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US3687135A - Magnesium-base alloy for use in bone surgery - Google Patents

Magnesium-base alloy for use in bone surgery
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US3687135A
US3687135AUS858149AUS3687135DAUS3687135AUS 3687135 AUS3687135 AUS 3687135AUS 858149 AUS858149 AUS 858149AUS 3687135D AUS3687135D AUS 3687135DAUS 3687135 AUS3687135 AUS 3687135A
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Prior art keywords
magnesium
alloy
bone
remainder
manganese
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US858149A
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Genrikh Borisovich Stroganov
Evgeny Mikhailovich Savitsky
Nina Mikhailovna Tikhova
Vera Fedorovna Terekhova
Mstislav Vasilievich Volkov
Konstantin Mitrofanovic Sivash
Vladislav Sergeevich Borodkin
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KONSTANTIN MITROFANOVICH SIVAS
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KONSTANTIN MITROFANOVICH SIVAS
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Abstract

A magnesium-base alloy for use in bone surgery which contains the following components, wt.%: Rare earth element 0.4-4.0 Cadmium 0.05-1.2 An element from the group consisting of calcium and aluminum 0.05-1.0 Manganese 0.05.05 Silver 0-0.8 Zirconium 0-0.8 Silicon 0-0.3 Magnesium remainder

