Comment by Robert F. Cathcart, M.D.:  This paper repeatedly refers to intravenous ascorbic acid.  My personal experience, my talking with Klenner, and with his wife, Annie Klenner, who served as his nurse, would indicate that he means sodium ascorbate. See my article on how to make intravenous C solutions.   I am especially indebted to Annie Klenner for her descriptions of how Fred made the intravenous solutions of sodium ascorbate. 

Editor's Note:

Because of the unusually high amounts of ascorbic acid used in Dr. Klenner's treatment as reported in his paper, we asked him to verify amounts mentioned. Following is his answer:

"To the Editor of the ICAN Journal: This will confirm that all 'quantity' factors given in my paper are correct and can be confirmed from hospital and medical office records. The notation relative to 150 grams represents the amount used for reversing pathology in a given case and was the amount given over a period of 24 hours. (The I.V. was continuous.) This was given in three bottles of 5D water, decanting only enough from 1000 c.c. to be replaced by the 'C' ampoules.

"Recently the FDA has published a 'warning' that too much soda-ascorbate might be harmful, referring to the sodium ion. In reply to this I can state that for many years I have taken 10 to 20 grams of sodium ascorbate by mouth daily, and my blood sodium remains normal. These levels are checked by an approved laboratory. 20 grams each day and my urine remains at or just above pH 6."

Signed:

Fred R. Klenner, M.D.

Body of paper

Summary

Appendix - more case histories

Bibliography

Klenner Biography

Ascorbic acid has many important functions. It is a powerful oxidizer and when given in massive amounts; that is, 50 grams to 150 grams, intravenously, for certain pathological conditions, and "run in" as fast as 20 Gauge needle will allow, it acts as a "Flash Oxidizer,"^[4] often correcting the pathology within minutes. Ascorbic acid is also a powerful reducing agent. Its neutralizing action on certain toxins, exotoxins, virus infections, endotoxins and histamine is in direct proportion to the amount of the lethal factor involved and the amount of ascorbic acid given. At times it is necessary to use ascorbic acid intramuscularly. It should always be used orally, when possible, along with the needle.

1. The age of the individual; 
2. Habits -- such as smoking, the use of alcohol, playing habits; 
3. Sleep, especially when induced artificially; 
4. Trauma.-- trauma caused by a pathogen, the trauma of work, the trauma of surgery, the trauma to the body produced accidentally or intentionally; 
5. Kidney threshold; 
6. Environment; 
7. Physiological stress; 
8. Season of the year; 
9. Loss in the stool; 
10. Variations in individual absorption; 
11. Variations in "binders" in commercial tablets; 
12. Body chemistry; 
13. Drugs; 
14. Pesticides; 
15. Body weight; 
16. Inadequate storage. 

It is worthy to note that Sealock and Goodland have ascribed to ascorbic acid the faculty of being the necessary co-enzyme in the metabolic oxidation of tyrosine. The velocity of the oxidation in this reaction is dependent upon the concentration of vitamin C. Tyrosine is essential in breaking down protein to usable amino acid. The scorbutic guinea-pig's liver is unable to oxidize tyrosine except in the presence of ascorbic acid. This suggests a lead in the study of the metabolic abnormality Alkaptonuria in humans. Ascorbic acid administration will correct the alkaptonuria of the scorbutic guinea pig. Its effect on human alkaptonuria has been inconsistent. The reason: Inadequate use of ascorbic acid.

• Once inside a given cell. the virus nucleic acid sheds its protein coat and proceeds to modify the host cell by either creating mutations or by directly substituting its own nucleic acid; 
• The infectious nucleic acid, after entering a human cell, retains its protein coat and starts to produce its own type protein coat^[16] and viral nucleic acid, so that new units can either depart to enter other cells or by destruction of the cell, thus making the infection more severe; 
• The introduction of a foreign fragment of nucleic acid in the cell-virus interaction approach as postulated by Starr^[17]. In the Starr theory there can exist cells with partial chromosome make-up and cells with multi-nuclei. Hiliary Kropowski holds that these partial cells are 'pseudo-virons'^[18] and are found in some tumor-virus infections. A key factor in the Starr-Kropowski thinking is that the cell maintains its biological integrity to support virus development despite the abnormal morphology and genetic deficiency. If these invaded cells could be destroyed or the invader neutralized the illness would suddenly terminate. Ascorbic acid has the capability of entering all cells. Under normal circumstances its presence is beneficial to the cell, however, when the cell has been invaded by a foreign substance, like virus nucleic acid, enzymatic action by ascorbic acid contributes to the breakdown of virus nucleic acid to adenosine deaminase which converts adenosine to inosine. The net result is to lead to purines which are extensively catabolized and not to p+urines which are utilized for further nucleic acid. Ascorbic acid also joins with the available virus protein, making a new macromolecule which acts as the repressor factor. It has been demonstrated that when combined with the repressor, the operator gene, virus nucleic acid, cannot react with any other substance and cannot induce activity in the structural gene, therefore inhibiting the multiplication of new virus bodies. The tensile strength of the cell membrane is exceeded by these macromolecules with rupture and destruction. Another hypothesis is that vitamin C acts to create new "L" viruses which are impotent. Still another, that the "binding" alone is sufficient to destroy the virus. 

