4e1J2/s400/piechart.gif" border="0" /></a><br /><a href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEiGj3ST8fM1QAE8cIYzLhuj3LiObAvgj1dfK565gsx07Z2uPFA9WkQ1FR2n3SXeLs05zVcx7U6vuVwp-zc-p0dXG7k3hj5oylNs4lG6yLau-ZXjliAkzh1p3FaSPSd_kbGPlJeuzmLMt3I-/s1600-h/piechart.gif"></a><div align="center"><br /><span style="font-size:85%;">National Council on Radiation Protection and Measurements, Bethesda, MD</span></div>Unknownnoreply@blogger.com0tag:blogger.com,1999:blog-317673768158388788.post-60896380815785429482007-07-30T16:18:00.000-04:002007-07-30T16:56:55.051-04:00Cardioplegic Solutions<span style="font-size:100%;"><span style="font-family: arial;">A couple of weeks ago,I blogged on the cardiothoracic cases that I have observed.. Since then I have been continously amazed as to how the myocardium is completely paralyzed before it is operated...Before any resection on the heart is performed, the heart is completely stopped(paralyzed) and the bypass machine is tasked to pump and oxygenate blood in the body. Here's what I have just learned about Cardioplegic Solutions...</span></span><br /><br /><br /><a onblur="try {parent.deselectBloggerImageGracefully();} catch(e) {}" href="http://4.bp.blogspot.com/_aJeCIrKK3os/Rq5Jp1ZALVI/AAAAAAAAAFc/ACwtkgpPL0s/s1600-h/Coronary.jpg"><img style="cursor: pointer;" src="http://4.bp.blogspot.com/_aJeCIrKK3os/Rq5Jp1ZALVI/AAAAAAAAAFc/ACwtkgpPL0s/s320/Coronary.jpg" alt="" id="BLOGGER_PHOTO_ID_5093089211658022226" border="0" /></a><br /><span style="font-family:Arial, Helvetica, sans-serif;font-size:100%;"><b>Cardioplegia </b>in Latin <i>cardio</i> means <span style="font-weight: bold;">heart </span>and <i>plegia</i> means <span style="font-weight: bold;">paralysis.</span> Therefore, cardioplegic solution is a solution that paralyzes the heart. The solution is mixed with blood and infused into the coronary circulation to induce and maintain paralysis while the heart is being operated on. Perfusion of cardioplegic solution through heart stops the myocardium contraction/ relaxation, reducing its metabolic requirements. During this paralysis period, the heart is uniquely endowed with anaerobic pathways that it uses for energy production. To reduce the body's( heart and brain mainly) metabolic demands, the temp. is dropped from 37.5 to 22 degrees celsius and the heart is injected with the cardioplegic solutions every 40 mins for upto 120 mins. This temp. drop is known to reduce the rate of ischemia by 50%, which is a great thing! </span><span style="font-family:Arial, Helvetica, sans-serif;font-size:85%;"><span style="font-size:100%;"><b>Plegisol Solution</b> is a combination of calcium chloride dihydrate, magnesium chloride hexahydrate, potassium chloride, and sodium chloride...Once the mycardium has been sutured and the normal intracellular/extracellular re-established, and the heart starts beating again! Amazing stuff..<br /><br />Next time you come across this phrase remember heart paralysis!<br /><br />Dickson</span><br /></span>dicksonhttp://www.blogger.com/profile/17830822212067174338noreply@blogger.com0tag:blogger.com,1999:blog-317673768158388788.post-31269215834491505282007-07-30T12:31:00.000-04:002007-08-02T08:47:59.303-04:006th Week in PlasticsOn Monday morning I attended the weekly resident talk. Later that day I went to Dr. Spector's office hours where I both observed and aided in patient care. Through the previous weeks I have been able to learn where much of the necessary devices and supplies are stored in the offices which enables me to better help Dr. Spector as he cares for the patients. The same patient I have spoken of before came in for a V.A.C. change as he does each week. The abdominal wound has made great progress in my time here. The first time I saw this patient his wound was 1.5-2" and extended about 7" long to about 5" wide at the widest point. The wound was pear shaped. Over the past weeks the wound has decreased to about 4" long and about 3" wide. <a onblur="try {parent.deselectBloggerImageGracefully();} catch(e) {}" href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEisymhcgBej87L8IdH3wx6MxwrWgEN1OvUmJt0sZXcNxpewHf_BqqH9YXC6vbAuL_nE13fOTB1omWWzowzlp-R0BJlVYFEaa6Am30sytfv6JX_uTvvNctoVA9sLlTvmno-p3P2cQGCXkUFy/s1600-h/VAC.bmp"><img style="float:left; margin:0 10px 10px 0;cursor:pointer; cursor:hand;" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEisymhcgBej87L8IdH3wx6MxwrWgEN1OvUmJt0sZXcNxpewHf_BqqH9YXC6vbAuL_nE13fOTB1omWWzowzlp-R0BJlVYFEaa6Am30sytfv6JX_uTvvNctoVA9sLlTvmno-p3P2cQGCXkUFy/s200/VAC.bmp" border="0" alt=""id="BLOGGER_PHOTO_ID_5094083373255319554" /></a>The depth of the wound has decreased dramatically to about .5" deep. It is interesting to me that with a simple V.A.C. dressing the body is able to close over such a large open wound by itself. This week I helped in changing the V.A.C. dressing. First, we remove the old dressing and Dr. Spector cuts out in dead tissue as this will not help in wound closure. After debriding the wound, we place gauze in the wound and soak with Dakin's Solution. This is a aseptic solution for cleaning wounds what is made of sodium hypochlorite and boric acid (4 %). We allow the patient to sit our the 'rinse cycle' for a few minutes while the wound is soaked in Dakin's. Then we remove the soaked gauze and dry off the wound. The standard oval shaped black sponge is then cut to fit the wound. Often the doctor will cut the sponge half thickness and then cut out the pattern of the wound. This helps to keep the healthy tissue surrounding the wound health and increase drainage from the wound while promoting the granulation of the wound bed. A picture (from www.kci.com) is shown that pictorially shows how the fluid in the wound bed is able to exit through the black sponge and the vacuum is able to help in wound closure. Now that the patient has seen the wound closure capabilities of the V.A.C. and the wound has greatly decreased in size, there are now other options for closure of the wound. Because the patient has also lost weight over this time period, it may be possible to simply elevate the tissue on either side and close the wound. By leaving the V.A.C. on for a few more weeks, this would certainly be possible. It would also be possible, to put a skin graft over the wound to close it. As of now, the patient has opted to keep the V.A.C. dressing on and continue to allow the wound to make progress this way.