Safer Surgery with Magnesium

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Safer Surgery with Magnesium

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Before, During and After

 

 

All patients were found to have low serum magnesium

levels postoperatively, but to a greater degree and

for a longer period following open-heart surgery.[1]

 

 

Complications such as arrhythmias, kidney failure, stroke and infections

may occur after major surgery. Everyone scheduled for surgery needs to

increase their stores of magnesium. In the pre and postoperative phases

magnesium can help alleviate pain, decrease blood pressure, alleviate certain

heart

arrhythmias; it works to prevent blood clotting, relieves depression so

common after bypass surgery, and improves energy and cognitive abilities.

 

 

The level of serum magnesium during open-

heart surgery showed a significant fall below

normal values during the first postoperative day.[2]

 

 

The high rate of hypomagnesemia after cardiac surgery is well established.

After heart surgery, mean magnesemia is reduced,[3] and the frequency of

hypomagnesemia increases from 19.2% preoperatively to 71% immediately after

surgery before dropping slightly to 65.6% 24 hours later.

 

 

The use of magnesium in the preoperative and early post-

operative periods is highly effective in reducing the incidence

of Atrial fibrillation after coronary artery bypass grafting.[4]

Dr. Fevzi Toraman

 

 

The incidence of atrial fibrillation after coronary artery bypass surgery

remains relatively high (26.83%). Lower serum magnesium levels have been

found to be associated with an increased incidence of atrial fibrillation,

which was decreased in several studies by the prophylactic administration of

magnesium after coronary artery bypass grafting. In cardiac surgery,

magnesium has proved to be as efficient as more toxic pharmaceutical drugs in

controlling arterial pressure during cardiopulmonary bypass procedures.[5]

 

 

Magnesium administration is safe and improves short-term

postoperative neurologic function after cardiac surgery,

particularly in preserving short-term memory and

cortical control over brainstem functions.

Dr. Sunil K. Bhudia.[6]

 

 

While magnesium deficiency is fairly common, it is frequently overlooked

as a source of problems by surgeons. Various changes in magnesium can occur

before, during and after surgery of any kind. Plasma concentrations are

decreased after abdominal or orthopedic surgery.[7] And researchers at Duke

University reported that patients with low magnesium levels experienced a

two-fold increase in heart attacks and all-cause mortality rate as long as one

year after surgery compared to those with normal magnesium levels.

 

 

The incidence of atrial fibrillation after coronary artery bypass surgery

remains relatively high (26.83%) and this is principally due to strong

deficiencies in magnesium. While magnesium deficiency is fairly common, it is

frequently overlooked as a source of problems. The reason is that serum

magnesium levels (the test most doctors use) do not reflect body stores of

magnesium. Blood levels are kept within the normal range at the expense of other

tissues.

 

 

When magnesium levels are corrected by the administration of magnesium

before, during and after surgery medical complications are significantly

reduced to the point where it becomes simply imprudent to perform surgery

without it. Dr. Minato at the Department of Thoracic and Cardiovascular

Surgery,

in Japan, strongly recommends the correction of hypomagnesemia during and

after off-pump coronary artery bypass grafting (OPCAB) for the prevention of

perioperative coronary artery spasm and his team has actually said that

they won’t perform this surgery without its use any longer.[8]

 

 

Magnesium is depleted from the blood during CABG[9], and if extracorporeal

circulation is used as part of the procedure, the depletion is even

greater than if not used. Off pump bypass surgery has now been shown to have a

high incidence of post surgical arterial spasm triggered by hypomagnesemia.

Postoperative incidence of hypomagnesemia was as high as 89% of patients

(40 out of 45 patients) in a recent study on the causes of post surgical

arterial spasm in Japan in 2005. When magnesium levels were corrected by the

administration of magnesium both during and after surgery, no further

coronary artery spasm occurred.