• Stage 1 
• There is always a history of having had the "Flu" which lasted 48 to 96 hours complicated with extreme physical or mental distress; or 
• A mild cold, similar to an allergic rhinitis, which lingered on for several weeks but did not incapacitate the individual. 
• Stage 2, which is always sudden, will present itself in at least seven forms: 
• Convulsive seizures; 
• Extreme excitability resembling delirium tremens if an adult and with dancing of the eyeballs if a child; 
• Severe chill; 
• Strangling in the course of eating or drinking (bulbar type); 
• Collapse; 
• Stupor; 
• Hemiplegic type. 

• Rapid pulse; 
• Temperature can be normal, moderately elevated or high; 
• Respirations twice to three times normal and in some cases will be suggestive of air hunger; 
• Pupils will be moderately open and in some instances (hemiplegic) one will be markedly dilated; 
• Urine negative; 
• The white blood count running from 6,000 to 25,000 with a high poly count in the differential; 
• Young patients starting the second phase with a convulsion there has been not only a history of normal bowel movements but also an enema given at the time of first examination has produced a normal stool; 
• Bladder sphincter control was abnormal in our cases who convulsed or who were in coma. 

• Symptoms of a nonspecific nature - headache, vomiting, irritability; 
• Delirious type; 
• Convulsive type; 
• Lethargic type; 
• Hemiplegic type. 

• Chill - blood invasion type; 
• Collapse, 

• Through the olfactory nerves; 
• Through the portals of the stomach from material swallowed, either pulmonary or upper respiratory drainage; 
• Direct extension from otitis media or from mastoid cells; 
• The blood stream. Arriving in the brain the virus goes through the blood cerebrospinal fluid barrier and/or the blood brain barrier by one of three ways: 
• Electrical charge; 
• Chemical lysis of tissue; 
• Osmosis. 

1. The use of the "old covered wagon" type cradle when indicated, with three 25 watt bulbs. The patient controls the heat by turning on and off the first bulb as needed to keep warm. No garments or dressings are allowed; 
2. The employment of a 3% ascorbic acid solution as a spray over the entire area of the burn. The spray can be applied with a Devilbis unit using an ordinary portable pressure pump. The old type "flit gun" can also be used or even a 50 c.c. syringe with a 20 gauge needle. The 3% solution is used every 2 to 4 hours for a period of roughly five days; 
3. The use of vitamin A and D ointment over the area of the burn and this is now alternated, q4h with the 3% ascorbic acid solution; 
4. The administration of massive doses of ascorbic acid by vein and by mouth. 500 mg per Kg. body weight diluted to at least 18 c.c. per gram vitamin C using 5% dextrose in water, saline in water or Ringers solution and for the initial injection, run in as fast as a 20 gauge needle or catheter will carry the flow. Cut-downs are frequently necessary and the foot-ankle area is recommended. Vitamin C solution is repeated every 8 hours for the first several days, then at 12 hour intervals. Ascorbic acid, by mouth, is given to tolerance. Loose stools is accepted as this index. Using large doses of ascorbic acid I.V. will necessitate the administration of at least one gram calcium gluconate, daily, to replace free calcium ions removed in the breakdown chemical action as ascorbic acid goes to dehydroascorbic acid, then to ketogulonic acid and later to oxalic acid as the calcium salt; 
5. Supportive treatment; that is, whole blood and maintaining electrolyte balance. 