<br /><br />Additionally, this week I was able to attend a unilateral mastectomy. The patient has breast cancer in her right breast and decided that removing the breast was the best option. Dr. Spector counseled her on the different reconstruction techniques that can be used and allowed her to decide what would be best for her. The two main options are to complete an reconstruction by removing a portion of her abdomen and forming a breast from that or by simply placing a tissue expander in after the breast is removed. An example of a tissue expander is shown in the image on the right. <a onblur="try {parent.deselectBloggerImageGracefully();} catch(e) {}" href="http://www.mentorcorp.com/breastsurgery/images/big-products/cpx-products.jpg"><img style="float:right; margin:0 0 10px 10px;cursor:pointer; cursor:hand;width: 200px;" src="http://www.mentorcorp.com/breastsurgery/images/big-products/cpx-products.jpg" border="0" alt="" /></a>With the first option, the procedure is called a free flap where tissue is taken from one part of the body and used in another, but it is moved with its own blood supply and hooked into the blood supply around the new site. For the tissue expander, the expander is placed under the muscle and slowly expanded by adding saline ever few weeks until the desired size is reached. Once the size is correct, implants are placed. In either case, addition surgery is required to reconstruct the nipple. In the OR, first the breast team comes in and removes the cancerous breast. The day prior to the surgery, the patient is injected with a dye which then accumulates in the nodes, which can easily be seen during surgery. An incision is made around the areola and then the skin is elevated off of the underlying breast tissue. The nipple and breast tissue are then removed. The nodes are then removed and sent to pathology. Frozen sections are taken and the surgery team is informed whether the cancer is present in the nodes. The sentinel lymph node is specifically checked. This is an indication as to whether the cancer has spread to other parts of the body. Once the breast team has finished, the plastics people come to the OR and begin the reconstruction. The tissue expander is placed under the muscle with a small amount of saline in it. For the next few months the patient will come in periodically to have more saline injected into the expander. The port on the expander is labeled with a magnet so that Dr. Spector can use a magnet externally to locate the port.Emilyhttp://www.blogger.com/profile/06900434177337546502noreply@blogger.com0tag:blogger.com,1999:blog-317673768158388788.post-26951990950877858012007-07-30T11:49:00.000-04:002007-08-03T11:49:56.483-04:00Laparoscopic Surgery -- Removing Sigmoid Colon<p class="MsoNormal"><span style="font-family: "Times New Roman";" lang="EN-US">This week I have a chance to observe Dr. Milson performs a laparoscopic surgery.<span style=""> </span>When I entered the operation room, the surgery is already started.<span style=""> </span>Everyone was pretty relaxed.<span style=""> </span>The patient was lying on the operating table “sounds asleep”, while Dr. Milson was cracking joke and directing the residents what to do.<span style=""> </span>When I walked close to the operating table, I saw there were various long rod-shaped surgical tools sticking from the abdomen of the patient’s body.<span style=""> </span>Three physicians were holding these various surgical tools and watching the screen in front of them.<span style=""> </span>One thing stand out is that the patient’s abdomen is swell like a balloon.<span style=""> </span>Later I found out that in this kind of laparoscopic surgery, the abdomen is usually inflated with CO<sub>2</sub>, so the physicians have more room to work with.<span style=""> </span>When I looked up at the screen, u can see all the guts of the patient.<span style=""> </span>Also u can see the ends of the long surgical tools.<span style=""> </span>Several of them are small clamps that use to hold different tissues.<span style=""> </span>One scissor shaped tool is use to cut the connective tissue away from the sigmoid colon.<span style=""> </span>It not only function as a scissor, but has some kind of heating mechanism that will seal the wound from the cutting so not much blood came out.<span style=""> </span>It was quite amazing to see that how three physicians can work cooperatively to remove all the connected tissues from the sigmoid colon.<span style=""> </span>Since it is already hard to maneuver using these long tools, and two people have to hold the tissue in place, so the other physician and cut them away from the colon.<span style=""> </span>After the sigmoid colon is completely remove from the rest of the connective tissue, the doctor took the whole thing out from one of the incision of the body, and cut away the disease part.<span style=""> </span>Then he used a special stable gun to join back the colon and the rectum.<span style=""> </span>Finally, one of the residents performed a leak test to assure the colons are joined completely.<span style=""> </span><o:p></o:p></span></p> <p class="MsoNormal"><span style="font-family: "Times New Roman";" lang="EN-US"><span style=""> </span>The whole procedure took about an hour and half, which is longer compared to traditional open surgery.<span style=""> </span>However, there are several advantages.<span style=""> </span>First, since only several small incisions are made during surgery, the recovery time will be shorter.<span style=""> </span>Furthermore, blood loss will be minimal.