18 ENDO NEWS Endo Tribune Asia Pacifi c Edition | 11/2016 with a cutting tip being more dangerous that a non-cutting pilot tip. While reciprocation with NiTi instruments have become very popular in recent years, with a sig- nifi cant number of published ar- ticles, some of these studies have shown that there is also inherent disadvantages in the reciprocating torque demand on the fi le, due to entrapment of debris within the fl utes. To reduce this tendency some authors have advocated the use of NiTi rotary glide path in- struments, before using a Wave- One or Reciproc instruments, but in this case the overall technique is no longer a single fi le technique but a more complex and more costly technique which utilises stant, but vary depending on the anatomical complexities and the intracanal stresses placed on the instrument. This ‘adaptive’ motion is therefore meant to reduce the risk of intracanal failure, without affecting performance, due to the fact that the best movement for each different clinical situation is automatically selected by the Adaptive motor. It is quite interest- 6 7 Fig. 6: Deep shaping. The clinical use of a second instrument (06/35) after the 08/25 signifi cantly increases the preparation in the apical one third, improving the quality of canal shaping and allowing room for enhanced irrigation. This will also al- low the use of the apical negative pressure devices such as the EndoVac to safely deliver abundant quantities of sodium hy- pochlorite to the apex without the risk of apical extrusion.—Fig. 7: M4 Safety Handpiece. movements. It is well known that a small inadvertent extrusion of debris and irrigants into the peri- apical tissues is a frequent com- plication during the cleaning and shaping procedures, both with manual stainless steel and nick- el-titanium rotary instrumenta- tion techniques.29, 30 However, re- cent studies have shown that commercially available reciprocat- ing instrumentation techniques seem to signifi cantly increase the amount of debris extruded beyond the apex31, 32 and, consequently, the risk of postoperative pain. A clini- cal study comparing Reciproc and NiTi rotary instruments has also confi rmed these fi ndings.33 Since reciprocation movement is formed by a wider cutting angle and a smaller releasing angle, while ro- tating in the releasing angle, the fl utes will not remove debris but push them apically. Reciproc and WaveOne motions are very similar (even if not precisely disclosed by manufacturers), and this fact could also explain the higher incidence and intensity of postoperative pain that has been found in recent re- search studies.33, 34 Moreover, both WaveOne and Reciproc techniques use a quite rigid, large single-fi le of increased taper (usually 08 taper, size 25), which is directed to reach the apex. In many cases, in order to reach the apical working length, reciprocat- ing instruments are used with api- cally directed pressure, which pro- duces an effective piston to propel debris through a patent apical fora- men, and possibly directing debris laterally, making canal debride- ment more diffi cult. Since instru- ments are commonly used with- out fi rst performing preliminary coronal enlargement, this may result in a greater engagement of the fi le fl utes and consequently may produce more torque and/or applied pressure on the fi le. More- over, the cutting ability of a recip- rocating fi le is decreased when compared to continuous rotation. Debris removal is also less, thus in- creasing the frictional stress and two different types of Niti instru- ments, glide path instruments and then shapers.35, 15 TF Adaptive The TF Adaptive technique has been proposed in order to maximise the advantages of re- ciprocation, while minimising its disadvantages. By using a unique, patented motion, the innovative TF Adaptive Motion technology, together with an original three-fi le technique, most clinical cases can be treated effectively and safely (Fig. 2). TF Adaptive employs a pat- ented unique motion technology, which automatically adapts to in- strumentation stress, when used in the Elements Motor while in TF Adaptive setting (Fig. 3). When the TF Adaptive instrument is not (or very lightly) stressed in the canal, the movement can be de- scribed as a continuous rotation, allowing better cutting effi ciency and removal of debris. The cross- sectional and fl ute design are meant to perform at their best in a clockwise motion. More precisely, it is an inter- rupted motion with the following CW-CCW angles: 600–0°. This in- terrupted motion is as effective as continuous rotation in lateral cut- ting, allowing optimal brushing or circumferential fi ling for better debris removal in oval canals. This interrupted motion also min- imises iatrogenic errors by reduc- ing the tendency of ‘screwing in’ (aka pull down), that is commonly seen with NiTi instruments of great taper that are used in contin- uous rotation. On the contrary, while nego- tiating the canal, due to increased instrumentation stress and metal fatigue, the motion of the TF Adap- tive instrument changes into a re- ciprocation mode, with specifi cally designed CW and CCW angles that may vary from 600–0° to 370–50° (Fig. 4). These angles are not con- As mentioned before, fl exibil- ity is a fundamental property to minimise iatrogenic errors while negotiating canals, both in recip- rocation and in continuous rota- tion. The use of a reciprocating movement, therefore, does not sig- nifi cantly help a NiTi instrument of greater taper to negotiate curved canals with no iatrogenic errors. It mainly helps to reduce instrumentation stress and the risk of intracanal failure. In addi- tion, a study