These critics have overlooked the individual with diabetes mellitus. The amount of oxalic acid found in the diabetic patient approximates that found in the urine of a normal person taking 10 grams vitamin C each day. With the diabetic we find a paradox. Give this individual 10 grams ascorbic acid daily, by mouth, and the urinary oxalate excretion remains relatively unchanged. Diabetics are known for their diuresis. The individual who takes 10 or more grams of vitamin C each day will find that this organic compound is an excellent diuretic. No urinary stasis; no urine concentration.

The ascorbic acid kidney stone story is a myth. Methylene blue will dissolve calcium oxalate stones giving 65 mg orally 2 to 3 times a day. (Dr. M. J. Vernon Smith: Med. World News, Dec. 4, 1970)

• The tox-albumin of the snake bite, like the copperhead or rattler; 
• Formic acid plus a toxin with a protein cover, called proteotoxin by Arthus,^[39] such as found in bees and wasps; 
• Neurotoxin from the Black Widow, the Fiddle Spider and snakes like the Cobra and Coral; 
• Production of histamine, especially in the more severe stings and bites. 

• Nerve poisons-muscarine; 
• Those causing structural changes in the viscera with resulting fatty degeneration; 
• Gastrointestinal irritants. 

The answer to these emergencies is simple. Large amounts of ascorbic acid 350 mg to 700 mg per Kg. body weight given intravenously. In small patients, where veins are at a premium, ascorbic acid can easily be given intramuscularly in amounts up to two grams at one site. Several areas can be used with each dose given. Ice held to the gluteal muscles until red, almost eliminates the pain. We always reapply the ice for a few minutes after the injection. Ascorbic acid is also given, by mouth, as follow-up treatment. Every emergency room should be stocked with vitamin C ampoules of sufficient strength so that time will never be counted-as a factor in saving a life. The 4 gram, 20 c.c, ampoule and 10 gram 50 c.c. ampoule must be made available to the physician.

In 1949, it was my privilege to assist at an abdominal exploratory laparotomy. A mass of small viscera was found "glued together". The area was so friable that every attempt at separation produced a torn intestine. After repairing some 20 tears the surgeon closed the cavity as a hopeless situation. Two grams ascorbic acid was given by syringe every two hours for 48 hours and then 4 times each day. In 36 hours the patient was walking the halls and in seven days was discharged with normal elimination and no pain. She has outlived her surgeon by many years. We recommend that all patients take 10 grams ascorbic acid each day. Where this is not done and the surgery is elective, then 10 grams by mouth should be given for several weeks prior to surgery. At least 30 grams should be given, daily, in solutions, post-operatively, until oral medication is allowed and tolerated.

One can only speculate on what massive therapy would do in all forms of cancer. Many pathologic conditions are cured by giving 5 million to 100,000 million units of penicillin as an intravenous drip over a period of 4 to 6 weeks. How long must we wait for someone to start continuous ascorbic acid drip for 2 to 3 months, giving 100 to 300 grams each day, for various malignant conditions?

Two cases of Trichinosis was treated and cured using Vitamin C: and Para-Aminobenzoic acid.^[57] Although the temperature curve was returned to normal in 36 hours it was found that nine days of treatment was necessary for permanent cures.

• Boyd and Campbell^[60] reported excellent results in the healing of corneal ulcers even though their massive doses was 1.5 grams daily. In one case of a corneal burn from the phosphorus off an old time match, the pain was relieved immediately with the intravenous injection of 12 grams vitamin C with a 50 c.c syringe. One gram was prescribed each hour for 50 grams. The cornea was normal in less than 24 hours. 
• One single injection of ascorbic acid calculated at 500 mg per Kg. body weight will reverse heat stroke. 
• One to three injections of the vitamin in a dose range of 400 mg Kg. body weight will effect a dramatic cure in Virus Pancarditis. 
• One gram taken every one to two hours during exposure will prevent sunburn. 
• Intravenous injections will quickly relieve the pain and erythema, even the second degree burns when precautions are not taken. 
• One to three injections of 400 mg per Kg. given every eight hours will "dry up" chicken-pox in 24 hours. 
• If nausea is present it will stop the nausea. 