<span style=""> </span>One thing is quite remarkable in this type of surgery is the design of these various surgical tools used in the surgery.<span style=""> </span><o:p></o:p></span></p>kanghttp://www.blogger.com/profile/01579612283576456189noreply@blogger.com0tag:blogger.com,1999:blog-317673768158388788.post-56542966781900824482007-07-30T11:47:00.000-04:002007-08-03T11:49:09.150-04:00Electrophysiology Lab<p class="MsoNormal"><span style=";font-family:";" lang="EN-US">This week I went to electrophysiology (EP) lab in cardiology.<span style=""> </span>In this laboratory, I mainly observed two procedures: implantation of a artificial pacemaker and Electrophysiology study.<span style=""> </span><o:p></o:p></span></p> <p class="MsoNormal"><span style=";font-family:";" lang="EN-US"><span style=""> </span>The artificial pacemaker is a programmable device that generates electrical impulse to the heart to regular heart beats.<span style=""> </span>The electrical signal is delivered by electrodes contacting the heart muscles.<span style=""> </span>Usually people need a pacemaker when their own natural pacemaker is not working properly.<span style=""> </span>When I first entered the EP Lab, they made me wear this 60 pounds lead to prevent radiation from the x-ray.<span style=""> </span>It is quite tiring even wearing it for an hour, I must say quite admired these doctors are able to wear them all day long and perform operations.<span style=""> </span><o:p></o:p></span></p> <p class="MsoNormal"><span style=";font-family:";" lang="EN-US"><span style=""> </span>The procedure itself is actually quite simple.<span style=""> </span>The physician made a small incision on the right side of the upper chest, and then he threaded two special wires (in which the proximal tip contains an electrode) into the body and place the electrode near the heart muscle.<span style=""> </span>Then he asked the assistant to generate different electrode signals through the wires and watch the pattern on the ECG.<span style=""> </span>Then he adjusted the placement of the wires and repeated the signal generation several time till he got the desired ECG signals he wanted.<span style=""> </span>Finally, he obtained a pacemaker and connected the wires into it and put the small device near the incision area.<span style=""> </span>Then he secured the device under the skin and sewed up the wound.<span style=""> </span>After the implantation is done, the physician went to a computer and remotely programmed the device.<span style=""> </span><span style=""> </span><o:p></o:p></span></p> <p class="MsoNormal"><span style=";font-family:";" lang="EN-US"><span style=""> </span>From talking with the physician, I found out that these peacemakers generally last 5 to 10 years depending on the condition of the patient.<span style=""> </span>Some patients like the one he just operated on only require pacing at certain time, but some other patients require the artificial pacemaker to work all the time.<span style=""> </span><o:p></o:p></span></p> <p class="MsoNormal"><span style=";font-family:";" lang="EN-US"><span style=""> </span>The second type of procedure is an electrophysiology (EP) study.<span style=""> </span>Normally, electricity flows throughout the atria first and then pause for a moment before the electric signal is propagate to the ventricles through the atria-ventricular (AV) node.<span style=""> </span>The electrical signal brings about heart muscle contraction.<span style=""> </span>The orderly pattern guarantees that the heart pumps blood efficiently.<span style=""> </span>Whenever something wrong along the electrical conduction system, it causes a heart rhythm disturbance (termed arrhythmia), which will leads to inefficient pumping of the blood out to the body.<span style=""> </span>The reason for an EP study is to find out the cause of such arrhythmia.<span style=""> </span>Usually during an EP study, wires are placed on the sinus node (natural pacemaker), one on the AV node and one on the bundle of His (which is the wire that sends signal from AV node to the rest of ventricles).<span style=""> </span>They also place several wires on the ventricles and atriums depending on situation.<span style=""> </span>Then they will generate electrical signal on different places, and observed the corresponding signal recorded elsewhere to try to figure out the cause of the arrhythmia.<span style=""> </span><o:p></o:p></span></p>kanghttp://www.blogger.com/profile/01579612283576456189noreply@blogger.com0tag:blogger.com,1999:blog-317673768158388788.post-48825634052362006962007-07-29T16:53:00.000-04:002007-07-29T17:33:39.765-04:00Vascular Research<p align="justify"><strong>Vascular Surgery<br />Week 6</strong><br /><br /><strong><span style="color:#990000;">Vascular Research Project</span></strong><br /><br />My research project looks at the outcomes of vascular procedures in women. My surgeon mentor and others think that there may be a relationship between the outcomes of vascular procedures and hormone replacement therapy (HRT), osteoporosis, and menopause. “Outcome” is defined as patency—that is whether or not a vessel is open at a follow-up visit after surgery. After writing a script that was approved by the surgeons in charge, I called a list of about 300 elderly female patients (average age = 76) to ask them about HRT, osteoporosis, and menopause. Awesome!<br /><br /><strong><span style="color:#990000;">The Patients</span></strong><br /><br />Some women were surprisingly sharp and inquisitive and really opened up to me over the phone. The responses were understandably colorful—if the patient felt better they exalted their surgeon while some patients with poor outcomes told me they had found new surgeons and hospitals entirely. Often the same surgeon was regarded in both positive and negative ways. This is understandable considering the variable difficulty in treatment that occurs between patients and procedures.