 

 

Potentially fatal blood clots after surgery are a much greater risk than

has previously been thought, a British study finds. “What is most striking

is that not only is the risk higher, but that it lasts much longer than

people have thought,†said Dr. Jane Green, a clinical epidemiologist at the

University of Oxford and a leader of the team reporting the findings in the

Dec. 4 online edition of BMJ.[10] Blood clots in the deep veins and the lungs,

formally called venous thromboembolism, have long been known as a possible

complication after any form of surgery. The risk of such a blood clot

remained high for at least 12 weeks after surgery, the study found.

 

 

Magnesium has an effective antithrombotic activity

in vivo, and treatment with magnesium may lower

the risk of thromboembolic-related disorders.[11]

 

 

“It is the surgeon’s primary responsibility to make sure not only that

the surgery is effective, but also to make sure that the complication rate of

surgery is minimized as much as possible,†instructs Dr. Alexander Cohen,

an honorary consultant vascular physician at King’s College Hospital in

London.

 

 

Magnesium has an important role to play in preventing blood clots and

keeping the blood thin-much like aspirin but without the side effects.

Dr. Carolyn Dean

Author of The Miracle of Magnesium

 

 

Dr. Sarah Mayhill says, “Magnesium deficiency also predisposes to an

increased clotting tendency in the blood and to an increased vulnerability of

the arterial wall to damage from other factors such as have been discussed

elsewhere in this paper. These tendencies improve with magnesium

supplementation. Clotting is of course the central event in the formation of

coronary

thrombosis. The build up of homocysteine levels discussed earlier is due

mostly to the vitamin B6, B 12 and folic acid deficiencies, but also partly to

magnesium deficiency.†Magnesium prevents blood clots and thins the blood

without side effects.

 

 

Dr. Mayhill continues saying, “Magnesium has both a thrombolytic (able to

dissolve thrombosis) effect, but also protects against adverse effects of

stunning. From the mid 1980’s there has been increasing evidence that the

use of intravenous magnesium, given as early as possible (and before

reperfusion) has a major beneficial effect on the outcome of this life

threatening

situation. Positive studies have shown between a 50% and 82.5% improved

survival rate after doses of intravenous magnesium given by drips in the

dosage range of 32 – 66 mmol in the first 24 hours.â€[12]

 

 

We recommend routine measurement of magnesium levels after

CPB in pediatric patients undergoing heart surgery, with

timely magnesium supplementation in the postoperative period.[13]

Dr. B. Hugh Dorman, et al.

 

 

Magnesium depletion found to occur commonly after cardiac surgery in

children and adults was shown to cause significant neurological and cardiac

symptoms. Studies demonstrated an almost universal occurrence of magnesium

depletion during and after cardiac surgery, but also demonstrated that

supplementation may be preventive.[14]

 

 

Maintenance of magnesium levels within the normal reference range in the

immediate postoperative period of heart surgery decreased junctional ectopic

tachycardia. Plasma depletion and total body magnesium depletion also

occur in pediatric patients after heart surgery and may be more pronounced than

in adults because the volume of prime for CPB is large compared with blood

volume, and preoperative magnesium levels may be below normal, especially

in critically ill neonates.[15]

 

 

Ways of decreasing post-operative analgesic drug requirements are of

special interest after major surgery. Magnesium alters pain processing and

reduces the induction and maintenance of central sensitization by blocking the

N-methyl-d-aspartate (NMDA) receptor in the spinal cord. In patients

undergoing orthopedic surgery, supplementation of spinal anesthesia with

combined

intrathecal and epidural magnesium significantly reduces patients’

post-operative analgesic requirements.[16]

 

 

Magnesium infusion during general anaesthesia reduces

anaesthetic consumption and analgesic requirements.[17]

 

 

Magnesium administration at the time of the induction of anesthesia

improves hemodynamics in patients with CAD undergoing CABG and is associated

with

lesser hemodynamic and ST segment changes compared with lidocaine at the

time of endotracheal intubation in these patients.[18] Magnesium sulfate is

used intravenously to prevent hypertensive crises or seizures associated

with toxemia of pregnancy. [19]

