AndersonG. M. (1931) One use for the Arnold coil spring, International Journal of Orthodontia, 17, 688.
2.
ArnoldE. B. and CunninghamJ. S. (1934) Coil springs as application of force, International Journal of Orthodontia, 20, 577–579.
3.
BennettJ. C. and McLaughlinR. P. (1990) Controlled space closure with a preadjusted appliance system, Journal of Clinical Orthodontics, 24, 251–260.
4.
BisharaS. E. and AndreasenG. F. (1970) A comparison of time related forces between plastic alastiks and latex elastics, Angle Orthodontist, 40, 319–328.
5.
BlechmanA. M. and SmileyH. (1978) Magnetic force in orthodontics, American Journal of Orthodontics, 74, 435–443.
6.
BoesterC. H. and JohnstonL. E. (1974) A clinical investigation of the concepts of differential and optimal force in canine retraction, The Angle Orthodontist, 44, 113–119.
7.
BondemarkL., KurolJ. and BernholdM. (1994) Repelling magnets versus superelastic nickel-titanium coils in simultaneous distal movement of maxillary first and second molars, The Angle Orthodontist, 64, 189–198.
8.
BurstoneC. J. and GrovesM. H. (1960) Threshold and optimum force values for maxillary anterior tooth, Journal of Dental Research, 39, 694.
9.
ChaconasS. J., CaputoA. A. and HarveyK. (1984) Orthodontic force characteristics of open coil springs, American Journal of Orthodontics, 85, 494–497.
10.
GACSentalloy coil spring information booklet, pp. 1–6.
11.
GianellyA. A. and GoldmanH. M. (1971) Biologic basis of orthodontics, Lea and Febiger, Philadelphia, p. 165.
12.
HanS. and QuickD. C. (1993) Nickel-titanium spring properties in a simulated oral environment, The Angle Orthodontist, 63, 67–72.
13.
JohnsonJ. E. (1934) A new orthodontic mechanism: The twin wire alignment appliance, International Journal of Orthodontia, 20, 946–963.
14.
JonesM. L. and RichmondS. (1985) Initial tooth movement: Force application and pain—a relationship?American Journal of Orthodontics, 88, 111–116.
15.
KapilaS., RiecholdG. W., AndersonR. S. and WatanabeL. G. (1991) Effects of clinical recycling on mechanical properties of nickel-titanium wires, American Journal of Orthodontics and Dentofacial Orthopedics, 100, 428–435.
16.
KapilaS., HaugenJ. W. and WatanabeL. G. (1992) Load-deflection characteristics of nickel-titanium alloy wires after clinical recycling and dry heat sterilisation, American Journal of Orthodontics and Dentofacial Orthopedics, 102, 120–126.
17.
KusterB., IngervallB. and BürginW. (1986) Laboratory and intra-oral tests of the degradation of elastic chains, European Journal of Orthodontics, 8, 202–208.
18.
Lancer Orthodontics NT power spring information leaflet
19.
McLaughlinR. P. and BennettJ. C. (1989) The transition from Standard Edgewise to preadjusted appliance systems, Journal of Clinical Orthodontics, 23, 142–153
20.
MiuraF., MogiM.OhuraY. and KaribeM. (1988) The super-elastic Japanese NiTi alloy wire for use in orthodontics, Part II. Studies on the Japanese NiTi alloy coil springs, American Journal of Orthodontics and Dentofacial Orthopedics, 94, 89–9.
21.
ProffitW. R. (1986) Contemporary orthodontics, The C. V. Mosby Co., St. Louis, p. 238.
22.
ReitanK. (1964) Effects of force magnitude and direction of tooth movement on different alveolar bone types, The Angle Orthodontist, 34, 244–255.
23.
RyanA. A. (1993) An investigation into the unloading forces of superelastic nickel titanium coil springs, Master of Science Thesis, University of London.
24.
SamuelsR. H. A., RudgeS. J. and MairL. H. (1993) A comparison of the rate of space closure using a nickel-titanium spring and an elastic module: A clinical study, American Journal of Orthodontics and Dentofacial Orthopedics, 103, 464–467.
25.
SchwarzA. M. (1932) Tissue changes incidental to orthodontic tooth movement, International Journal of Orthodontics, Oral Surgery and Radiography, 18, 331–352.
26.
SonisA. L. (1994) Comparison of NiTi coils springs vs elastics in canine retraction, Journal of Clinical Orthodontics, 28, 293–295.
27.
StaggersJ. A. and GermaneN. (1991) Clinical considerations in the use of retraction mechanics, Journal of Clinical Orthodontics, 25, 364–369.
28.
TP Orthodontics Product development leaflet- Reflex® coil springs.
29.
WebbR. I., CaputoA. A. and ChaconasS. J. (1978) Orthodontic force production by closed coil springs, American Journal of Orthodontics, 74, 405–409.
30.
WitzigJ. W. and SpahlT. J. (1987) The clinical management of basic maxillofacial orthopedic appliances, Volume l: Mechanics, P.S.G. Publishing Company Inc., Massachusetts, p. 565.