<br /><br />One thing that surprised me was that patients were very willing to open up to me over the phone—I heard some fascinating life stories. Alternatively some patients would not talk to me at all—they didn’t trust that I was calling from New York Presbyterian Hospital and requested a written questionnaire while others could only speak in Spanish. Other difficulties like disconnected telephone numbers and no answers left the respondents to about 30%. From these patients I got some interesting data regarding patency, HRT, and osteoporosis—<em>really</em> interesting data…that I can’t show you here because it might get published! Stay Tuned!</p>Joehttp://www.blogger.com/profile/09273230669132134374noreply@blogger.com0tag:blogger.com,1999:blog-317673768158388788.post-68700162555900724772007-07-29T16:49:00.001-04:002007-07-29T17:15:05.900-04:00Two anastomosis devicesIn the last blog entry, I generally described the procedure of colectomy and making a J-pouch. In this entry, I want to introduce two important surgical devices that are used during this operation.<br /><br /><a onblur="try {parent.deselectBloggerImageGracefully();} catch(e) {}" href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEhRXA_5McMwZ0hOj4H3L9UnHu2-ndrU2IInbBQqHpfcll27C9RIGhhaublXqBkINOj7expo43DKKo-v5KxZvzcsXSqo-YqhxY0JBbYZX9e22rLGDy-sMTuzqy2M0L9f8XAbGoQ6nUr4ZSxk/s1600-h/final2.jpg"><img style="margin: 0px auto 10px; display: block; text-align: center; cursor: pointer;" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEhRXA_5McMwZ0hOj4H3L9UnHu2-ndrU2IInbBQqHpfcll27C9RIGhhaublXqBkINOj7expo43DKKo-v5KxZvzcsXSqo-YqhxY0JBbYZX9e22rLGDy-sMTuzqy2M0L9f8XAbGoQ6nUr4ZSxk/s400/final2.jpg" alt="" id="BLOGGER_PHOTO_ID_5092730286744915650" border="0" /></a><br />The first question is how to remove the colon. The magic gadget is called GastroIntestinal Anastomosis (GIA) device, which has two functionalities. First, it’s a cutting device that cut a piece of colon into two, as Shown in Fig. 1. At the same time, in order to prevent bleeding, it sutures the two edges of the cut simultaneously, as in Fig. 2. Two stagger rows of staples will be fired when the surgeon push the middle hidden blade to cut the colon. In this way, the entire colon can be removed easily and safely.<a onblur="try {parent.deselectBloggerImageGracefully();} catch(e) {}" href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEhJ4SVwp10DYitZ4XWxgj3_oKc7sHf9S33gRqIJ3rGzpTffgJTvaydaR7qMO9ofApkm1NZIz4ohIYO4XPKR7P8aokoAzyItQajH1luWc5DflXwMrGvaLjhyx-H6ZRE6CO1IElAwTRS1SJyc/s1600-h/imageServer-5.jpeg"><img style="margin: 0px auto 10px; display: block; text-align: center; cursor: pointer; width: 300px; height: 162px;" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEhJ4SVwp10DYitZ4XWxgj3_oKc7sHf9S33gRqIJ3rGzpTffgJTvaydaR7qMO9ofApkm1NZIz4ohIYO4XPKR7P8aokoAzyItQajH1luWc5DflXwMrGvaLjhyx-H6ZRE6CO1IElAwTRS1SJyc/s320/imageServer-5.jpeg" alt="" id="BLOGGER_PHOTO_ID_5092729217298058930" border="0" /></a>The second question is how to connect the remaining part to the anal control muscle. This is more complicated. The End-to-End Anastomosis device has a detachable anvil at the distal end. To operate, the surgeon needs to put the anvil inside the remaining intestine and the EEA through the anus. Since both the anvil and EEA device have pointed piercing structure, they can connect to each other. After they are connected, squeeze the trigger to make a circular cut and anastomosis at the same time. Therefore, the remaining intestine is safely connected to the control muscle. After pull the entire device out from the anus, this step is finished.<br /><a onblur="try {parent.deselectBloggerImageGracefully();} catch(e) {}" href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEgBEMe4j9_EUNIZcAVQECYAw3cW51x4Oizuld-Dp6qPqL9gAKdo1uaB-Ub6swEa8ojVUnjPchTEWQ6MCOVUdh4a6BHFzqTQwCWhI3gNzAnTUrxMJu2uz3PJNmuaTo_ug1NOiPS_Kz_d8Ev_/s1600-h/final.jpg"><img style="margin: 0px auto 10px; display: block; text-align: center; cursor: pointer;" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEgBEMe4j9_EUNIZcAVQECYAw3cW51x4Oizuld-Dp6qPqL9gAKdo1uaB-Ub6swEa8ojVUnjPchTEWQ6MCOVUdh4a6BHFzqTQwCWhI3gNzAnTUrxMJu2uz3PJNmuaTo_ug1NOiPS_Kz_d8Ev_/s400/final.jpg" alt="" id="BLOGGER_PHOTO_ID_5092729097038974626" border="0" /></a><br /><a onblur="try {parent.deselectBloggerImageGracefully();} catch(e) {}" href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEi2WNvblD72V9xF0OSRKj3VQrBmhYDpVCPCx4hxoST1Rl-YYW4ls-DgrK8gy9wV6q54VDWzsmG8aV1RNQn0g-iVbmAH2oTkQiUY4KfNq4ObpibEXeX5y5Hh4ayftnYSN2eH0UurvksB3Iw2/s1600-h/imageServer-3.jpeg"><br /></a>Tian Liuhttp://www.blogger.com/profile/03741775805826288565noreply@blogger.com1tag:blogger.com,1999:blog-317673768158388788.post-62676058439152679972007-07-29T15:21:00.000-04:002007-07-29T16:34:11.390-04:00A variety this week...This past week, I participated in a variety of activities. However, I mainly concentrated on completing my research project for the program. My project consists of removing motion artifacts from data acquired from a clinical study. This investigation involved a epiltptic patient who had suffered from seizures for more than 12 years. Anti-epileptic drugs were not effective and the patient's last resort was to have the epileptic tissue removed from her brain. Prior to the resection, the lab that I am working for wanted to study the effects of electrical stimulation on blood flow and hemoglobin concentration of epileptic tissue. To see changes in blood flow and hemoglobin concentration, we utilized the intrinsic optical signal. What this means is that at certain wavelengths, changes in absorption or reflection correlates to changes in blood flow and hemoglobin. In this case, 570nm and 610nm were used to observe changes in blood flow and hemoglobin, repspectively. In addition to the intrinsic optical signal, we also wanted to see the resultant electrical activity due to stimulation. In order to do so, my clinician placed two sets of surface electrodes, one for stimulation and one for recording resultant electrical activity. A footplate was placed above the elecrodes to help keep the brain in place, to reduce