• 40 grams ascorbic acid by vein and 1000 mg to 2000 mg vitamin B1 intramuscularly will neutralize the person intoxicated by alcohol and will save the life if one drinks after using Antibuse. 
• 5 per cent ointment using a water soluble base will cure acute fever blisters if applied 10 or more times a day and we have removed several small basal cell epithelioma has with a 30 percent ointment. 
• Dr. Virno^[61] at the eye clinic, University of Rome, Italy, reported very promising results in glaucoma with a dose schedule of 100 mg per Kg. body weight taken after meals and bed hour. He also reported that these large doses have proved to be safe. 
• In arthritis at least 10 grams daily and those taking 15 to 25 grams daily will experience commensurate benefit. Supportive treatment must also be given. Repair of collagenous tissue is dependent of adequate ascorbic acid. 
• Complications of smallpox vaccination are usually handled by adequate oral ascorbic acid. Several times we found it necessary to give the "C" intravenously along with Adenosine. Twenty percent ichthammol used locally with vaccinia necrosum is good psychology. 
• In herpes zoster two grams vitamin C intramuscularly and 50 mg Adenosine 5-Monophosphoric acid, aqueous solution, also intramuscularly every 12 hours. Compound tincture benzoin locally is helpful. 
• In massive "shingles" ascorbic acid should also be given by vein. Always as much by mouth as can be tolerated. Heavy metal intoxication is also resolved with adequate vitamin C therapy. 

It must be remembered when using ascorbic acid that experiments on man are the only experiments which can give positive evidence of therapeutic action in man. Likewise, the use of ascorbic acid in human pathology must follow the Law of Mass Action: "In reversible reactions, the extent of chemical change is proportional to the active masses of the interacting substance."

2 Jennings & Avinoff: Wild Flowers of Western Penna. & Upper Ohio Basin, University of Pittsburgh Press, Vol. 2, Plate 156. ref

3 Food and Life: P. 236, 1939 Yearbook, U.S. Dept. Agriculture, U.S. Printing Office, Washington, D.C. ref

4 Klenner, F. R.;: Correspondence with Dr. Bauer, University of Switzerland. ref

5 J. J. Burns, et al.: J. Biol. Chem. 207: 679, 1954. ref

6 Salomon, L. L, et al.: N.Y. Acad. Science 93: 115, 1961. ref

7 Conney, A. H., et al.: N.Y. Acad. Science 92: 115, 1961. ref

8 Grollman, A. P. & Lehninger, A. L.: Arch. Biochem., 69:458, 1957. ref

9 Chattejee, I. B., Kar, N. C., Guha, B. C.: N.Y. Acad. Science 92:36, 1961. ref

10 Isherwood, F. A. & Mapson, L. W.: N.Y. Acad. Science 92:6, 1961. ref

11 Burns, J. J. Am. J. Med. 26: 740, 1959 ref

12 Stone, I.: Brief Proposal Per. Biology & Medicine, Autumn 1966. ref

13 Slobody, L. B.: J. Lab & Clinical Med. 29 #5, 464-472, 1944. ref

14 Ringsdore, W. M., Cheraskin, E. Sec., Oral Med., U. of Ala. Med. Center, Birmingham, Ala. ref

15 Klenner, F. R.: Tri-State Med. J., Feb. 1956. ref

16 Larson, C.: Ordnance, PP. 359-360, Jan.-Feb. 1967. ref

17 Starr, T. J.: Hospital Practice, p. 52, November 1968. ref

18 Kropowski, H.: Med. World News, p. 24, June 19, 1970. ref

19 Klenner, F. R.: J. Applied Nutrition, 1953. ref

20 Klenner, F. R.: Tri-State Med. Journal, June 1957. ref

21 Klenner, F. R.: Tri-State Med. J., Oct. 1958. ref

22 Klenner, F. R.: Tri-State Med. J., Feb. 1960. ref

23 Baker, A. B. & Noran, H. H.: Archives Int. Med. Vol. 76, 146-153, 1945. ref

24 Bakay, L: The Blood-Brain Barrier, C. Thomas, 1956. ref

25 Chambers, R. et al: Physiol. Rev., Vol. 27, 436-463, 1947. ref

26 Knisely, M. H. et al: Archives Surgery, 51-220, 1945. ref

27 Knisely, M. H. Science 106: 431, 1947. ref

28 Berkeley, W. T., Jr.: Southern Med. J., Vol. 58, pp. 1182-1184. 29 Lund & Levenson: Arch. Surg., Vol. 55: 557, 1947. ref, ref