aimed to compare the frequency of dentinal microcracks after root canal shaping with two reciprocating (Reciproc and Wave- One) and one combined continu- ous reciprocating motion Twisted Files Adaptive (TFA) rotary system. Ninety molars were chosen and divided into three groups of 30 each. Root canal preparation was achieved by using Reciproc R25, Primary WaveOne and TFA sys- tems. All the roots were horizon- tally sectioned at 15, 9 and 3 mm from the apex. The slices were then viewed each under a micro- scope at x 25 magnifi cation to de- termine the presence of cracks. The absence/presence of cracks was recorded, and the data were analysed with a Chi-square test. The signifi cance level was set at P < 0.05. The results found that instrumentation with Reciproc produced signifi cantly more com- plete cracks than WaveOne and TFA (P = 0.032). The TFA system produced signifi cantly less cracks then the Reciproc and WaveOne systems apically (P = 0.004). The study concluded that within the limits of this study, the TFA system caused less cracks then the full used only when a greater apical enlargement is needed due to larger original canal dimensions and/or enhanced fi nal irrigation techniques. The sequences are also different in their shaping con- cepts. Each fi le of the sequence being used is taken to full working length in a ‘crown down’ manner so that the root canal wall is in- ternally sculpted incrementally, allowing dentin debris and tissue to be evacuated coronally rather than to be pushed apically. This may reduce the risk of canal block- age and the extrusion of debris into the apical tissues. The SM 1 fi le (single colour band green, 04 taper 20 tip size) is an excellent fl exible Glide Path fi le which may be used with either sequence to pre- enlarge the canal thereby decreas- ing instrument stress for the next larger size fi le in sequence. This also allows better maintenance of the original canal trajectory (Figs. 2 & 5). The fi nal apical enlargement with a size #35 fi le is not only meant to allow the use of the Endo vac (EndoVac Kerr Endodontics, Orange, CA) irrigation technique, but to improve canal shaping by touching more canal walls. Figure 6 clearly shows how improved and deeper the apical one-third shape is when a 06 taper 35 tip instru- ment follows a 08 taper 25 tip in- strument. This is why in the ma- jority of cases two instruments are much better than a single fi le technique, provided that the sec- ond instrument is a fl exible one. The superior fl exibility allowed by the use of TF technology permits ing that the clinician will hardly perceive the differences in the changing motion, due to a very so- phisticated algorithm, which per- mits a smooth transition between the changing angles. As far as disadvantages of reciprocation are concerned, TF Adaptive motion is a reciprocating motion with cutting angles (CW angles) much greater than Wave- One/Reciproc movements. This results in the TF Adaptive instru- ment is working for a longer time with a CW angle, which allows bet- ter cutting effi ciency and removal 8 9 Fig. 8: TFTM Adaptive Technique Card. Size and Sequence Determination.—Fig. 9: EndoVac Apical Negative Pressure Irrigation System. The Master Delivery Tip (MDT) accommodates different sizes of syringes fi lled with irrigant, the macro cannula is attached to the autoclavable aluminum hand piece and the micro cannula is attached to an autoclavable aluminum fi nger piece. The macro cannula, the micro cannula and the MDT are connected via clear plastic tubing. The tubes are connected to the high volume suction of the dental chair via the Multi-Port Adaptor. of debris (and less tendency to push debris apically and laterally), because the fl utes are designed to remove debris in a CW rotation. This results in TF Adaptive taking advantage of the use of a motion that is more similar to continuous rotation for optimal debris re- moval. There are obviously some changes in the angles depending on canal anatomy (the more com- plex, the smaller the CW angle), but they do not seem to signifi cantly infl uence the overall result. On the contrary, these changes infl uence resistance to metal fatigue, since TF instruments used with Adap- tive motion were found to have superior resistance to cyclic fatigue when compared to the same TF instruments used in continuous rotation.36 reciprocating system (Reciproc and WaveOne). Single-fi le recipro- cating fi les produced signifi cantly more incomplete dentinal cracks than full-sequence adaptive ro- tary motion.39 The TF Adaptive technique is basically a three fi le technique, designed to treat the majority of cases encountered in clinical prac- tice. Available are two sets of three fi le systems, one for small, calcify- ing and severely curved canals and one system for more ‘standard’ and larger canals, allowing ade- quate taper and increased apical preparation in both scenarios. The number of instruments within each sequence can also vary and adapt to canal anatomy, with the last instrument of the sequence TF Adaptive to follow these crite- ria, and safely enlarge canals with minimal risk of iatrogenic errors like tooth weakening and canal/ apical transportation. The use of a more rigid alloy would have not made this possible, especially in curved canals.”15 TF Adaptive technique TF Adaptive is an intuitive, color-coded system designed for effi ciency and ease of use. The colour-coded system is based on a traffi c light. The fi rst instrument in sequence is green. The second instrument in sequence is yellow and the third instrument in se- quence, if required, is red. Green means go. Yellow means continue or stop. Red means stop (Fig. 2).