 

 

A high rate of postoperative hypomagnesemia has also been observed in

pediatric heart surgery. Junctional ectopic tachycardia occurred in 27% of

children who were not given Mg postoperatively, whereas those who received

magnesium had no rhythm disorders.[20]

 

 

Stress from surgery has contributed toward increasing the clinical

importance of detecting and correcting blood levels of magnesium. Orders for

serum

magnesium testing at our hospital have had astounding increases over the

last 20 to 25 years, with more than 125,000 total magnesium measurements

ordered in 2005. The frequency of hypomagnesemia in critical care settings is

well noted.[21] In another study a group of 40 men were divided into two

groups and half were given preoperative oral magnesium supplementation, the

other half were not. Measurements of magnesium, epinephrine, and

norepheniphrine were taken before, during and after surgery. The findings were

that

magnesium levels dropped and epinephrine and norepinephrine levels elevated as

a result of surgery in both groups, but to a significantly greater extent

in the group that did not receive the supplements. They concluded that

magnesium supplementation prior to surgery substantially reduces intra- and

postoperative disorders. [22]

 

 

Personally I have just had two cataract operations and I used magnesium

chloride eye drops that I made up myself using a _pure magnesium oil_

(http://ancient-minerals.com/) diluted 15 parts mineral water to one part

magnesium. The surgery was a success and my recovery was quick. This same

magnesium can be put in a nebulizer and can be used at home by patients both

before

and after surgery both orally and transdermally to great effect. Surgeons

need to become familiar with the transdermal approach for then they can

start their patients off with heavy application weeks before surgery and for

weeks after since this method of application can easily be done at home by

patients.

 

 

It behooves everyone scheduled for surgery to increase their stores of

magnesium through supplementation including using magnesium oil in baths, foot

baths or as a body spray. Doctors who know what they are doing will not

perform surgery without using magnesium for to do so involves increasing

risks and unnecessary complications.

 

 

 

 

Mark Sircus Ac., OMD International Medical Veritas Association

_http://publications.imva.info_ (http://publications.imva.info/) Email:

_director_ (director)

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[1] Thorax. 1972 March; 27(2): 212–218. Magnesium in patients undergoing

open-heart surgery M. P. Holden, M. I. Ionescu, and G. H. Wooler

 

[2] Departments of Cardiothoracic Surgery and Cardiology, Gentofte

Hospital, Copenhagen, Denmark

DOI: 10.3109/14017437809100355

 

[3] Speziale G, Ruvolo G, Fattouch K, et al. Arrhythmia prophylaxis after

coronary artery bypass grafting: regimens of magnesium sulfate

administration. Thorac Cardiovasc Surg 2000; 48: 22–6. [Medline]

 

[4] Ann Thorac Surg 2001;72:1256-1262

 

[5] Delhumeau A, Granry JC, Cottineau C, Bukowski JG, Corbeau JJ, Moreau

X. Comparative vascular effects of magnesium sulphate and nicardipine during

cardiopulmonary bypass (French). Ann Fr Anesth Réanim 1995; 14: 149–

53.[Medline]

 

[6] Magnesium as a neuroprotectant in cardiac surgery: A randomized

clinical trial. The Journal of Thoracic and Cardiovascular Surgery August 2007

(Vol. 134, Issue 2, Page A25)

 

[7] Koinig H, Wallner T, Marhofer P, Andel H, Hörauf K, Mayer N. Magnesium

sulfate reduces intra- and postoperative analgesic requirements. Anesth

Analg 1998; 87: 206–10. [Abstract/Free Full Text]

 

[8] Perioperative coronary artery spasm in off-pump coronary artery bypass

grafting and its possible relation with perioperative hypomagnesemia.

Ann Thorac Cardiovasc Surg. 2006 Feb;12(1):32-6.