30 Bergman, H. C. et al: Am. Heart J., Vol. 29, 506-512, 1945. ref

31 Lam, C. R.: Col. Rev. Surg. Gyn. & Obst., Vol. 72, 390-400. 1941. ref

32 Klasson,D. H.: N.Y. J. Med., 51, 2388-2392, Oct. 1951. ref

33 Stone, H. H.: Med. J., Aug. 1: 6-10, 1970. ref

34 Borsook, H. et al: J. Biol. Chem, 117:237, 1937.

35 Hoverbed: Med. World News, Oct. 13, 1967; ref

36 Meakins, J. C.: The Practice of Med., C. V. Mosby, 1938. ref

37 Kelli & Zilva; J. Biochemistry, 29: 1028. 1935. ref

38 Lambden, M. P. et al: Proc. Sec. Exp. Biol. Med., 85: 190-192, 1954. ref

39 Arthus: J. Pharm. Chemi., 20: 41, 1919. ref

40 Wells, H. C.: Chem. Pathology, Saunders, 3rd Ed., 1925. ref

41 Ford: J. Pharmacy, 2, 285; 1911. ref

42 Editorial: J.A.M.A. (117) 11: 937-938, 1941. ref

43 Chambers, R., & Pollock, H.: J. Gen. Physiology, 10: 739, 1927. ref

44 Clark & Rassiter: Q. J. Exp. Physiology, V32, 279, 1944. ref

45 Patterson, J. W.: J. Biological Chemistry, 81-88, 1950. ref

46 Bartlett, M. K., et al.: New Eng. J. of Med., Vol. 226, 474, 1942. ref

47 Lanman, T. H., Ingalls, T. H.: Am. Surgery, Vol. 105, 616, 1937. ref

48 Schumacher: Ohio State Med. J., 42: 1248, 1946. ref

49 Mono-Epstein-Barr virus-Burkitt Lymphoma: Med. World News, Dec. 13, 1968. ref

50 Schlegal, G. E., et al.: Trans. Am. Ass. Genito Urinary Surgery, Vol. 61, 1989, ref

51 Click and Hosoda: Proc. Sec. Exp. Biology and Med., 119, 1965. ref

52 Clemmesen, C.: Bisperbjerg Hospital, Copenhagen, Mod. Med., 123-124, July, 1954. ref

53 Hadden, J., et al.: J. Am. Med. Assoc., 209: 893-900, 1989. ref

54 Becker, R. R., et al.: J. Am. Chem. Sec. 75: 2020, 1953. ref

55 Klenner, F. R.: Tri-State Med. J., July, 1954. ref

56 Jungeblut, C. U.: J. Immunology, Vol. 33 #3, Sept. 1939 ref

57 Klenner, F. R.: Tri-State Med. J., April 1954. ref

58 Capps, R. B.: Modern Med., Jan. 11, 1971. ref

59 Freeben, R. K., Repsher, L. R.: Mod. World News, Jan. 23, 1970. ref

60 Boyd,T. A. Campbell, F. W.: B. Med. J., 2: 1145, Nov. 1950. ref

61 Virno, M.: Eye, Ear, Nose & Throat Monthly, Vol. 46, p. 1502. ref

62 Sabin: J. Exp. Med., 89: 507-515, 1939. ref

63 Wright: Ann. Int. Med., 12, 4: 518-528, Oct. 1938. ref

64 Brody, H. D.: J. Am. Diet. Assoc., 29: 588, 1953. ref

65 Regnier, E.: Review of Allergy, 22: 948, Oct. 1968. ref

66 Pollock, H. & Halpen: Washington Nat. Research Council Publication, 234, 1942. ref

67 Greenblatt, R. B.: Obstet. & Gynec., 2: 530, 1953. ref

68 King, C. C., et al.: New York Times, Nov. 2, 1952. ref

69 Klenner, F. R.: Tri-State Med. T., Dec. 1957 ref

70 Baume, L. J.: Science News Letter, 64: 103, 1953. ref

71 Klenner, F. R.: Tri-State Med. J. Nov. 1955. ref

Three boys ranging in years from age seven to age 12 were walking along a North Carolina Highway. They were caught in the "spray" of a dusting airplane. The youngest boy had been covered by the other two and so received little exposure. He was seen in the emergency room of the local hospital and sent home. The other two boys had different physicians. One lad age 12, under our care, was given 10 grams of ascorbic acid with a 50 c.c. syringe every 8 hours. The concentration was one gram for each 5 c.c. diluent. He was returned home on the second hospital day. The third boy received supportive treatment but did not receive ascorbic acid. His body was something to see. The spray had produced an allergic dermatitis as well as a chemical burn. He died on the 5th hospital day.