Description

waited States Patent Stroganov et a1.
[54] MAGNESIUM-BASE ALLOY FOR USE IN BONE SURGERY [72] Inventors: Genrikh Borisovich Stroganov, 2
Voikovsky proezd, 1, kv. 29; Evgeny Mikhailovich Savitsky, ulitsa Dmitria Ulyanova, 3, kv. 13; Nina Mikhailovna Tikhova, Frunzenskaya naberezhnaya, 38/1, kv. 394; Vera Fedorovna Terekhova, Belyaevo- Bogorodskoe, kvartal 48, korpus 23, kv. 235; Mstislav Vasilievich Volkov, 1 Stroitelnaya ulitsa, 6, korpus 5, kv. 10; Konstantin Mitrofanovich Sivash, B. Pirogovskaya ulitsa,
37/43 A, kv. 49; Vladislav Sergeevich Borodkin, Shelepikha, 5 ulitsa, 6/8, kv. 91, all of, Moscow, USSR.
[22] Filed: Sept. 15, 1969 [21] Appl. No.: 858,149
[52] US. Cl. ..128/92 B, 75/168 R, 75/168 M, 75/168 .1, 128/92 BA, 128/92 BB, 128/92 BC, 128/92 C [51] Int. Cl. ..C22c 23/00, A61f 5/01 [58] Field of Search..75/l68; 128/92 R, 92 B, 92 BB, 128/92 BA, 92 BC, 92 C, 92 CA, 92 D; 3/1
[ 51 Aug. 29, 1972 2,221,319 11/1940 Altwicker et a] ..75/168 B 2,549,955 4/1951 Jessup et a]. ..75/168 J OTHER PUBLICATIONS Annals of Surgery, Vol. 105, No. 6, June 1937, pp. 919, 920 & 938.
Primary ExaminerCharles N. Lovell Att0rneyWaters, Roditi, Schwartz & Nissen [57] ABSTRACT A magnesium-base alloy for use in bone surgery which contains the following components, wt.%:
Rare earth element 0.4-4.0 Cadmium 005-1 .2 An element from the group consisting of calcium and aluminum 0.05-1 .0 Manganese 0.05-.05 Silver 0-0.8 Zirconium 0-0.8 Silicon 0-0.3 Magnesium remainder 5 Claims, N0 Drawings MAGNES-BASE ALLOY FOR USE IN BONE SURGERY The present invention relates to magnesium-base alloys employed as a joining and fixation material in bone surgery.
One of the main problems in the operative treatment of bone fractures is finding a material for fixation means which is sufficiently strong, is absorbed after the completion of union and stimulates callus formation. The search for such a material has been made predominantly among organic substances although there are isolated reports of the study and use of inorganic materials, particularly metals.
Magnesium was first employed for osteosynthesis by Lambotte in 1907. In fracture of the bones of the lower leg a magnesium plate secured with gold-plate steel nails was used, but in 8 days the plate disintegrated with the formation of a large amount of gas under the skin. In spite of Lambottes failure, study of the effect of magnesium on the surrounding tissue and the body as a whole continued.
An attempt to use pure magnesium for osteosynthesis was unsuccessful because magnesium pins disintegrated so quickly that they were unsuitable for the fixation of bone fragments; nevertheless, clinical, X-ray and histological investigations demonstrated that pure magnesium introduced into the body in the form of a pin has no harmful effect.
Attempts were made to dust bone transplants with magnesium and calcium in vacuum and then graft them in the patients body. It was found that magnesium and calcium promoted rapid restoration of the entirety of the bone, this taking place 3 months sooner than when an untreated autotransplant was employed. Said method, however, is laborious and requires drainage for drawing off the gas formed.
Magnesium alloys with other metals have also been tried. Verbrugge used an alloy consisting of 92 percent magnesium and 8 percent aluminum; E. Bride reported the use of an alloy consisting of 95 percent magnesium, 4.7 percent aluminum and 0.3 percent manganese; M.S. Znamensky used an alloy consisting of 97.3 percent magnesium, 2.5 percent aluminum and 0.2 percent beryllium; B.I. Klepatsky tried an alloy consisting of 82.8 percent magnesium, 85 percent aluminum, 8.5 percent zinc and 0.2 percent manganese.
A review of the literature indicates that magnesium alloys employed for making fixation means dissolve completely in the bone and have no detrimental effect either locally or generally. However, the absorption of previously known magnesium alloys proceeds three or four times more rapidly than required from the standpoint of restoration of the entirety of the bone. Moreover, when said known alloys are used, drainage is necessary to remove the gas formed.
It is an object of the present invention to provide a magnesium-base alloy which has a rate of absorption slower than the process of bone consolidation, which does not involve vigorous evolution of gas and which has high mechanical strength.
It is another object of the invention to provide a magnesium-base alloy which meets the following requirements:
1. Ultimate strength a 28 kg/mm and yield point 2 18 kg/mm, i.e., the alloys mechanical strength shall exceed that of bone tissue;
2. The rate of absorption of the alloy compared to the rate of consolidation of the bone shall be such that at the moment of complete restoration of the bones entirety the alloy shall retain sufficient strength, i.e., the process of absorption shall be completed 1.5-2 months after knitting of the bone;
3. The rate of evolution of hydrogen during absorption of the alloy in the body shall be less or equal to the rate of absorption of hydrogen by the body.
4. The alloy shall contain elements which stimulate the growth of bone tissue, such as calcium and cadmium;
5. The alloy shall not contain elements which are harmful for the living organism, such as lead, beryllium, copper, thorium, zinc, nickel, etc.
The foregoing objects have been accomplished by the provision of a magnesium-base alloy which, accord ing to the invention, contains the following elements,
Rare earth metal 0.40-4.0 Cadmium 005-1 .2 Calcium or aluminum 0.05-1 .0 Manganese 0.05-1.0 Silver 00.8 Zirconium 0-O.8 Silicon 00.3 Magnesium remainder Neodymium and yttrium are predominantly employed as the rare earth metal although other rare earth metals can be used.
