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Growth Hormone Therapy for Muscle Regeneration in Severely Burned Patients

The University of Texas System (UT) logo

The University of Texas System (UT)

Status and phase

Completed
Phase 3
Phase 2

Conditions

Growth Hormone Treatment
Burns

Treatments

Drug: Somatropin
Drug: 0.09% Saline Solution

Study type

Interventional

Funder types

Other
Other U.S. Federal agency
Industry

Identifiers

NCT03038594
W81XWH-15-1-0143 (Other Grant/Funding Number)
19-0298 / 15-0192

Details and patient eligibility

About

The investigators have previously demonstrated that burn injury causes severe muscle wasting, weight and height retardation, and systemic protein catabolism in pediatric and adult burned patients. The persistent loss of muscle impairs the quality of life of the burned patients, and it also delays autonomy and reintegration into the community. In 2009, the investigators showed that the daily injection of recombinant human growth hormone (GH) for nine months post discharge significantly increased height and weight, as well as lean body mass, in pediatric burned subjects. Our long-term goal is to improve the quality of life of burn patients by preventing height, weight, and muscle loss that may occur from severe protein catabolism. The objectives of this application are to a) attenuate height and weight in burned patients with the administration of GH, b) prevent or reverse loss of muscle and strength in these patients, and c) collect pilot data about cardiopulmonary parameters, scar assessments, and muscle metabolism. Our central hypothesis is that the administration of GH will restore depleted levels of growth hormone and will lead to prevention of lean body mass loss and bone mineral content, improve rehabilitation, and accelerate reintegration of severely burned patients. The investigators will administer either placebo or GH (daily subcutaneous injections of 0.05 mg/kg/day of GH [somatropin, Genotropin, Pfizer, New York, NY] to adult burn subjects (n=31 per group, 18-85 years, >30% total body surface burns) for nine months beginning one week prior to discharge. Both groups will be studied for a total of two years. The following aims will be tested: 1) determine the effects of GH supplementation on body composition, such as lean body mass loss, muscle strength, and exercise endurance; and 2) assess whether rehabilitation and subsequent reintegration of severely burned patients into society can be accelerated. Investigators will measure changes in lean body mass, muscle strength and exercise endurance during the acute hospital stay, discharge, and long-term follow-up visits (6, 12, 18, and 24 months after burn), as well as secondary endpoints such as cardiopulmonary variables, hypertrophic scar development, quality of life questionnaires, and concentrations of relevant hormones, cytokines, and oxidative stress markers.

Full description

Either recombinant human growth hormone (daily subcutaneous injections of 0.05 mg/kg/day of GH at discharge [somatropin, Genotropin, Pfizer, New York, NY]; 0.025 mg/kg/day of GH titrated the week before discharge) or placebo (n=31) will be administered to adult burned subjects (n= 31, 18-85 years) after screening and voluntary consent who have ≥30% TBSA assessed by either the Lund and Browder chart or the 'rule of nines' method during excisional surgery. It will be administered daily for 9 months beginning the week before discharge, and the primary and secondary endpoints will be collected during the acute hospital stay, discharge, and long-term follow-up visits (6, 12, 18, and 24 months after burn injury). Additionally, subjects will be contacted frequently [most likely 1 week, 1 month, and 2 months post discharge by telephone] to ensure that there are no adverse events or concerns with their study drug, as well as visit with them during their clinical visits that address their post-burn needs. All subjects will receive similar standard medical care and treatment from the time of emergency admission until their discharge.

Growth hormone will be used to potentially attenuate losses in height, weight, muscle and bone, reverse the oxidative stress of burn injury and, in the process, decrease the secondary consequences of burn injury, including organ dysfunction. This may improve the quality of life of the burn patient by preventing pathophysiology that may result from muscle and bone loss and may reduce hospital stay. Our research will lay the foundation for the future development of effective, safe, and economic therapeutic interventions to treat burn injury-associated metabolic abnormalities. Also, it will provide the basis for the development of supplemental regulations and pharmacotherapy to treat burn patients with GH. The risks are very reasonable in relation to the anticipated benefits to our subjects because a) GH at a higher dose has been tested in pediatric burned subjects with minor adverse events, and b) the subjects will be monitored consistently.

Enrollment

13 patients

Sex

All

Ages

18 to 85 years old

Volunteers

No Healthy Volunteers

Inclusion and exclusion criteria

INCLUSION CRITERIA

  • 18-85 years old
  • Over 30% total body surface area burn
  • Provide consent and comprehend English or Spanish

EXCLUSION CRITERIA

  • History of AIDS, AIDS-related complex, or HIV
  • History of or current hepatitis B or C
  • Pregnancy
  • History of or Active Malignancy
  • Insulin dependent diabetes mellitus type I prior to admission
  • Insulin dependent diabetes mellitus type II (up to 12 months prior to admission)
  • Other hyperglycemic disorders [not including transient post-burn/trauma hyperglycemia]
  • Current oral corticosteroid treatment
  • Currently participating in another interventional clinical trial at UTMB

Trial design

Primary purpose

Treatment

Allocation

Randomized

Interventional model

Parallel Assignment

Masking

Quadruple Blind

13 participants in 2 patient groups, including a placebo group

Growth Hormone
Experimental group
Description:
Daily subcutaneous injections of 0.05 mg/kg/day of Growth Hormone \[somatropin, Genotropin, Pfizer, New York, NY\] will be administered, from one week prior to discharge until 9 months post-burn.
Treatment:
Drug: Somatropin
0.09% saline solution
Placebo Comparator group
Description:
Daily subcutaneous injections of 0.09% of saline solution will be administered, from one week prior to discharge until 9 months post-burn.
Treatment:
Drug: 0.09% Saline Solution

Trial documents
1

Trial contacts and locations

1

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Data sourced from clinicaltrials.gov

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