Case History: Nasal Diphtheria

Three children, living in the same neighborhood, developed nasal diphtheria. All three children had different physicians. A little girl under our care was given 10 grams ascorbic acid, intravenously, with a 50 c.c. syringe every 8 hours for the first 24 hours and then every 12 hours for two times. She was then put on one gram ascorbic acid every two hours by mouth. She lived and is now a graduate nurse. The other children did not receive ascorbic acid and both died. Our young patient also received 40,000 units diphtheria antitoxin which was given intraperitoneal. The other children also were administered the antitoxin.

Case History: Poliomyelitis

Although we were able to cure many cases of polio with massive doses of ascorbic acid, one single instance demonstrates the value of vitamin C. Two brothers were sick with poliomyelitis. These two boys were given 10 and 12 grams of ascorbic acid, according to weight, intravenously with a 50 c.c. syringe, every eight hours for 4 times and then every 12 hours for 4 times. They also were given one gram every two hours by mouth around the clock. They made complete recovery and both were athletic stars in high school and college. A third child, a neighbor, under the care of another physician received no ascorbic acid. This child also lived. The young lady is still wearing braces.

Case History: Acute Virus Infection representing Deadly Virus Syndrome

Cases with paralysis are extremely interesting in as much as they challenge diagnostic prowess. One of our cases, a female age 58, demonstrated three different types. She entered the hospital because of a convulsive seizure. She had had a lingering cold for ten days. She experienced three additional convulsive seizures after hospital admission. The temperature was 100.8°F. pulse 140, respirations 32. She was extremely restless. Twenty-four grams ascorbic acid in 360 c.c. 5D water was given intravenously for three times at 8 hour intervals. One gram calcium gluconate was added to the first and third bottle. Twenty four hours following admission and 72 grams ascorbic acid in the blood stream, patient was awake and rational but completely paralyzed, right arm and leg. Five grams ascorbic acid was given in fruit juice every 6 hours by mouth and 6 grams ascorbic acid along with a B complex preparation was given intravenously, daily for eight additional days. The right arm and leg returned to normal 48 hours after admission. Classical pellagra was also corrected during this hospital stay.

Case History: Repeating virus infection

This case proved that adequate ascorbic acid therapy must be continued long enough to destroy all virus bodies, otherwise the infection will recur. In 1960, I treated a seven year old boy, off and on, over a period of six weeks, for influenza like symptoms. Therapy included one of the mold derived drugs, sulfadiazine and 5 to 10 grams ascorbic acid by mouth. On three different occasions this treatment schedule was dramatically effective. When the child became ill for the fourth time, the administration of the above antibiotics and oral vitamin C had no reversing effect. On the third day of this illness the child suddenly became lethargic and just as suddenly to frank stupor. The temperature which had been running low grade was now 102.6°F.  At this paint all oral medication was discontinued. I immediately gave six grams of ascorbic acid intravenously with a 30 c.c. syringe. He was awake and asking, "what happened" in 5 minutes. Six grams ascorbic acid was given in 4 hours and then at 6 hour intervals for two additional doses. The recovery was complete in 24 hours and remained so. Ascorbic acid was again started by mouth giving 5 grams in juice every 8 hours. After one week, this was reduced to the usual daily "take" of seven grams. I had ample opportunity to observe this case--the child was our son.

Case History: Snake bite

Child of 4 years was struck on the lower leg by a large highland moccasin at 7:00 P.M., while at play in the yard of her country home. Seen in the emergency room of the local hospital at 7:30 P.M., the child was vomiting, was crying because of severe pain in her leg, which she held with both hands above the "fang marks". Fever was 99.0°F. Four grams of ascorbic acid was given intravenously at 7:35 P.M. with a 20 c.c. syringe. The following 25 minutes were taken to follow a skin test on anti-venom. At this time and before the anti-venom was administered the child had stopped vomiting, she had stopped crying and was sitting on the emergency room table, laughing and drinking a glass of orange juice. She commented: "Come on, Daddy, I'm all right now, let's go home." She was allowed to return home with the understanding that her father would give me a report, by phone, each hour during the night. This he did. His report, each time, was that the child was sleeping as usual and that except for moderate swelling to the "calf of the leg", appeared normal. Seen in the office at 10:00 A.M. the following morning she still demonstrated the small amount of swelling of her leg and had 1/2 degree fever. She was given a second dose of 4 grams of ascorbic acid intravenously. Seen at 5 P.M. she had no fever but the swelling remained constant. There was no pain. The following day, 38 hours after being bitten, she was completely normal. Since this was our first case of snake bite treated with vitamin C, we elected to give an additional 4 grams of ascorbic acid on this visit. No other antibiotics were given and none was required. Since she had had a booster injection of tetanus toxoid in recent months, none was given at this time.