PMID: 16572072 [PubMed - indexed for MEDLINE] _Pubmed_

(http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?db=pubmed & cmd=Retrieve & dopt=Abstr\

actPlus & list_ui

ds=16572072 & itool=iconfft & query_hl=15 & itool=pubmed_docsum)

 

[9]The CABG with extracorporeal circulation resulted in a significant

decrease in blood Mg concentration. Changes of blood magnesium concentration

in patients undergoing surgical myocardial revascularization. Pasternak, et

al; _Magnes Res._ (javascript:AL_get(this,%20'jour',%20'Magnes%20Res.')

2006 Jun;19(2):107-12j;

_http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?itool=abstractplus & db

=pubmed & cmd=Retrieve & dopt=abstractplus & list_uids=16955722_

(http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?itool=abstractplus & db=pubmed & cmd=\

Retrieve & dopt

=abstractplus & list_uids=16955722)

 

[10] _http://news./s/hsn/20091205/hl_hsn

/bloodclotthreataftersurgeryworsethanthought_

(http://news./s/hsn/20091205/hl_hsn/bloodclotthreataftersurgeryworsetha\

nthought)

_http://news./s/hsn/20091205/hl_hsn_

(http://news./s/hsn/20091205/hl_hsn)

 

[11] Journal International Journal of Hematology. ISSN 0925-5710 Issue

Volume 77, Number 4 / May, 2003

 

[12] _http://www.drmyhill.co.uk/article.cfm?id=325_

(http://www.drmyhill.co.uk/article.cfm?id=325)

 

[13] American Heart Journal. 2000;139(3)

 

[14] Ann R Coll Surg Engl. 1997 September; 79(5): 349–354.

 

[15] American Heart Journal. 2000;139(3)

 

[16] Acta Anaesthesiologica Scandinavica, Volume 51, Number 4, April 2007

, pp. 482-489(8)

 

[17] European Journal of Anaesthesiology: October 2004 – Volume 21 –

Issue 10 – pp 766-769

 

[18] The Effect of Magnesium Sulphate on Hemodynamics and Its Efficacy in

Attenuating the Response to Endotracheal Intubation in Patients with

Coronary Artery Disease G. D. Puri, MD, PhD*, K. S. Marudhachalam, MD, DA,

DNB*,

Pramila Chari, MD, FAMS, MAMS, DA?, and R. K. Suri, MS, FAMst Departments

of *Anaesthesia and Intensive Care and tcardiothoracic and Vascular Surgery,

Postgraduate Institute of Medical Education & Research, Chandigarh, India

_http://www.anesthesia-analgesia.org/cgi/reprint/87/4/808.pdf_

(http://www.anesthesia-analgesia.org/cgi/reprint/87/4/808.pdf)

 

[19] Management of Obstetric Hypertensive Crises; OBG management; July

2005 · Vol. 17, No. 7

_http://www.obgmanagement.com/article_pages.asp?AID=3573 & UID_

(http://www.obgmanagement.com/article_pages.asp?AID=3573 & UID) =

 

[20] Dorman BH, Sade RM, Burnette JS, et al. Magnesium supplementation in

the prevention of arrhythmias in pediatric patients undergoing surgery for

congenital heart defects. Am Heart J 2000; 139: 522–8. ._[Medline]_

(http://www.cja-jca.org/cgi/external_ref?access_num=10689268 & link_type=MED)

 

[21] The Journal of Near-Patient Testing & Technology: June 2007 – Volume

6 – Issue 2 – pp 129-133

 

[22] The effect of preoperative magnesium supplementation on blood

catecholamine concentrations in patients undergoing CABG. Pasternak, et al;

_Magnes Res._ (javascript:AL_get(this,%20'jour',%20'Magnes%20Res.') 2006

Jun;19(2):113-22;

_http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?db=pubmed & cmd=Retrieve & dopt=

AbstractPlus & list_uids=16955723 & itool=iconabstr & itool=pubmed_DocSum_

(http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?db=pubmed & cmd=Retrieve & dopt=Abstr\

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Plus & list_uids=16955723 & itool=iconabstr & itool=pubmed_DocSum)