motion artifacts as much as possible. The tissue was stimulated at different frequencies (10, 50, 100 and 250 Hz) and at a constant charge. My job in this whole study is to remove motion artifacts seen in the optical data. I was mainly manpower for the project. The code was already written, but I was the poor subject who had to filter 34 sets of data. At this point I have completed all the sets and am going to get ready to analyze what the results mean. Ultimately, far down in time, I believe this would like to be a therapy for epileptic patients in order to help the damage tissue by reducing seizure activity. It is somewhat unclear to me at this point, but I will hopefully have it clarified in my last week here. <br /><br />Outside the lab, I was able to observe a mastectomy with my homegirl Emily and my main man, Campolongo. The patient has cancer in her right breast and they were going to remove the breast tissue. I was amazed at how much tissue they took out. The next steps were to place an "expander" below here pectoral muscle for her future implant in a later surgery. Then within a couple months, she would have to undergo another surgery to have her nipple reconstructed. I had no idea that the whole process would take 3 operations. Another interesting procedure we got to see was how they determine what lymphnodes were more likely for infiltration. Apparently lymphnodes are most likely place for cancer to spread to. Prior to the surgery, a blue dye and a radio isotope is injected into the patient. I believe that is specific to the lymphnodes to areas surrounding the breast tissue. The blue dye is used to help the clinician find them. The radio isotope is used to determine how "hot" they are. From what I got, the hotter they are implies that they are more vascularized and more prone for cancer infiltration. However, the reading has no indication on whether the cancer has metastasized or not. <br /><br />Next week I plan on joining Dr. Frayer and my main man Campolongo to observe little babies. Giddy up! Till then, I say "Good day!"John Nguyenhttp://www.blogger.com/profile/11642258423961913723noreply@blogger.com0tag:blogger.com,1999:blog-317673768158388788.post-9841431800908194632007-07-27T16:00:00.000-04:002007-07-27T16:57:09.887-04:00Rounds in Different ICUs, and the Horrible Monster that Haunts My Dreams<em>Rounds in 3 ICUs</em><br /><div>So far I have spent time in three different ICUs: neonatal, pediatric, and medical. The ways patients are handled in the NICU and PICU are different, though the underlying structure of each unit is very much the same. The kids in the PICU can potentially have a much wider range of problems than those in the NICU, such as developmental disabilities and cancer. One of the patients in isolation was thought to have tuberculosis, while a 1-year old girl was suffering from severe scoliosis. The way the units are organized, however, is quite similar. Going on rounds with Dr. Kutko and her team was reminiscent of Dr. Frayer's team: the morning was spent going to see each patient and occasionally meeting with a surgeon to discuss surgery.</div><br /><div>The organization sort of fell apart when I went to the medical ICU. If I had to describe it in one word, it would be "chaotic."Prior to rounds, the residents and fellows meet to discuss each patient. I often heard talk about terminally ill patients, many of which have cancer. Once the rounds begin (which is usually never on schedule), we would meet Dr. Berlin. The conditions of the patients we would meet were generally much worse than anything I'd seen in the other ICUs, and each discussion would be more involved with much more data to consider. At times, Dr. Berlin had other obligations, so he would often leave us and let one of the fellows take charge. It was an interesting (and fast paced) experience, though somewhat depressing to think that some of the patients I saw may not have much longer.</div><div></div><br /><div><em>Error Messages</em><br />I am trying to write a Matlab program that can generate a two-dimensional airway model of the lungs, turn it into a mesh, and then export it in a form that is readable by Fluent. Right now, the hard part is trying to make it readable. Trying to reverse engineering the Fluent .msh file format is proving to be the bane of my existence. Instead of showing results, I chose to show the error message that I keep getting and a picture of a monster. If the error message had a representative monster, this is what it would look like.</div><div> </div><img id="BLOGGER_PHOTO_ID_5091975706522036674" style="DISPLAY: block; MARGIN: 0px auto 10px; CURSOR: hand; TEXT-ALIGN: center" alt="" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEjbA7SjZ-2519M8nAEIt6TyuiiXq6eDaDZ7hbTRWRZkMMnypYNzWYMcnWC9AHKPOmwfrTX2WqPURyim7MGCpU1x3tyMAtzT6DBmlxDEbSv_mlIzepKMjLuyQn24wpptghduRXJLKIgunEuD/s400/monster.bmp" border="0" />Mikehttp://www.blogger.com/profile/07353947786308147924noreply@blogger.com1tag:blogger.com,1999:blog-317673768158388788.post-90963370025041067812007-07-26T22:52:00.000-04:002007-07-27T11:17:58.431-04:00Ladies and Gentlemen, the results are in...Still no word from the movers. Well, there goes my entire apartment deposit. But, that affords me some more time to type out a blog entry on a cell phone dial pad! T9 makes every sentence seem so much more epic...<br /><br />Unfortunately, I am unable to post the graphs from the preliminary data analysis, but it appears that the automatic segmentation algorithm lies somewhere between the phase contrast analysis and the manual segmentation. The manual segmentation tends to overestimate when compared to the other techniques, while the PC flow analysis tends to underestimate. Furthermore, the relation between all three is relatively linear, as indicated by a high correlation (0.95 or greater between any two of the three techniques) and a high level of confidence in the zero intercept inear regression.