Comparing this to an earlier case of snake bite in a 16 year old girl, struck by a moccasin of about the same size, as gauged from the fang marks, on the hand while pulling tobacco plants, and who was hospitalized for three weeks. She was given 3 doses of anti-venom. The arm was compressed continuously with magnesium sulfate solution. Swelling was four times that of the opposite arm and striae developed over the entire surface. This patient received no vitamin C other than that found in a regular hospital diet. Morphine was required to control pain. (We no longer use anti-venom.)

Case History: An Insidious virus

This was a child of 18 months. She was seen in the driveway to my home at about 7:00 P.M. The history was brief. The child had strangled on food while eating supper. A cursory examination given in the front seat of an automobile revealed an extremely restless, whining child. The temperature was 98.6°F. (axillary 10 minutes-corrected). There was no obstruction to the air-ways. We did elicit the information, that the child had had a cold for several days. We also learned that the child's mother had taken her for a long stroller ride the previous day--which in this area was damp and cold. Frankly the impulse to send the child home was great.

Remembering that I had seen children dead within 30 minutes to two hours after hospital admission without treatment, I decided to buy some time. The Uncle was asked to take the child to the emergency room of the local hospital. The nurse on duty was given an order to take a rectal temperature and then give a fleets enema. If the results proved unsatisfactory, she was to repeat the procedure in 30 minutes using a normal saline solution. Approximately 45 minutes after leaving my home, the intern on duty reported by phone, that the child was unconscious to a point where she responded only to pain stimuli. The enema had not been given. Going at once to the hospital, conditions were found as described. The little patient was lying motionless on the examining table. Using a suitable size rectal tube I gave the enema with good results. The stool was normal. Rectal temperature taken at the hospital was 98.4°F. (corrected). The pulse rate was 152 per minute and respirations were 32 per minute. It was impossible to visualize the throat because the mouth was "locked" as one finds after stimulation in lockjaw. Our impression was that the virus had now entered the brain.

Thirty grams of ascorbic acid, in divided doses, was given intramuscularly over a period of 36 hours. Crystalline penicillin was started on the second day and 300,000 units were administered in divided doses over the next three days. This was added to block secondary invaders. One hour following admission we applied a 4 x 4 gauze, saturated with tap water, to the child's lips. The sucking reflex was still intact, but the child immediately strangled. Turning the child head down, the small amount of water ran from its nostrils. Now it was clear. It was this "bulbar phenomenon" that was at play when the child was eating supper. The nursing log showed the temperature to be 99.0°F. (corrected) 1 1/2 hours after admission and 1 1/2 hours later it was recorded at 100.0°F. (corrected). The nursing log at this time read: "Shows no sign of consciousness." Temperature was 101.2°F. four hours after admission and was 102.4°F. (corrected) after six hours. Now the nursing log read: "Baby swallowed water without difficulty." At this point the temperature curve started back down and by 7:00 A.M. (11 hours following admission) the child was alert and taking water freely from a spoon. Twenty eight hours after the first injection of ascorbic acid the temperature was normal. Water, milk and orange juice were now taken from a bottle. Cecon (liquid vitamin C) was given by mouth. Discharge was on the 5th hospital day. The initial low fever recording indicated that the child was dying; after ascorbic acid therapy she began to respond, thus the fever. After the virus was killed, the temperature returned to normal.

Case History: Monoxide Poisoning

State highway employee carried into my office in unconscious condition. He was a known diabetic. The breathing was not Kussmaul type and his skin was warm and dry. We elicited the information that he had been found in the cab of his truck with the windows closed and the engine running. It was a cold Winter day. Entertaining a diagnosis of Monoxide intoxication we immediately gave 12 grams ascorbic acid with a 50 c.c. syringe using a 20 gauge needle. (We employ a 20 G. needle when using a 50 c.c. syringe; 21 G needle for a 30 c.c. syringe; 22 G needle for a 20 c.c. syringe and a 23 G needle for a 10 c.c. syringe. This assists in controlling the rate of flow which is important, especially, in young children). Within 10 minutes the patient was awake, sitting up on the edge of the examining table, rubbing his eyes and saving: "Doc, what in the world am I doing up here in your office." He returned to his place of employment within 45 minutes.