The above alloy is produced by the conventional method by preparing a charge consisting of pure metals and master alloys and melting the same.
One of the advantages of the invention is that it provides an alloy having high chemico-physiological, mechanical and engineering properties. The ultimate strength of said alloy e 28 kg/mm and the yield point a 18 kglmm Employment of said alloy for joining bone fragments obviates the necessity of a second operation on the patient for the removal of foreign fastening means (pins, nails, etc.) since said alloy is completely absorbed without the accumulation of gas. Moreover, the stimulation of callus formation promotes the pateients rapid recovery.
The following examples of variations in the composition of the alloy according to the invention are given by way of illustration.
EXAMPLE 1 Illustrates an alloy of the following composition, wt.%:
Neodymium 2.92 Cadmium 0.27 Calcium 0.24 Manganese 0.1 1 Magnesium remainder The above alloy has the following properties:
Ultimate strength 32.6 kg/mm Yield point 24.5 kg/mm Elongation 6.3%
Said alloy was tested in a physiological solution containing 0.9 wt.% NaCl, 0.02 wt.% KCl, 0.02 wt.% CaCl 0.002 wt.% Na CO and the remainder, distilled water. Evolution of hydrogen in 48 hours totalled 3.4 cm /cm The result of the test indirectly gives a conception of the process of absorption of the metal in the body.
EXAMPLE 2 Illustrates an alloy of the following composition, wt.%:
Neodymium 2.46 Cadmium 0. l 2 Aluminum 0.09 Manganese 0. l 4 Silicon 0.01 Magnesium remainder The above alloy has the following properties:
Ultimate strength 31.6 lrg/mm Yield point 25.3 ltg/mm" Elongation 3.7% Hydrogen evolution in physiological solution of Example I, 48 hrs. 2.1 em /cm EXAMPLE 3 Illustrates an alloy of the following composition, wt.%
Yttrium 1.6 Cadmium 0.25 Calcium 0.06
Silver 0.3 Manganese 0.08 Magnesium remainder The above alloy has the following properties:
Ultimate strength 28.4 kg/nim Yield point 23.6 kg/mm Elongation 5.5% Hydrogen evolution in physiological solution of Example 1, 48 hrs. [.6 cmVcrn EXAMPLE 4 Illustrates an alloy of the following composition, wt.%:
Neodymium Cadmium Calcium 0.08 Manganese 0.13 Zirconium 0.49 Magnesium remainder The above alloy has the following properties:
Ultimate strength 32.2 kglmm Yield point 21.8 kg/mrn Elongation 8.9% Hydrogen evolution in physiological solution of Example I, 48 hrs. 2.0 cm lcm MgCl, 34-40 KC] 25-36 NaCl CaCl s 8.0
CaF, -20
MgO 7-10 After melting and thoroughly mixing, the alloy was refined with the above flux and let stand for 15-20 minutes, after which it was poured at a temperature of 760-780C through a magnesite filter into moulds.
After preheating and hot pressing at 520-540C the blanks were cooled in the air after which they were artificially aged at 16021 0C for 16 hours.
The alloys thus produced were ready for use. Employment of the alloys specified in Examples 1, 2, 3 and 4 for joining bones in bone surgery demonstrated that all of said alloys possessed high mechanical and chemico-physiological properties. Clinical tests showed that said alloys were completely absorbed: pins 3 mm in diameter in 5 months and pins 8 mm in diameter in l 1 months. Bones knitted in 4 months.
F luoroscopic examination revealed no gas bubbles in the soft tissues during the entire period of absorption of said alloys.
Operative treatment of fractures by means of the I present alloy reduces the time required for union of the bone by 33-50 percent. In this respect the best showing was made by the alloy described in Example 2.
As is apparent from the figures cited, evolution of gas by the alloys described in Examples 1, 2, 3 and 4 is within the bodys absorptive capacity, since said capacity is 4.0-4.5 cm of gas from each sq.cm. of surface of the metal being absorbed per 48 hrs.
We claim:
1. A bone fastening device, for the fixation of bone fragments, constructed of an alloy, consisting essen tially of, by wt.%:
Rare earth element 0.4-4.0 Cadmium 0.05-2.22 An element selected from the group consisting of calcium and aluminum (-1 .0 Manganese ODS-0.5 Silver 00.8 Zirconium 0-0.8 Silicon O-0.3 Magnesium remainder 2. A device as in claim I which has the following composition by wt.%:
Neodymium 2.92 Cadmium 0.27 Calcium 0.24 Manganese 0.! 1 Magnesium remainder 3. A device as in claim 1 which has the following composition, by wt.%:
Neodymium 2.46 Cadmium 0. l 2 Aluminum 0.09 Manganese 0.14 Silicon 0.01 Magnesium remainder 4. A device as in claim 1 which has the following compositions, wt.%:
Yttrium L6 Cadmium 0.25 Calcium 0.06 Silver 0.3 Manganese 0.08 Magnesium remainder composition, wt.%:
Neodymium Cadmium Calcium Manganese Zirconium Magnesium remainder

Claims (4)

US858149A1969-08-201969-09-15Magnesium-base alloy for use in bone surgeryExpired - LifetimeUS3687135A (en)

Applications Claiming Priority (5)

Application NumberPriority DateFiling DateTitle
GB41577/69AGB1237035A (en)1969-08-201969-08-20Magnesium-base alloy for use in bone surgery
US85814969A1969-09-151969-09-15
CH1405969ACH527276A (en)1969-08-201969-09-17 Magnesium-based alloy for use in bone surgery
FR6934613AFR2068401A1 (en)1969-08-201969-10-09
DE19691953241DE1953241B2 (en)1969-08-201969-10-22 USE OF A MAGNESIUM ALLOY FOR BONE SURGERY

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FR2068401A1 (en)1971-08-27
GB1237035A (en)1971-06-30
DE1953241A1 (en)1971-05-13
CH527276A (en)1972-08-31
DE1953241B2 (en)1971-10-28

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