<br /><br />And perhaps of the greatest importance, the technique demonstrates a "high degree of accuracy," as indicated by Dr. Weinsaft, when used to evaluate the cadiac metrics of subjects with Left Ventricle Disfunction (those who eject only a small portion of their blood in each cardiac cycle, on the order of 25% when compared to normal function of 50 or greater.) This has traditionally been one of the most time consuming<br />scenarios for a clinician to evaluate, so the time saving benefits from this automatic segmentation stand to be quite considerable.<br /><br />Admittedly, the data set is still somewhat small (just 20 fully completed cases with an eventual target of 50 to 100). But the trends are already beginning to show. The next step, other than validation with more data sets, is to reconsider the design of the algorithm. As I mentioned before, which technique is more accurate? Phase contrast analysis or manual segmentation? Further, should the algorithm even emulate these techniques or should the design process be independent of other techniques? Perhaps a "true" measure should be experimentally derived using experimentation somehow?<br /><br />The logistical hurdles of obtaining the truth are considerable. But for now, we are fairly convinced that the automatic segmenter operates consistly between the phase contrast measure and the magnitude measure, both of which are valid and widely used techniques in the clinical world.Unknownnoreply@blogger.com0tag:blogger.com,1999:blog-317673768158388788.post-4299825898477383682007-07-26T12:07:00.000-04:002007-07-26T13:29:55.803-04:00Open CholecystectomyOver the past week I have observed many, many operations, some of which have been previously blogged before. One operation that hasn't been blogged is Cholecystectomy which is the surgical removal of a gallbladder. This procedure is typically necessary when there are gallstones occluding the gallbladder duct/cystic duct or severe inflammation of the gallbladder(cholecystitis). These gallstone could potentially cause the gallbladder to swell and ultimately rupture. Some of the symptoms including sharp abdominal pain and nausea. For the case that I observed, gallbladder was severely inflamed and was suspected to be cancerous which necessitated an open cholecystectomy instead of a laparoscopic cholecystectomy.<br /><br /><span style=""><!--[if gte vml 1]><v:shapetype id="_x0000_t75" coordsize="21600,21600" spt="75" preferrelative="t" path="m@4@5l@4@11@9@11@9@5xe" filled="f" stroked="f"> <v:stroke joinstyle="miter"> <v:formulas> <v:f eqn="if lineDrawn pixelLineWidth 0"> <v:f eqn="sum @0 1 0"> <v:f eqn="sum 0 0 @1"> <v:f eqn="prod @2 1 2"> <v:f eqn="prod @3 21600 pixelWidth"> <v:f eqn="prod @3 21600 pixelHeight"> <v:f eqn="sum @0 0 1"> <v:f eqn="prod @6 1 2"> <v:f eqn="prod @7 21600 pixelWidth"> <v:f eqn="sum @8 21600 0"> <v:f eqn="prod @7 21600 pixelHeight"> <v:f eqn="sum @10 21600 0"> </v:formulas> <v:path extrusionok="f" gradientshapeok="t" connecttype="rect"> <o:lock ext="edit" aspectratio="t"> </v:shapetype><v:shape id="_x0000_i1025" type="#_x0000_t75" style="'width:405pt;"> <v:imagedata src="file:///C:\DOCUME~1\dk322\LOCALS~1\Temp\msohtml1\01\clip_image001.png" title=""> </v:shape><![endif]--><!--[if !vml]--><!--[endif]--></span><a onblur="try {parent.deselectBloggerImageGracefully();} catch(e) {}" href="http://1.bp.blogspot.com/_aJeCIrKK3os/RqjQFlZALPI/AAAAAAAAAEs/cqG27DVfyvo/s1600-h/Gallbladder.jpg"><img style="cursor: pointer; width: 478px; height: 313px;" src="http://1.bp.blogspot.com/_aJeCIrKK3os/RqjQFlZALPI/AAAAAAAAAEs/cqG27DVfyvo/s320/Gallbladder.jpg" alt="" id="BLOGGER_PHOTO_ID_5091548173097250034" border="0" /></a><div style="text-align: right;"> http://www.doereport.com/displaymonograph.php?MID=93<br /><div style="text-align: left;"><br /><span style="font-size:130%;"><span style="font-weight: bold;"> Laparascopic Cholecystectomy <br /></span></span><div style="text-align: left;"><a onblur="try {parent.deselectBloggerImageGracefully();} catch(e) {}" href="http://4.bp.blogspot.com/_aJeCIrKK3os/RqjX4VZALTI/AAAAAAAAAFM/w-P63-DI6t4/s1600-h/Gallbladder1.jpg"><br /></a></div></div></div><div style="text-align: left;"><span style=""><!--[if gte vml 1]><v:shapetype id="_x0000_t75" coordsize="21600,21600" spt="75" preferrelative="t" path="m@4@5l@4@11@9@11@9@5xe" filled="f" stroked="f"> <v:stroke joinstyle="miter"> <v:formulas> <v:f eqn="if lineDrawn pixelLineWidth 0"> <v:f eqn="sum @0 1 0"> <v:f eqn="sum 0 0 @1"> <v:f eqn="prod @2 1 2"> <v:f eqn="prod @3 21600 pixelWidth"> <v:f eqn="prod @3 21600 pixelHeight"> <v:f eqn="sum @0 0 1"> <v:f eqn="prod @6 1 2"> <v:f eqn="prod @7 21600 pixelWidth"> <v:f eqn="sum @8 21600 0"> <v:f eqn="prod @7 21600 pixelHeight"> <v:f eqn="sum @10 21600 0"> </v:formulas> <v:path extrusionok="f" gradientshapeok="t" connecttype="rect"> <o:lock ext="edit" aspectratio="t"> </v:shapetype><v:shape id="_x0000_i1025" type="#_x0000_t75" style="'width:198pt;"> <v:imagedata src="file:///C:\DOCUME~1\dk322\LOCALS~1\Temp\msohtml1\01\clip_image001.png" title=""> </v:shape><![endif]--><!--[if !vml]--><!--[endif]--></span></div><a onblur="try {parent.deselectBloggerImageGracefully();} catch(e) {}" href="http://2.bp.blogspot.com/_aJeCIrKK3os/RqjWX1ZALRI/AAAAAAAAAE8/guk3Djku778/s1600-h/Gallbladder1.jpg"><img style="cursor: pointer; width: 214px; height: 200px;" src="http://2.bp.blogspot.com/_aJeCIrKK3os/RqjWX1ZALRI/AAAAAAAAAE8/guk3Djku778/s320/Gallbladder1.jpg" alt="" id="BLOGGER_PHOTO_ID_5091555083699629330" border="0" /></a><div style="text-align: right;"><img src="file:///C:/DOCUME%7E1/dk322/LOCALS%7E1/Temp/moz-screenshot.jpg" alt="" /><img src="file:///C:/DOCUME%7E1/dk322/LOCALS%7E1/Temp/moz-screenshot-1.jpg" alt="" /><img src="file:///C:/DOCUME%7E1/dk322/LOCALS%7E1/Temp/moz-screenshot-2.jpg" alt="" /><span style=""><!