Drug – bio-affecting and body treating compositions – Preparations characterized by special physical form – Implant or insert
Reexamination Certificate
2001-06-15
2003-06-24
Page, Thurman K. (Department: 1615)
Drug, bio-affecting and body treating compositions
Preparations characterized by special physical form
Implant or insert
C424S423000, C514S003100, C514S004300
Reexamination Certificate
active
06582716
ABSTRACT:
FIELD OF INVENTION
This invention relates to the treatment of wounds, promoting healing and avoiding amputations in diabetic and non-diabetic patients. More specifically, the invention relates to a system and method for treating wounds, promoting healing and avoiding amputations in diabetic and non-diabetic patients with Chronic Intermittent Intravenous Insulin Therapy.
BACKGROUND OF THE INVENTION
Diabetes is the number one cause of non-traumatic amputations. The common sources of amputations are wounds that will not heal and progress to necrosis and gangrene. It is generally observed that diabetic patients have greater difficulty in healing and in overcoming infections. Diabetes in general and poor blood glucose control in particular are thought to be causally related to poor wound repair in diabetic patients, is also a source of a lack of energy and a general feeling of malaise.
The first attempt to treat an ulcer in diabetic patients was to administer antibiotics, improve blood glucose control, and perform surgical debridement of the ulcer. The goal of this approach was to prevent septicemia, improve the metabolism of that patient by improving blood glucose control, decrease insulin resistance and removing necrotic material so that granulation could proceed. This approach has been mildly successful; however many of these patients go on to develop chronic non-healing ulcers which require intensive medical and surgical management.
What is needed is a system and method that increases glucose oxidation in the affected areas and therefore providing more energy while consuming less oxygen for treating wounds, promoting healing and avoiding lower extremity amputations in both diabetic and non-diabetic patients.
SUMMARY
Accordingly, the present invention is a system and method capable of increasing glucose oxidation in an affected area and therefore providing more energy and thereby providing more energy with the same oxygen delivery for treating wounds, promoting healing and avoiding amputations in both diabetic and non-diabetic patients. The current invention is the treating of wounds, promoting healing and avoiding amputations using insulin pulses to a patient utilizing Chronic Intermittent Intravenous Insulin Therapy to achieve an increase in glucose oxidation in tissue surrounding an affected area, therefore treating wounds, promoting healing and avoiding amputations in both diabetic and non-diabetic patients.
The rationale for this improved healing is that the tissue surrounding the affected area suffers from inadequate blood supply, leading to insufficient oxygenation. When this tissue is fueled through enhanced glucose oxidation in lieu of free fatty acid utilization, thereby switching from a predominantly lipid based fuel economy to one based more on glucose oxidation, more energy is available for wound healing for the same amount of blood flow and hence, more healing from the amount of oxygen delivered. In addition, the ability to achieve more energy from less oxygen, thereby addressing a general malaise associated with diabetic individuals who have energy levels which are less than normal.
One preferred embodiment of the invention is a system for treating wounds, promoting healing and avoiding amputations in diabetic and non-diabetic patients through an intravenous administration of a pulse of insulin comprises a means for determining a respiratory quotient of a patient, a liquid or food containing glucose, an intravenous site, and a means of delivering a pulse of insulin at a regular interval of time.
In the preferred embodiment of the treatment system, any instrument capable of measuring the respiratory quotient determines a respiratory quotient of a patient. The respiratory quotient is defined as the ratio of carbon dioxide produced to oxygen consumed by the patient. In the preferred embodiment, a liquid or food containing glucose is consumed by the patient to prevent hypoglycemia. The preferred liquid or food containing glucose is GLUCOLA, however any similar liquid or food containing glucose that will prevent hypoglycemia in the patient may be used.
The preferred means of delivering insulin is an infusion device. It is preferable that the infusion device is capable of providing pulses of insulin on a prearranged interval, so long as there is sufficient glucose in the blood to keep the patient from becoming hypoglycemic. The preferred infusion device is also capable of delivering the pulses of insulin in as short duration of time as possible, without adversely affecting the vein at the site of infusion is used. However, less accurate devices may deliver the pulses and achieve the needed infusion profile of approximately six minutes.
In the preferred embodiment, the intravenous site is a temporary or permanent IV access site located in the body, forearm or hand of the patient. The amount of insulin is tailored to achieve increased glucose utilization by the tissue surrounding the wound area. Increased glucose utilization is measured by a stabilization or decrease in 24 hour urinary protein excretion or stabilization or increase in creatinine clearance. Type 1 diabetic patients receive 20-35 milliunits of insulin per kilogram of body weight per pulse and type 2 diabetic patients receive 70-200 milliunits of insulin per kilogram of body weight per pulse. During periods of non-use, the IV site is preferably converted to a heparin or saline lock.
In one embodiment of the method of the invention, the patient is seated in a blood drawing chair and a 23 gauge needle/catheter is inserted into a hand or forearm vein to obtain vascular access. Although a 23 gauge needle catheter is preferred, any system of such access may accomplish the needed result, including indwelling catheters. After a short equilibration period, usually thirty minutes, the respiratory quotient (the ration of carbon dioxide produced to oxygen consumed by the patient) of the patient is measured. The respiratory quotient measuring device may be any presently known model manufactured by any presently known supplier of such instruments. In the preferred embodiment, the patient is then asked to drink or eat liquid or food containing glucose usually on the order of 60 to 100 grams of glucose. In the preferred embodiment a pulse of insulin is administered intravenously on a regular interval of time, usually every six minutes, until the respiratory quotient (RQ) shows improvement, as indicated by a respiratory quotient of 0.90 or greater. In the preferred embodiment, improvement in RQ is generally achieved within one hour. In the preferred embodiment, the insulin/oral glucose phase is then followed by a rest period of usually one hour. In the preferred embodiment the entire procedure repeated until the desired effect is achieved.
The preferred method of insulin pulse delivery would be a prearranged interval, so long as there is sufficient glucose in the blood to keep the patient from becoming hypoglycemic. In order to determine the progress of the patient, it is preferable the RQ is measured every hour and blood glucose levels are checked every 30 minutes. The blood glucose level may be measured by any means which shows that the patient is not becoming hypoglycemic. In the preferred embodiment, the patient is free to move around after the initial insulin pulses have been administered. In the preferred embodiment, the intravenous site is converted to a heparin or saline lock. The patient returns to the blood drawing chair to receive their next series of insulin pulses. In the preferred embodiment, the subsequent insulin pulses must be covered by supplying glucose by mouth or other means. The total time of the preferred procedure is approximately 6-7 hours.
In the preferred embodiment, two successive days of three treatments are performed with a new patient. In the preferred embodiment, the above is repeated once a week. For patients who need a more intensive approach, it is preferable the procedure be repeated 3 or more times, including continuously each week until the desired clinical outcome is achieved.
In the
Bennett Rachel M.
Masamori Eric G.
Page Thurman K.
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