Case History #1: Acute Virus qancarditis

A five year old boy was admitted to the local hospital with history of having a "relapse" after recovery from measles. The physical findings showed a thready and feeble pulse. A distinct rub was in evidence by auscultation. The EKG showed RS-T deviations. The temperature was 105°F.. Ascorbic acid calculated at 400 mg per Kg body weight was given intravenously with a syringe. Within two hours the picture had almost reverted to normal. Injection of Vitamin C was repeated in 6 hours and again at 12 hours. A fourth injection was given after 24 hours although the patient was clinically well. The child returned home on the 4th hospital day.

Case History #2: Acute Virus Pancarditis following a deep cold

The findings approximated those of case #1. The parents elected to take the child to Duke Medical Center. Six grams of ascorbic acid was given by needle before starting the trip to the hospital which was 60 miles away. Upon arrival at the Medical Center the child had made such dramatic response to the single injection of ascorbic acid that the parents were tempted to return home. The receiving physician questioned the sickness of the child as being out of proportion to that relayed by me during our telephone conversation. The parents assured the physician that the child had been seriously ill, but that the change came about after receiving the ascorbic acid. Although 50 grams (25 ampoules) of ascorbic acid was sent along with the parents, none was given because the physician in charge stated that he would be afraid to give that size dose, intravenously, to a child. The fact that we had administered six grams, which represented a dose of 400 mg per Kg body weight, apparently had no influence. Laboratory findings, however, confirmed our impression and the child was hospitalized for two weeks. Two additional injections of vitamin C would have cured the child in 24 hours.

Case History: Acute Pancreatitis

Adult Male seen in the emergency room of local hospital complaining of severe, agonizing pain in the epigastrium which radiated to the back. Nausea and vomiting were present. Serum amylase studies showed a concentration of 345. This was the 4th such attack experienced by this patient. Sixty grams ascorbic acid in 700 c.c. Dextrose in water was given intravenously. 20 mg Pantapon was given in the emergency room. No additional opiates were required. The patient made an uneventful recovery. He was placed on 10 grams ascorbic acid by mouth and has not had a recurrence in almost 5 years. He has, however, developed mild diabetes mellitus which is now controlled with diet and vitamin C.

I am in full agreement with Lancelot Hogben who said, "A scientific idea must live dangerously or die of inanition. Science thrives on daring generalizations. There is nothing particularly scientific about excessive caution. Cautious explorers do not cross the Atlantic of truth."
 

A native of Pennsylvania, Dr. Klenner attended St. Vincent and St. Francis College, where he received his B.S. and M.S. degrees in biology. He graduated magna cum laude and was awarded a teaching fellowship there. He was also awarded the college medal for scholastic philosophy. There followed another teaching fellowship in chemistry at Catholic University, Where he pursued studies for a doctorate in physiology.

Dr. Klenner then 'migrated' to North Carolina and Duke University to continue his studies. He arrived in time to use his knowledge in physiology and chemistry to free the nervous system of the frog for a symposium by immersing the animal in 10% nitric acid. Taken in tow by Dr. Pearse, chairman of the department, he was finally persuaded to enter the school of medicine. He completed his studies at Duke University and received his medical degree in 1936.

Dr. Klenner served three years in post graduate hospital training before embarking on a private practice in medicine. Although specializing in diseases of the chest, he continued to do general practice because of the opportunities it afforded for observations in medicine. His patients were as enthusiastic as he in playing guinea pigs to study the action of ascorbic acid. The first massive doses of ascorbic acid he gave to himself. Each time something new appeared on the horizon he took the same amount of ascorbic acid to study its effects so as to come up with the answers.

Dr. Klenner's list of honors and professional society affiliations is tremendous. He is listed in a flock of various "Who's Who" registers. He has published many scientific papers throughout his scientific career.

Neither the author nor the webmaster has authorized the use of their names or the use of any material contained within in connection with the sale, promotion or advertising of any product or apparatus. Single-copy reproduction for individual, non-commercial use is permitted providing no alterations of content are made, and credit is given.