--[if gte vml 1]><v:shapetype id="_x0000_t75" coordsize="21600,21600" spt="75" preferrelative="t" path="m@4@5l@4@11@9@11@9@5xe" filled="f" stroked="f"> <v:stroke joinstyle="miter"> <v:formulas> <v:f eqn="if lineDrawn pixelLineWidth 0"> <v:f eqn="sum @0 1 0"> <v:f eqn="sum 0 0 @1"> <v:f eqn="prod @2 1 2"> <v:f eqn="prod @3 21600 pixelWidth"> <v:f eqn="prod @3 21600 pixelHeight"> <v:f eqn="sum @0 0 1"> <v:f eqn="prod @6 1 2"> <v:f eqn="prod @7 21600 pixelWidth"> <v:f eqn="sum @8 21600 0"> <v:f eqn="prod @7 21600 pixelHeight"> <v:f eqn="sum @10 21600 0"> </v:formulas> <v:path extrusionok="f" gradientshapeok="t" connecttype="rect"> <o:lock ext="edit" aspectratio="t"> </v:shapetype><v:shape id="_x0000_i1025" type="#_x0000_t75" style="'width:198pt;"> <v:imagedata src="file:///C:\DOCUME~1\dk322\LOCALS~1\Temp\msohtml1\01\clip_image001.png" title=""> </v:shape><![endif]--><!--[if !vml]--><!--[endif]--></span></div><div style="text-align: left;"><br /><span style="font-weight: bold;font-size:130%;" >Gallbladder<br /><br /></span><a onblur="try {parent.deselectBloggerImageGracefully();} catch(e) {}" href="http://4.bp.blogspot.com/_aJeCIrKK3os/RqjZAVZALUI/AAAAAAAAAFU/reuQ_x6Hdkc/s1600-h/Gallbladder1.jpg"><img style="margin: 0pt 10px 10px 0pt; float: left; cursor: pointer; width: 226px; height: 158px;" src="http://4.bp.blogspot.com/_aJeCIrKK3os/RqjZAVZALUI/AAAAAAAAAFU/reuQ_x6Hdkc/s320/Gallbladder1.jpg" alt="" id="BLOGGER_PHOTO_ID_5091557978507586882" border="0" /></a><br /><br /><br /><br /><br /><br /><br /><br /><br /><br /><br />So it turns out that a gallbladder can be removed and one can lead completely normal life without one, but under diets with less fat. This is because the primary function of a gallbladder is to store bile( for fat emulsification ) secreted in the liver. Having an inflamed gallbladder adds risks to liver inflammation and inflammation to other adjacent organs such as the pancreas.<br /><br />Dickson<br /></div>dicksonhttp://www.blogger.com/profile/17830822212067174338noreply@blogger.com0tag:blogger.com,1999:blog-317673768158388788.post-16243281314486343712007-07-26T09:36:00.000-04:002007-07-26T14:17:58.229-04:00Catheter's in X-rayToday I am going to talk about the research I have done in determining catheter tip locations from chest radiographs and a little of the future work we have planned.<br /><br />As I mentioned previously, a lot of time is spent by radiologists doing intensive care unit imaging to make sure that every tube, line, and catheter is where it is supposed be. This is because if they aren't, complications and even death can occur. For example, its very important that feeding tubes end up in the stomach and not down one of the bronchi before you try to feed someone. But these reads are very time consuming, both in per scan rate and number of scans to read. So my research is focused on developing a method of computer aided detection of the tips, so that we at the very least can reduce the workload of the radiologists, which would further result in an increase in efficiency and throughput.<br /><br />The first thing we looked at was that catheters were synthetic objects. They are basically tube with the ends cut off (kind of like a straw). This means that<br />1) The profile is consistent along its length<br />2) The profile of the object can known a priori<br />3) Intensity variations can be explained by<br />But we needed to verify the assumption so we took sample profiles along the length and got the graph below.<br /><br /><a onblur="try {parent.deselectBloggerImageGracefully();} catch(e) {}" href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEg1CyIs28qMrlW3SAmfXdjUIk2nBbpl1DJb4KC9YeyayGLiDeuJqksUHuBYs_5DnNIelQJ5g8ixIpt9LWOidKUn5nLsIcd1bhVxKdx4ETnKgglnp71OjdwVJhlhyTX7QlWJuVdIQXV1JyuM/s1600-h/Prof+Pic.png"><img style="display:block; margin:0px auto 10px; text-align:center;cursor:pointer; cursor:hand;" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEg1CyIs28qMrlW3SAmfXdjUIk2nBbpl1DJb4KC9YeyayGLiDeuJqksUHuBYs_5DnNIelQJ5g8ixIpt9LWOidKUn5nLsIcd1bhVxKdx4ETnKgglnp71OjdwVJhlhyTX7QlWJuVdIQXV1JyuM/s400/Prof+Pic.png" border="0" alt=""id="BLOGGER_PHOTO_ID_5091571241883271570" /></a><br /><br />The profiles had roughly the same added attenuation at each point, the baseline is what mainly changed. So we are good to go on that front.<br /><br />Taking into account the synthetic nature of the catheters, we developed a way to generate profiles automatically. These profiles are then matched from points outside the body to the tip, until no more evidence is found. We used normalized cross-correlation because it allowed for matching to occur regardless of intensity variations. Doing this progressive matching gave us results like the image below.<br /><br /><a onblur="try {parent.deselectBloggerImageGracefully();} catch(e) {}" href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEhfMuxQJoeopHa7La3y6lneMj6-k0T1s5iBXE9Ew-LF7xh3gimucDu12PZuaHJ2GMiFO6VEtGm5YoNw7mIrQm9pIFgpNDSObRfP3eyyOXb2PYAeaSVF15spuD7rt6MtMmJdy0fYeAY39QTu/s1600-h/Track+Pic.png"><img style="display:block; margin:0px auto 10px; text-align:center;cursor:pointer; cursor:hand;" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEhfMuxQJoeopHa7La3y6lneMj6-k0T1s5iBXE9Ew-LF7xh3gimucDu12PZuaHJ2GMiFO6VEtGm5YoNw7mIrQm9pIFgpNDSObRfP3eyyOXb2PYAeaSVF15spuD7rt6MtMmJdy0fYeAY39QTu/s400/Track+Pic.png" border="0" alt=""id="BLOGGER_PHOTO_ID_5091571383617192354" /></a><br /><br />Not bad for proof of concept, right?<br /><br />Luckily, I got to see many of the steps in how the images I am working with were acquired. This is actually quite helpful in knowing all the potential problems that the algorithm might need to deal with. I also spent time gathering data so that I have a larger set to work with. We are also planning on generating synthetic dataset next week to try out other methods of more direct detection.Bradhttp://www.blogger.com/profile/15243527840908535539noreply@blogger.com0tag:blogger.com,1999:blog-317673768158388788.post-6267375156342493732007-07-26T02:26:00.000-04:002007-07-26T04:35:19.278-04:00CFD in Coronay Arteries: Part 1<span>For the past few weeks, I've been trying to develop a software that will be able to quantify the vulnerability of a plaque to rupture. As I mentioned before, no software in the market today is capable of extracting such information from CTA - this is my motivation. Nevertheless, no matter how motivated I am, it is not possible for me to develop such a software in a month; this is far beyond my capabilities. As a result, I broke the project up into four parts: Part 1, segment the lumen of the coronary arteries using CTA data; Part 2, discretize the boundaries into small cells to form a volume mesh or grid; Part 3, apply Navier-Stokes equations to solve the equations of motion; and finally, Part 4, validate simulation and develop a turbulence index to quantify the vulnerability of a particular lesion or plaque.<br /><br /><span style="color:#660000;">Part 1: Segmentation </span><br /><br />Thus far, I've only been able to complete part 1 (figure). Basically, I have created an interface that allows one to load CTA data, preprocess the data through numerous filters, and finally, segment the arteries of interest using a region growing algorithm and/or simple thresholding. The software is far from perfect since it performs the segmenation in 2D. That is, it segments the arteries slice by slice, causing the whole process of segmentation to be slightly tedious. Nevertheless, one can use it to reconstruct arteries of interest.<br /></span><br /><br /><p><img id="BLOGGER_PHOTO_ID_5091404872189894370" style="DISPLAY: block; MARGIN: 0px auto 10px; WIDTH: 404px; CURSOR: hand; HEIGHT: 294px; TEXT-ALIGN: center" height="318" alt="" src="http://2.bp.blogspot.com/_qiAmjhXeRLI/RqhNwX6SXuI/AAAAAAAAACI/RBXq8ccn308/s400/CT_GUI.jpg" width="489" border="0" /><span><span style="color:#660000;">Part 2: Tessellation</span><br /><br />Pending... I'm trying to tessellate the segmented volume with rectangles. The following depicts the grid for a straight pipe. Although it seems simple, it is really not for odd geometries. </span><br /><img id="BLOGGER_PHOTO_ID_5091405748363222770" style="DISPLAY: block; MARGIN: 0px auto 10px; CURSOR: hand; TEXT-ALIGN: center" alt="" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEjktfqtyY9KEVV_qNr7O9uH6EIxGQ6nJYrUWlOOU-UE0bnftlctzPfa2YEXQYobPK3JGNEUe_WmKchzEZH5qUT_hi0-JSLGoWZOHm3433J0lQm-tsuZbZtrMdZu3j6FIVlPQow505YYOSDO/s400/mesh.jpg" border="0" /><span><span><span style="color:#660000;">Part 3: Computational Fluid Dynamics</span> </span></span></p><p><span><span>If I get lazy, which I probably will, I plan to use a CFD software package like FLUENT. This sophisticated software package will allow me to simulate blood flow in reconstructed arteries of interest. The following is a simulation by some company (I can't find there link so if anyone knows where this is from, post it in the comments).</span></span></p><p></p><p></p><p><img id="BLOGGER_PHOTO_ID_5091407595199160066" style="DISPLAY: block; MARGIN: 0px auto 10px; CURSOR: hand; TEXT-ALIGN: center" alt="" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEhjXSSmeDhiF2M7Fd2Hh77n2Mol0mOCo1RZR0-_s2RnBdaHwV6WFygNoAimmW8ibCwJJ7q0_Mn9pmEaduKbJvRJExM6tNTzxQn_PxNKItfJ4o-GnDAS01PNHhBXihj88zt-eVfrDtcaWNRw/s400/stenosed_artery.gif" border="0" /><span><span><span style="color:#660000;">Part 4: Validation and Index Development</span> </span></span></p><p><span><span>I will validate the simulation by comparing theoretical fractional flow reserve values to practical ones (fraction of pressure about a lesion). And if the simulation proves to be incorrect, I will change the parameters of the mesh; otherwise, I will work on an index that decodes vulnerability. </span></span></p>Unknownnoreply@blogger.com0tag:blogger.com,1999:blog-317673768158388788.post-37979818508111965392007-07-26T00:14:00.000-04:002007-07-26T00:17:36.406-04:00J-PouchAfter an entire colectomy, the large intestine and rectum are removed. About a decade ago, it was necessary to divert a piece of small intestine to an artificial opening on the abdominal wall as the exit for the output. I’ve seen patients with this operation in China. The quality of life is significantly sacrificed after the operation. I always wondered if there is another way to make the exit. This week, I saw such an operation that makes a J-pouch to give a normal life to patients.<br /><br /> The operation was done laparoscopicly. The first part was as usual. Small holes were drilled on the abdominal wall and a 7cm incision was also made below the belly button. Large intestine and rectum were removed and taken out from the incision. However, the control muscle was kept, and this is the key point of the surgery.<br /><br /><a onblur="try {parent.deselectBloggerImageGracefully();} catch(e) {}" href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEi7BOP6B0akBD4n_xtdv_i553xezfoup60aJEm32QjfXppSpNCOSNu3owiPFPEDJC2KYKOr9ULA40rIo6IY2SSKHAYflyfc7-6AM9JklZ-DYpVzLE7QRmblReWMsyA1sySnIRHasXABAWyr/s1600-h/colorectal-j-pouch.jpg"><img style="margin: 0px auto 10px; display: block; text-align: center; cursor: pointer; width: 245px; height: 237px;" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEi7BOP6B0akBD4n_xtdv_i553xezfoup60aJEm32QjfXppSpNCOSNu3owiPFPEDJC2KYKOr9ULA40rIo6IY2SSKHAYflyfc7-6AM9JklZ-DYpVzLE7QRmblReWMsyA1sySnIRHasXABAWyr/s320/colorectal-j-pouch.jpg" alt="" id="BLOGGER_PHOTO_ID_5091354801993534914" border="0" /></a><br /> After the removal of colon and rectum, the ileum was folded to form a reservoir. Later on, the bottom of the reservoir was connected to the control muscle. Sometimes, the second step requires two separate operations. After the reservoir is made, a temporary exit on abdomen is made so that the newly created reservoir isn’t in use immediately and may heal. 2 or 3 months after the first surgery, another operation closes the exit on abdomen.<br /><br /> The benefit of making a J-pouch is significant. The reservoir may store the waste until the need to have a bowel movement. The patient may have a pretty good control as normal people. It doesn’t need an external bag to store. Overall, the quality of life is enhanced.Tian Liuhttp://www.blogger.com/profile/03741775805826288565noreply@blogger.com2